Maxim Integrated / Mbed OS MAX5715BOB_Tester

Test program running on MAX32625MBED. Control through USB Serial commands using a terminal emulator such as teraterm or putty.

Dependencies:   MaximTinyTester CmdLine MAX541 MAX5715 USBDevice

main.cpp@8:6bdfb1376fed, 2019-06-21 (annotated)

Committer:
whismanoid
Date:
Fri Jun 21 11:06:46 2019 +0000
Revision:
8:6bdfb1376fed
Parent:
7:bf501f8cb637
Child:
9:9b4232e20020
add LED indicators m_PassLED, m_FailLED, m_BusyLED; ; pulse blue LED during test to indicate activity

Who changed what in which revision?

UserRevisionLine numberNew contents of line
whismanoid 0:3edb3708c8c5 1 /*******************************************************************************
whismanoid 0:3edb3708c8c5 2 * Copyright (C) 2019 Maxim Integrated Products, Inc., All Rights Reserved.
whismanoid 0:3edb3708c8c5 3 *
whismanoid 0:3edb3708c8c5 4 * Permission is hereby granted, free of charge, to any person obtaining a
whismanoid 0:3edb3708c8c5 5 * copy of this software and associated documentation files (the "Software"),
whismanoid 0:3edb3708c8c5 6 * to deal in the Software without restriction, including without limitation
whismanoid 0:3edb3708c8c5 7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
whismanoid 0:3edb3708c8c5 8 * and/or sell copies of the Software, and to permit persons to whom the
whismanoid 0:3edb3708c8c5 9 * Software is furnished to do so, subject to the following conditions:
whismanoid 0:3edb3708c8c5 10 *
whismanoid 0:3edb3708c8c5 11 * The above copyright notice and this permission notice shall be included
whismanoid 0:3edb3708c8c5 12 * in all copies or substantial portions of the Software.
whismanoid 0:3edb3708c8c5 13 *
whismanoid 0:3edb3708c8c5 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
whismanoid 0:3edb3708c8c5 15 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
whismanoid 0:3edb3708c8c5 16 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
whismanoid 0:3edb3708c8c5 17 * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
whismanoid 0:3edb3708c8c5 18 * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
whismanoid 0:3edb3708c8c5 19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
whismanoid 0:3edb3708c8c5 20 * OTHER DEALINGS IN THE SOFTWARE.
whismanoid 0:3edb3708c8c5 21 *
whismanoid 0:3edb3708c8c5 22 * Except as contained in this notice, the name of Maxim Integrated
whismanoid 0:3edb3708c8c5 23 * Products, Inc. shall not be used except as stated in the Maxim Integrated
whismanoid 0:3edb3708c8c5 24 * Products, Inc. Branding Policy.
whismanoid 0:3edb3708c8c5 25 *
whismanoid 0:3edb3708c8c5 26 * The mere transfer of this software does not imply any licenses
whismanoid 0:3edb3708c8c5 27 * of trade secrets, proprietary technology, copyrights, patents,
whismanoid 0:3edb3708c8c5 28 * trademarks, maskwork rights, or any other form of intellectual
whismanoid 0:3edb3708c8c5 29 * property whatsoever. Maxim Integrated Products, Inc. retains all
whismanoid 0:3edb3708c8c5 30 * ownership rights.
whismanoid 0:3edb3708c8c5 31 *******************************************************************************
whismanoid 0:3edb3708c8c5 32 */
whismanoid 0:3edb3708c8c5 33
whismanoid 0:3edb3708c8c5 34 // Test fixture and application menu for breakout boards:
whismanoid 0:3edb3708c8c5 35 // - MAX5715BOB
whismanoid 0:3edb3708c8c5 36 // - MAX11131BOB
whismanoid 0:3edb3708c8c5 37 // - MAX5171BOB
whismanoid 0:3edb3708c8c5 38 // Platforms:
whismanoid 0:3edb3708c8c5 39 // - MAX32625MBED
whismanoid 0:3edb3708c8c5 40 // - NUCLEO_F446RE
whismanoid 0:3edb3708c8c5 41 // - NUCLEO_F401RE
whismanoid 0:3edb3708c8c5 42
whismanoid 0:3edb3708c8c5 43 #include "mbed.h"
whismanoid 0:3edb3708c8c5 44 #if defined(TARGET)
whismanoid 0:3edb3708c8c5 45 // TARGET_NAME macros from targets/TARGET_Maxim/TARGET_MAX32625/device/mxc_device.h
whismanoid 0:3edb3708c8c5 46 // Create a string definition for the TARGET
whismanoid 0:3edb3708c8c5 47 #define STRING_ARG(arg) #arg
whismanoid 0:3edb3708c8c5 48 #define STRING_NAME(name) STRING_ARG(name)
whismanoid 0:3edb3708c8c5 49 #define TARGET_NAME STRING_NAME(TARGET)
whismanoid 0:3edb3708c8c5 50 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 51 #define TARGET_NAME "LPC1768"
whismanoid 0:3edb3708c8c5 52 #elif defined(TARGET_NUCLEO_F446RE)
whismanoid 0:3edb3708c8c5 53 #define TARGET_NAME "NUCLEO_F446RE"
whismanoid 0:3edb3708c8c5 54 #elif defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 55 #define TARGET_NAME "NUCLEO_F401RE"
whismanoid 0:3edb3708c8c5 56 #else
whismanoid 0:3edb3708c8c5 57 #error TARGET NOT DEFINED
whismanoid 0:3edb3708c8c5 58 #endif
whismanoid 0:3edb3708c8c5 59 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 60 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 61 // TARGET=MAX32630FTHR ARM Cortex-M4F 96MHz 2048kB Flash 512kB SRAM
whismanoid 0:3edb3708c8c5 62 // +-------------[microUSB]-------------+
whismanoid 0:3edb3708c8c5 63 // | J1 MAX32630FTHR J2 |
whismanoid 0:3edb3708c8c5 64 // ______ | [ ] RST GND [ ] |
whismanoid 0:3edb3708c8c5 65 // ______ | [ ] 3V3 BAT+[ ] |
whismanoid 0:3edb3708c8c5 66 // ______ | [ ] 1V8 reset SW1 |
whismanoid 0:3edb3708c8c5 67 // ______ | [ ] GND J4 J3 |
whismanoid 0:3edb3708c8c5 68 // analogIn0/4 | [a] AIN_0 1.2Vfs (bat) SYS [ ] | switched BAT+
whismanoid 0:3edb3708c8c5 69 // analogIn1/5 | [a] AIN_1 1.2Vfs PWR [ ] | external pwr btn
whismanoid 0:3edb3708c8c5 70 // analogIn2 | [a] AIN_2 1.2Vfs +5V VBUS [ ] | USB +5V power
whismanoid 0:3edb3708c8c5 71 // analogIn3 | [a] AIN_3 1.2Vfs 1-WIRE P4_0 [d] | dig9
whismanoid 0:3edb3708c8c5 72 // (I2C2.SDA) | [d] P5_7 SDA2 SRN P5_6 [d] | dig8
whismanoid 0:3edb3708c8c5 73 // (I2C2.SCL) | [d] P6_0 SCL2 SDIO3 P5_5 [d] | dig7
whismanoid 0:3edb3708c8c5 74 // (SPI.SCLK) | [s] P5_0 SCLK SDIO2 P5_4 [d] | dig6
whismanoid 0:3edb3708c8c5 75 // (SPI.MOSI) | [s] P5_1 MOSI SSEL P5_3 [d] | dig5
whismanoid 0:3edb3708c8c5 76 // (SPI.MISO) | [s] P5_2 MISO RTS P3_3 [d] | dig4
whismanoid 0:3edb3708c8c5 77 // (SPI.CS ) | [s] P3_0 RX CTS P3_2 [d] | dig3
whismanoid 0:3edb3708c8c5 78 // dig0 | [d] P3_1 TX SCL P3_5 [d] | dig2
whismanoid 0:3edb3708c8c5 79 // ______ | [ ] GND SDA P3_4 [d] | dig1
whismanoid 0:3edb3708c8c5 80 // | |
whismanoid 0:3edb3708c8c5 81 // | XIP Flash MAX14690N |
whismanoid 0:3edb3708c8c5 82 // | XIP_SCLK P1_0 SDA2 P5_7 |
whismanoid 0:3edb3708c8c5 83 // | XIP_MOSI P1_1 SCL2 P6_0 |
whismanoid 0:3edb3708c8c5 84 // | XIP_MISO P1_2 PMIC_INIT P3_7 |
whismanoid 0:3edb3708c8c5 85 // | XIP_SSEL P1_3 MPC P2_7 |
whismanoid 0:3edb3708c8c5 86 // | XIP_DIO2 P1_4 MON AIN_0 |
whismanoid 0:3edb3708c8c5 87 // | XIP_DIO3 P1_5 |
whismanoid 0:3edb3708c8c5 88 // | |
whismanoid 0:3edb3708c8c5 89 // | PAN1326B MicroSD LED |
whismanoid 0:3edb3708c8c5 90 // | BT_RX P0_0 SD_SCLK P0_4 r P2_4 |
whismanoid 0:3edb3708c8c5 91 // | BT_TX P0_1 SD_MOSI P0_5 g P2_5 |
whismanoid 0:3edb3708c8c5 92 // | BT_CTS P0_2 SD_MISO P0_6 b P2_6 |
whismanoid 0:3edb3708c8c5 93 // | BT_RTS P0_3 SD_SSEL P0_7 |
whismanoid 0:3edb3708c8c5 94 // | BT_RST P1_6 DETECT P2_2 |
whismanoid 0:3edb3708c8c5 95 // | BT_CLK P1_7 SW2 P2_3 |
whismanoid 0:3edb3708c8c5 96 // +------------------------------------+
whismanoid 0:3edb3708c8c5 97 // MAX32630FTHR board has MAX14690 PMIC on I2C bus (P5_7 SDA, P6_0 SCL) at slave address 0101_000r 0x50 (or 0x28 for 7 MSbit address).
whismanoid 0:3edb3708c8c5 98 // MAX32630FTHR board has BMI160 accelerometer on I2C bus (P5_7 SDA, P6_0 SCL) at slave address 1101_000r 0xD0 (or 0x68 for 7 MSbit address).
whismanoid 0:3edb3708c8c5 99 // AIN_0 = AIN0 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 100 // AIN_1 = AIN1 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 101 // AIN_2 = AIN2 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 102 // AIN_3 = AIN3 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 103 // AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 104 // AIN_5 = AIN1 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 105 // AIN_6 = VDDB / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 106 // AIN_7 = VDD18 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 107 // AIN_8 = VDD12 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 108 // AIN_9 = VRTC / 2.0 fullscale is 2.4V
whismanoid 0:3edb3708c8c5 109 // AIN_10 = x undefined?
whismanoid 0:3edb3708c8c5 110 // AIN_11 = VDDIO / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 111 // AIN_12 = VDDIOH / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 112 //
whismanoid 0:3edb3708c8c5 113 #include "max32630fthr.h"
whismanoid 0:3edb3708c8c5 114 MAX32630FTHR pegasus(MAX32630FTHR::VIO_3V3);
whismanoid 0:3edb3708c8c5 115 #define analogIn4_IS_HIGH_RANGE_OF_analogIn0 1
whismanoid 0:3edb3708c8c5 116 // MAX32630FTHR board supports only internal VREF = 1.200V at bypass capacitor C15
whismanoid 0:3edb3708c8c5 117 const float ADC_FULL_SCALE_VOLTAGE = 1.200;
whismanoid 0:3edb3708c8c5 118 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 119 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 120 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 121 // TARGET=MAX32625MBED ARM Cortex-M4F 96MHz 512kB Flash 160kB SRAM
whismanoid 0:3edb3708c8c5 122 // +-------------------------------------+
whismanoid 0:3edb3708c8c5 123 // | MAX32625MBED Arduino UNO header |
whismanoid 0:3edb3708c8c5 124 // | |
whismanoid 0:3edb3708c8c5 125 // | A5/SCL[ ] | P1_7 dig15
whismanoid 0:3edb3708c8c5 126 // | A4/SDA[ ] | P1_6 dig14
whismanoid 0:3edb3708c8c5 127 // | AREF=N/C[ ] |
whismanoid 0:3edb3708c8c5 128 // | GND[ ] |
whismanoid 0:3edb3708c8c5 129 // | [ ]N/C SCK/13[ ] | P1_0 dig13
whismanoid 0:3edb3708c8c5 130 // | [ ]IOREF=3V3 MISO/12[ ] | P1_2 dig12
whismanoid 0:3edb3708c8c5 131 // | [ ]RST MOSI/11[ ]~| P1_1 dig11
whismanoid 0:3edb3708c8c5 132 // | [ ]3V3 CS/10[ ]~| P1_3 dig10
whismanoid 0:3edb3708c8c5 133 // | [ ]5V0 9[ ]~| P1_5 dig9
whismanoid 0:3edb3708c8c5 134 // | [ ]GND 8[ ] | P1_4 dig8
whismanoid 0:3edb3708c8c5 135 // | [ ]GND |
whismanoid 0:3edb3708c8c5 136 // | [ ]Vin 7[ ] | P0_7 dig7
whismanoid 0:3edb3708c8c5 137 // | 6[ ]~| P0_6 dig6
whismanoid 0:3edb3708c8c5 138 // AIN_0 | [ ]A0 5[ ]~| P0_5 dig5
whismanoid 0:3edb3708c8c5 139 // AIN_1 | [ ]A1 4[ ] | P0_4 dig4
whismanoid 0:3edb3708c8c5 140 // AIN_2 | [ ]A2 INT1/3[ ]~| P0_3 dig3
whismanoid 0:3edb3708c8c5 141 // AIN_3 | [ ]A3 INT0/2[ ] | P0_2 dig2
whismanoid 0:3edb3708c8c5 142 // dig16 P3_4 | [ ]A4/SDA RST SCK MISO TX>1[ ] | P0_1 dig1
whismanoid 0:3edb3708c8c5 143 // dig17 P3_5 | [ ]A5/SCL [ ] [ ] [ ] RX<0[ ] | P0_0 dig0
whismanoid 0:3edb3708c8c5 144 // | [ ] [ ] [ ] |
whismanoid 0:3edb3708c8c5 145 // | UNO_R3 GND MOSI 5V ____________/
whismanoid 0:3edb3708c8c5 146 // \_______________________/
whismanoid 0:3edb3708c8c5 147 //
whismanoid 0:3edb3708c8c5 148 // +------------------------+
whismanoid 0:3edb3708c8c5 149 // | |
whismanoid 0:3edb3708c8c5 150 // | MicroSD LED |
whismanoid 0:3edb3708c8c5 151 // | SD_SCLK P2_4 r P3_0 |
whismanoid 0:3edb3708c8c5 152 // | SD_MOSI P2_5 g P3_1 |
whismanoid 0:3edb3708c8c5 153 // | SD_MISO P2_6 b P3_2 |
whismanoid 0:3edb3708c8c5 154 // | SD_SSEL P2_7 y P3_3 |
whismanoid 0:3edb3708c8c5 155 // | |
whismanoid 0:3edb3708c8c5 156 // | DAPLINK BUTTONS |
whismanoid 0:3edb3708c8c5 157 // | TX P2_1 SW3 P2_3 |
whismanoid 0:3edb3708c8c5 158 // | RX P2_0 SW2 P2_2 |
whismanoid 0:3edb3708c8c5 159 // +------------------------+
whismanoid 0:3edb3708c8c5 160 //
whismanoid 0:3edb3708c8c5 161 // AIN_0 = AIN0 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 162 // AIN_1 = AIN1 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 163 // AIN_2 = AIN2 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 164 // AIN_3 = AIN3 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 165 // AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 166 // AIN_5 = AIN1 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 167 // AIN_6 = VDDB / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 168 // AIN_7 = VDD18 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 169 // AIN_8 = VDD12 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 170 // AIN_9 = VRTC / 2.0 fullscale is 2.4V
whismanoid 0:3edb3708c8c5 171 // AIN_10 = x undefined?
whismanoid 0:3edb3708c8c5 172 // AIN_11 = VDDIO / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 173 // AIN_12 = VDDIOH / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 174 //
whismanoid 0:3edb3708c8c5 175 //#include "max32625mbed.h" // ?
whismanoid 0:3edb3708c8c5 176 //MAX32625MBED mbed(MAX32625MBED::VIO_3V3); // ?
whismanoid 0:3edb3708c8c5 177 #define analogIn4_IS_HIGH_RANGE_OF_analogIn0 1
whismanoid 0:3edb3708c8c5 178 // MAX32630FTHR board supports only internal VREF = 1.200V at bypass capacitor C15
whismanoid 0:3edb3708c8c5 179 const float ADC_FULL_SCALE_VOLTAGE = 1.200; // TODO: ADC_FULL_SCALE_VOLTAGE Pico?
whismanoid 0:3edb3708c8c5 180 // Arduino connector
whismanoid 0:3edb3708c8c5 181 #ifndef A0
whismanoid 0:3edb3708c8c5 182 #define A0 AIN_0
whismanoid 0:3edb3708c8c5 183 #endif
whismanoid 0:3edb3708c8c5 184 #ifndef A1
whismanoid 0:3edb3708c8c5 185 #define A1 AIN_1
whismanoid 0:3edb3708c8c5 186 #endif
whismanoid 0:3edb3708c8c5 187 #ifndef A2
whismanoid 0:3edb3708c8c5 188 #define A2 AIN_2
whismanoid 0:3edb3708c8c5 189 #endif
whismanoid 0:3edb3708c8c5 190 #ifndef A3
whismanoid 0:3edb3708c8c5 191 #define A3 AIN_3
whismanoid 0:3edb3708c8c5 192 #endif
whismanoid 0:3edb3708c8c5 193 #ifndef D0
whismanoid 0:3edb3708c8c5 194 #define D0 P0_0
whismanoid 0:3edb3708c8c5 195 #endif
whismanoid 0:3edb3708c8c5 196 #ifndef D1
whismanoid 0:3edb3708c8c5 197 #define D1 P0_1
whismanoid 0:3edb3708c8c5 198 #endif
whismanoid 0:3edb3708c8c5 199 #ifndef D2
whismanoid 0:3edb3708c8c5 200 #define D2 P0_2
whismanoid 0:3edb3708c8c5 201 #endif
whismanoid 0:3edb3708c8c5 202 #ifndef D3
whismanoid 0:3edb3708c8c5 203 #define D3 P0_3
whismanoid 0:3edb3708c8c5 204 #endif
whismanoid 0:3edb3708c8c5 205 #ifndef D4
whismanoid 0:3edb3708c8c5 206 #define D4 P0_4
whismanoid 0:3edb3708c8c5 207 #endif
whismanoid 0:3edb3708c8c5 208 #ifndef D5
whismanoid 0:3edb3708c8c5 209 #define D5 P0_5
whismanoid 0:3edb3708c8c5 210 #endif
whismanoid 0:3edb3708c8c5 211 #ifndef D6
whismanoid 0:3edb3708c8c5 212 #define D6 P0_6
whismanoid 0:3edb3708c8c5 213 #endif
whismanoid 0:3edb3708c8c5 214 #ifndef D7
whismanoid 0:3edb3708c8c5 215 #define D7 P0_7
whismanoid 0:3edb3708c8c5 216 #endif
whismanoid 0:3edb3708c8c5 217 #ifndef D8
whismanoid 0:3edb3708c8c5 218 #define D8 P1_4
whismanoid 0:3edb3708c8c5 219 #endif
whismanoid 0:3edb3708c8c5 220 #ifndef D9
whismanoid 0:3edb3708c8c5 221 #define D9 P1_5
whismanoid 0:3edb3708c8c5 222 #endif
whismanoid 0:3edb3708c8c5 223 #ifndef D10
whismanoid 0:3edb3708c8c5 224 #define D10 P1_3
whismanoid 0:3edb3708c8c5 225 #endif
whismanoid 0:3edb3708c8c5 226 #ifndef D11
whismanoid 0:3edb3708c8c5 227 #define D11 P1_1
whismanoid 0:3edb3708c8c5 228 #endif
whismanoid 0:3edb3708c8c5 229 #ifndef D12
whismanoid 0:3edb3708c8c5 230 #define D12 P1_2
whismanoid 0:3edb3708c8c5 231 #endif
whismanoid 0:3edb3708c8c5 232 #ifndef D13
whismanoid 0:3edb3708c8c5 233 #define D13 P1_0
whismanoid 0:3edb3708c8c5 234 #endif
whismanoid 0:3edb3708c8c5 235 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 236 #elif defined(TARGET_NUCLEO_F446RE) || defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 237 // TODO1: target NUCLEO_F446RE
whismanoid 0:3edb3708c8c5 238 //
whismanoid 0:3edb3708c8c5 239 // USER_BUTTON PC13
whismanoid 0:3edb3708c8c5 240 // LED1 is shared with SPI_SCK on NUCLEO_F446RE PA_5, so don't use LED1.
whismanoid 0:3edb3708c8c5 241 #define USE_LEDS 0
whismanoid 0:3edb3708c8c5 242 // SPI spi(SPI_MOSI, SPI_MISO, SPI_SCK);
whismanoid 7:bf501f8cb637 243 // Serial serial(SERIAL_TX, SERIAL_RX);
whismanoid 0:3edb3708c8c5 244 #define analogIn4_IS_HIGH_RANGE_OF_analogIn0 0
whismanoid 0:3edb3708c8c5 245 const float ADC_FULL_SCALE_VOLTAGE = 3.300; // TODO: ADC_FULL_SCALE_VOLTAGE Pico?
whismanoid 0:3edb3708c8c5 246 //
whismanoid 0:3edb3708c8c5 247 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 248 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 249 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 250 // TARGET=LPC1768 ARM Cortex-M3 100 MHz 512kB flash 64kB SRAM
whismanoid 0:3edb3708c8c5 251 // +-------------[microUSB]-------------+
whismanoid 0:3edb3708c8c5 252 // ______ | [ ] GND +3.3V VOUT [ ] | ______
whismanoid 0:3edb3708c8c5 253 // ______ | [ ] 4.5V<VIN<9.0V +5.0V VU [ ] | ______
whismanoid 0:3edb3708c8c5 254 // ______ | [ ] VB USB.IF- [ ] | ______
whismanoid 0:3edb3708c8c5 255 // ______ | [ ] nR USB.IF+ [ ] | ______
whismanoid 0:3edb3708c8c5 256 // digitalInOut0 | [ ] p5 MOSI ETHERNET.RD- [ ] | ______
whismanoid 0:3edb3708c8c5 257 // digitalInOut1 | [ ] p6 MISO ETHERNET.RD+ [ ] | ______
whismanoid 0:3edb3708c8c5 258 // digitalInOut2 | [ ] p7 SCLK ETHERNET.TD- [ ] | ______
whismanoid 0:3edb3708c8c5 259 // digitalInOut3 | [ ] p8 ETHERNET.TD+ [ ] | ______
whismanoid 0:3edb3708c8c5 260 // digitalInOut4 | [ ] p9 TX SDA USB.D- [ ] | ______
whismanoid 0:3edb3708c8c5 261 // digitalInOut5 | [ ] p10 RX SCL USB.D+ [ ] | ______
whismanoid 0:3edb3708c8c5 262 // digitalInOut6 | [ ] p11 MOSI CAN-RD p30 [ ] | digitalInOut13
whismanoid 0:3edb3708c8c5 263 // digitalInOut7 | [ ] p12 MISO CAN-TD p29 [ ] | digitalInOut12
whismanoid 0:3edb3708c8c5 264 // digitalInOut8 | [ ] p13 TX SCLK SDA TX p28 [ ] | digitalInOut11
whismanoid 0:3edb3708c8c5 265 // digitalInOut9 | [ ] p14 RX SCL RX p27 [ ] | digitalInOut10
whismanoid 0:3edb3708c8c5 266 // analogIn0 | [ ] p15 AIN0 3.3Vfs PWM1 p26 [ ] | pwmDriver1
whismanoid 0:3edb3708c8c5 267 // analogIn1 | [ ] p16 AIN1 3.3Vfs PWM2 p25 [ ] | pwmDriver2
whismanoid 0:3edb3708c8c5 268 // analogIn2 | [ ] p17 AIN2 3.3Vfs PWM3 p24 [ ] | pwmDriver3
whismanoid 0:3edb3708c8c5 269 // analogIn3 | [ ] p18 AIN3 AOUT PWM4 p23 [ ] | pwmDriver4
whismanoid 0:3edb3708c8c5 270 // analogIn4 | [ ] p19 AIN4 3.3Vfs PWM5 p22 [ ] | pwmDriver5
whismanoid 0:3edb3708c8c5 271 // analogIn5 | [ ] p20 AIN5 3.3Vfs PWM6 p21 [ ] | pwmDriver6
whismanoid 0:3edb3708c8c5 272 // +------------------------------------+
whismanoid 0:3edb3708c8c5 273 // AIN6 = P0.3 = TGT_SBL_RXD?
whismanoid 0:3edb3708c8c5 274 // AIN7 = P0.2 = TGT_SBL_TXD?
whismanoid 0:3edb3708c8c5 275 //
whismanoid 0:3edb3708c8c5 276 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 277 // LPC1768 board uses VREF = 3.300V +A3,3V thru L1 to bypass capacitor C14
whismanoid 0:3edb3708c8c5 278 #define analogIn4_IS_HIGH_RANGE_OF_analogIn0 0
whismanoid 0:3edb3708c8c5 279 const float ADC_FULL_SCALE_VOLTAGE = 3.300;
whismanoid 0:3edb3708c8c5 280 #else // not defined(TARGET_LPC1768 etc.)
whismanoid 0:3edb3708c8c5 281 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 282 // unknown target
whismanoid 0:3edb3708c8c5 283 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 284 #endif // target definition
whismanoid 0:3edb3708c8c5 285
whismanoid 0:3edb3708c8c5 286
whismanoid 0:3edb3708c8c5 287 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 288 // alphanumeric command codes A-Z,a-z,0-9 reserved for application use
whismanoid 0:3edb3708c8c5 289 #ifndef APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 290 #define APPLICATION_ArduinoPinsMonitor 1
whismanoid 0:3edb3708c8c5 291 #endif // APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 292
whismanoid 0:3edb3708c8c5 293 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 294 // Support MAX5715BOB Breakout Board
whismanoid 0:3edb3708c8c5 295 #ifndef APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 296 #define APPLICATION_MAX5715 1
whismanoid 0:3edb3708c8c5 297 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 298 #if APPLICATION_MAX5715 // header file
whismanoid 0:3edb3708c8c5 299 #include "MAX5715.h"
whismanoid 0:3edb3708c8c5 300 // suppress the I2C diagnostics, not relevant to this chip
whismanoid 0:3edb3708c8c5 301 #define HAS_I2C 0
whismanoid 0:3edb3708c8c5 302 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 303
whismanoid 0:3edb3708c8c5 304 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 305 // Support MAX11131BOB Breakout Board
whismanoid 0:3edb3708c8c5 306 #ifndef APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 307 #define APPLICATION_MAX11131 0
whismanoid 0:3edb3708c8c5 308 #endif // APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 309 #if APPLICATION_MAX11131 // header file
whismanoid 0:3edb3708c8c5 310 #include "MAX11131.h"
whismanoid 0:3edb3708c8c5 311 // suppress the I2C diagnostics, not relevant to this chip
whismanoid 0:3edb3708c8c5 312 #define HAS_I2C 0
whismanoid 0:3edb3708c8c5 313 #endif // APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 314
whismanoid 0:3edb3708c8c5 315 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 316 // Support MAX5171BOB Breakout Board
whismanoid 0:3edb3708c8c5 317 #ifndef APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 318 #define APPLICATION_MAX5171 0
whismanoid 0:3edb3708c8c5 319 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 320 #if APPLICATION_MAX5171 // header file
whismanoid 0:3edb3708c8c5 321 #include "MAX5171.h"
whismanoid 0:3edb3708c8c5 322 // suppress the I2C diagnostics, not relevant to this chip
whismanoid 0:3edb3708c8c5 323 #define HAS_I2C 0
whismanoid 0:3edb3708c8c5 324 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 325
whismanoid 0:3edb3708c8c5 326 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 327 // Support MAX11410BOB Breakout Board (placeholder)
whismanoid 0:3edb3708c8c5 328 #ifndef APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 329 #define APPLICATION_MAX11410 0
whismanoid 0:3edb3708c8c5 330 #endif // APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 331 #if APPLICATION_MAX11410 // header file
whismanoid 0:3edb3708c8c5 332 #include "MAX11410.h"
whismanoid 0:3edb3708c8c5 333 #endif // APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 334
whismanoid 0:3edb3708c8c5 335 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 336 // Support MAX12345BOB Breakout Board (placeholder)
whismanoid 0:3edb3708c8c5 337 #ifndef APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 338 #define APPLICATION_MAX12345 0
whismanoid 0:3edb3708c8c5 339 #endif // APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 340 #if APPLICATION_MAX12345 // header file
whismanoid 0:3edb3708c8c5 341 #include "MAX12345.h"
whismanoid 0:3edb3708c8c5 342 #endif // APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 343
whismanoid 0:3edb3708c8c5 344
whismanoid 0:3edb3708c8c5 345 #include "MAX541.h"
whismanoid 0:3edb3708c8c5 346
whismanoid 0:3edb3708c8c5 347 #include "MaximTinyTester.h"
whismanoid 0:3edb3708c8c5 348
whismanoid 0:3edb3708c8c5 349 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 350 // Option to dedicate SPI port pins
whismanoid 0:3edb3708c8c5 351 //
whismanoid 0:3edb3708c8c5 352 // SPI2_MOSI = P5_1
whismanoid 0:3edb3708c8c5 353 // SPI2_MISO = P5_2
whismanoid 0:3edb3708c8c5 354 // SPI2_SCK = P5_0
whismanoid 0:3edb3708c8c5 355 // On this board I'm using P3_0 as spi_cs
whismanoid 0:3edb3708c8c5 356 // SPI2_SS = P5_3
whismanoid 0:3edb3708c8c5 357 // SPI2_SDIO2 = P5_4
whismanoid 0:3edb3708c8c5 358 // SPI2_SDIO3 = P5_5
whismanoid 0:3edb3708c8c5 359 // SPI2_SRN = P5_6
whismanoid 0:3edb3708c8c5 360 //
whismanoid 0:3edb3708c8c5 361 #ifndef HAS_SPI
whismanoid 0:3edb3708c8c5 362 #define HAS_SPI 1
whismanoid 0:3edb3708c8c5 363 #endif
whismanoid 0:3edb3708c8c5 364 #if HAS_SPI
whismanoid 0:3edb3708c8c5 365 #define SPI_MODE0 0
whismanoid 0:3edb3708c8c5 366 #define SPI_MODE1 1
whismanoid 0:3edb3708c8c5 367 #define SPI_MODE2 2
whismanoid 0:3edb3708c8c5 368 #define SPI_MODE3 3
whismanoid 0:3edb3708c8c5 369 //
whismanoid 0:3edb3708c8c5 370 // Define application-specific default SPI_SCLK_Hz and SPI_dataMode
whismanoid 0:3edb3708c8c5 371 #if APPLICATION_MAX5715 // SPI interface default settings
whismanoid 0:3edb3708c8c5 372 //
whismanoid 0:3edb3708c8c5 373 //#define SPI_SCLK_Hz 48000000 // 48MHz
whismanoid 0:3edb3708c8c5 374 //#define SPI_SCLK_Hz 24000000 // 24MHz
whismanoid 0:3edb3708c8c5 375 #define SPI_SCLK_Hz 12000000 // 12MHz
whismanoid 0:3edb3708c8c5 376 //#define SPI_SCLK_Hz 4000000 // 4MHz
whismanoid 0:3edb3708c8c5 377 //#define SPI_SCLK_Hz 2000000 // 2MHz
whismanoid 0:3edb3708c8c5 378 //#define SPI_SCLK_Hz 1000000 // 1MHz
whismanoid 0:3edb3708c8c5 379 #define SPI_dataMode SPI_MODE2 // CPOL=1,CPHA=0: Falling Edge stable; SCLK idle High
whismanoid 0:3edb3708c8c5 380 //
whismanoid 0:3edb3708c8c5 381 #elif APPLICATION_MAX11131 // SPI interface default settings
whismanoid 0:3edb3708c8c5 382 //
whismanoid 0:3edb3708c8c5 383 //#define SPI_SCLK_Hz 48000000 // 48MHz
whismanoid 0:3edb3708c8c5 384 //#define SPI_SCLK_Hz 24000000 // 24MHz
whismanoid 0:3edb3708c8c5 385 #define SPI_SCLK_Hz 12000000 // 12MHz
whismanoid 0:3edb3708c8c5 386 //#define SPI_SCLK_Hz 4000000 // 4MHz
whismanoid 0:3edb3708c8c5 387 //#define SPI_SCLK_Hz 2000000 // 2MHz
whismanoid 0:3edb3708c8c5 388 //#define SPI_SCLK_Hz 1000000 // 1MHz
whismanoid 0:3edb3708c8c5 389 #define SPI_dataMode SPI_MODE3 // CPOL=1,CPHA=1: Rising Edge stable; SCLK idle High
whismanoid 0:3edb3708c8c5 390 //
whismanoid 0:3edb3708c8c5 391 #elif APPLICATION_MAX5171 // SPI interface default settings
whismanoid 0:3edb3708c8c5 392 //
whismanoid 0:3edb3708c8c5 393 //#define SPI_SCLK_Hz 48000000 // 48MHz
whismanoid 0:3edb3708c8c5 394 //#define SPI_SCLK_Hz 24000000 // 24MHz
whismanoid 0:3edb3708c8c5 395 #define SPI_SCLK_Hz 12000000 // 12MHz
whismanoid 0:3edb3708c8c5 396 //#define SPI_SCLK_Hz 4000000 // 4MHz
whismanoid 0:3edb3708c8c5 397 //#define SPI_SCLK_Hz 2000000 // 2MHz
whismanoid 0:3edb3708c8c5 398 //#define SPI_SCLK_Hz 1000000 // 1MHz
whismanoid 0:3edb3708c8c5 399 #define SPI_dataMode SPI_MODE3 // CPOL=1,CPHA=1: Rising Edge stable; SCLK idle High
whismanoid 0:3edb3708c8c5 400 //
whismanoid 0:3edb3708c8c5 401 #elif APPLICATION_MAX11410 // SPI interface default settings
whismanoid 0:3edb3708c8c5 402 //
whismanoid 0:3edb3708c8c5 403 //#define SPI_SCLK_Hz 48000000 // 48MHz
whismanoid 0:3edb3708c8c5 404 //#define SPI_SCLK_Hz 24000000 // 24MHz
whismanoid 0:3edb3708c8c5 405 //#define SPI_SCLK_Hz 12000000 // 12MHz
whismanoid 0:3edb3708c8c5 406 #define SPI_SCLK_Hz 8000000 // 8MHz
whismanoid 0:3edb3708c8c5 407 //#define SPI_SCLK_Hz 4000000 // 4MHz
whismanoid 0:3edb3708c8c5 408 //#define SPI_SCLK_Hz 2000000 // 2MHz
whismanoid 0:3edb3708c8c5 409 //#define SPI_SCLK_Hz 1000000 // 1MHz
whismanoid 0:3edb3708c8c5 410 #define SPI_dataMode SPI_MODE0 // CPOL=0,CPHA=0: Falling Edge stable; SCLK idle Low
whismanoid 0:3edb3708c8c5 411 //
whismanoid 0:3edb3708c8c5 412 #elif APPLICATION_MAX12345 // SPI interface default settings
whismanoid 0:3edb3708c8c5 413 //
whismanoid 0:3edb3708c8c5 414 //#define SPI_SCLK_Hz 48000000 // 48MHz
whismanoid 0:3edb3708c8c5 415 //#define SPI_SCLK_Hz 24000000 // 24MHz
whismanoid 0:3edb3708c8c5 416 #define SPI_SCLK_Hz 12000000 // 12MHz
whismanoid 0:3edb3708c8c5 417 //#define SPI_SCLK_Hz 4000000 // 4MHz
whismanoid 0:3edb3708c8c5 418 //#define SPI_SCLK_Hz 2000000 // 2MHz
whismanoid 0:3edb3708c8c5 419 //#define SPI_SCLK_Hz 1000000 // 1MHz
whismanoid 0:3edb3708c8c5 420 #define SPI_dataMode SPI_MODE3 // CPOL=1,CPHA=1: Rising Edge stable; SCLK idle High
whismanoid 0:3edb3708c8c5 421 //
whismanoid 0:3edb3708c8c5 422 #else // APPLICATION_ArduinoPinsMonitor diagnostic
whismanoid 0:3edb3708c8c5 423 //
whismanoid 0:3edb3708c8c5 424 //#define SPI_SCLK_Hz 48000000 // 48MHz
whismanoid 0:3edb3708c8c5 425 //#define SPI_SCLK_Hz 4000000 // 4MHz
whismanoid 0:3edb3708c8c5 426 //#define SPI_SCLK_Hz 2000000 // 2MHz
whismanoid 0:3edb3708c8c5 427 #define SPI_SCLK_Hz 1000000 // 1MHz
whismanoid 0:3edb3708c8c5 428 //#define SPI_dataMode SPI_MODE0 // CPOL=0,CPHA=0: Rising Edge stable; SCLK idle Low
whismanoid 0:3edb3708c8c5 429 //#define SPI_dataMode SPI_MODE1 // CPOL=0,CPHA=1: Falling Edge stable; SCLK idle Low
whismanoid 0:3edb3708c8c5 430 //#define SPI_dataMode SPI_MODE2 // CPOL=1,CPHA=0: Falling Edge stable; SCLK idle High
whismanoid 0:3edb3708c8c5 431 #define SPI_dataMode SPI_MODE3 // CPOL=1,CPHA=1: Rising Edge stable; SCLK idle High
whismanoid 0:3edb3708c8c5 432 //
whismanoid 0:3edb3708c8c5 433 #endif
whismanoid 0:3edb3708c8c5 434 //
whismanoid 0:3edb3708c8c5 435 uint32_t g_SPI_SCLK_Hz = SPI_SCLK_Hz;
whismanoid 0:3edb3708c8c5 436 // TODO1: validate g_SPI_SCLK_Hz against system clock frequency SystemCoreClock F_CPU
whismanoid 0:3edb3708c8c5 437 #if defined(TARGET_NUCLEO_F446RE) || defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 438 // Nucleo SPI frequency isn't working quite as expected...
whismanoid 0:3edb3708c8c5 439 // Looks like STMF4 has an spi clock prescaler (2,4,8,16,32,64,128,256)
whismanoid 0:3edb3708c8c5 440 // so 180MHz->[90.0, 45.0, 22.5, 11.25, 5.625, 2.8125, 1.40625, 0.703125]
whismanoid 0:3edb3708c8c5 441 // %SC SCLK=1MHz sets spi frequency 703.125kHz
whismanoid 0:3edb3708c8c5 442 // %SC SCLK=2MHz sets spi frequency 1.40625MHz
whismanoid 0:3edb3708c8c5 443 // %SC SCLK=3MHz sets spi frequency 2.8125MHz
whismanoid 0:3edb3708c8c5 444 // %SC SCLK=6MHz sets spi frequency 5.625MHz
whismanoid 0:3edb3708c8c5 445 // %SC SCLK=12MHz sets spi frequency 11.25MHz
whismanoid 0:3edb3708c8c5 446 // %SC SCLK=23MHz sets spi frequency 22.5MHz
whismanoid 0:3edb3708c8c5 447 // %SC SCLK=45MHz sets spi frequency 45.0MHz
whismanoid 0:3edb3708c8c5 448 // Don't know why I can't reach spi frequency 90.0MHz, but ok whatever.
whismanoid 0:3edb3708c8c5 449 const uint32_t limit_min_SPI_SCLK_divisor = 2;
whismanoid 0:3edb3708c8c5 450 const uint32_t limit_max_SPI_SCLK_divisor = 256;
whismanoid 0:3edb3708c8c5 451 // not really a divisor, just a powers-of-two prescaler with no intermediate divisors.
whismanoid 0:3edb3708c8c5 452 #else
whismanoid 0:3edb3708c8c5 453 const uint32_t limit_min_SPI_SCLK_divisor = 2;
whismanoid 0:3edb3708c8c5 454 const uint32_t limit_max_SPI_SCLK_divisor = 8191;
whismanoid 0:3edb3708c8c5 455 #endif
whismanoid 0:3edb3708c8c5 456 const uint32_t limit_max_SPI_SCLK_Hz = (SystemCoreClock / limit_min_SPI_SCLK_divisor); // F_CPU / 2; // 8MHz / 2 = 4MHz
whismanoid 0:3edb3708c8c5 457 const uint32_t limit_min_SPI_SCLK_Hz = (SystemCoreClock / limit_max_SPI_SCLK_divisor); // F_CPU / 128; // 8MHz / 128 = 62.5kHz
whismanoid 0:3edb3708c8c5 458 //
whismanoid 0:3edb3708c8c5 459 uint8_t g_SPI_dataMode = SPI_dataMode;
whismanoid 0:3edb3708c8c5 460 uint8_t g_SPI_cs_state = 1;
whismanoid 0:3edb3708c8c5 461 //
whismanoid 0:3edb3708c8c5 462 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 463 // TODO1: avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 464 // void spi_init(spi_t *obj, PinName mosi, PinName miso, PinName sclk, PinName ssel)
whismanoid 0:3edb3708c8c5 465 //SPI spi0(SPI0_MOSI, SPI0_MISO, SPI0_SCK); // mosi, miso, sclk spi0 MAX32630FTHR: P0_5 P0_6 P0_4 ok but this is the microSD card, can't contact pins
whismanoid 0:3edb3708c8c5 466 //SPI spi1(SPI1_MOSI, SPI1_MISO, SPI1_SCK); // mosi, miso, sclk spi1 MAX32630FTHR: P1_1 P1_2 P1_0 ok but this is the xip flash, can't contact pins
whismanoid 0:3edb3708c8c5 467 //SPI spi2(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // mosi, miso, sclk spi2 MAX32630FTHR: P5_1, P5_2, P5_0
whismanoid 0:3edb3708c8c5 468 SPI spi(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // mosi, miso, sclk spi2 MAX32630FTHR: P5_1, P5_2, P5_0
whismanoid 0:3edb3708c8c5 469 //
whismanoid 0:3edb3708c8c5 470 DigitalOut spi_cs(P3_0);
whismanoid 0:3edb3708c8c5 471 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 472 // TODO1: avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 473 // void spi_init(spi_t *obj, PinName mosi, PinName miso, PinName sclk, PinName ssel)
whismanoid 0:3edb3708c8c5 474 //SPI spi(SPI0_MOSI, SPI0_MISO, SPI0_SCK); // mosi, miso, sclk spi0 TARGET_MAX32635MBED: P0_5 P0_6 P0_4 Arduino 8-pin header D5 D6 D7
whismanoid 0:3edb3708c8c5 475 //DigitalOut spi_cs(SPI0_SS); // TARGET_MAX32635MBED: P0_7 Arduino 8-pin header D4
whismanoid 0:3edb3708c8c5 476 SPI spi(SPI1_MOSI, SPI1_MISO, SPI1_SCK); // mosi, miso, sclk spi1 TARGET_MAX32635MBED: P1_1 P1_2 P1_0 Arduino 10-pin header D11 D12 D13
whismanoid 0:3edb3708c8c5 477 DigitalOut spi_cs(SPI1_SS); // TARGET_MAX32635MBED: P1_3 Arduino 10-pin header D10
whismanoid 0:3edb3708c8c5 478 SPI spi2_max541(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // mosi, miso, sclk spi2 TARGET_MAX32635MBED: P2_5 P2_6 P2_4 Arduino 2x3-pin header; microSD
whismanoid 0:3edb3708c8c5 479 DigitalOut spi2_max541_cs(SPI2_SS); // TARGET_MAX32635MBED: P2_7 Arduino 2x3-pin header
whismanoid 0:3edb3708c8c5 480 #define HAS_SPI2_MAX541 1
whismanoid 0:3edb3708c8c5 481 //
whismanoid 0:3edb3708c8c5 482 #elif defined(TARGET_NUCLEO_F446RE) || defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 483 // TODO1: avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 484 // void spi_init(spi_t *obj, PinName mosi, PinName miso, PinName sclk, PinName ssel)
whismanoid 0:3edb3708c8c5 485 //
whismanoid 0:3edb3708c8c5 486 // TODO1: NUCLEO_F446RE SPI not working; CS and MOSI data looks OK but no SCLK clock pulses.
whismanoid 0:3edb3708c8c5 487 SPI spi(SPI_MOSI, SPI_MISO, SPI_SCK); // mosi, miso, sclk spi1 TARGET_NUCLEO_F446RE: Arduino 10-pin header D11 D12 D13
whismanoid 0:3edb3708c8c5 488 DigitalOut spi_cs(SPI_CS); // TARGET_NUCLEO_F446RE: PB_6 Arduino 10-pin header D10
whismanoid 0:3edb3708c8c5 489 //
whismanoid 0:3edb3708c8c5 490 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 491 // TODO1: avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 492 // void spi_init(spi_t *obj, PinName mosi, PinName miso, PinName sclk, PinName ssel)
whismanoid 0:3edb3708c8c5 493 //SPI spi0(SPI0_MOSI, SPI0_MISO, SPI0_SCK); // mosi, miso, sclk spi0 MAX32630FTHR: P0_5 P0_6 P0_4 ok but this is the microSD card, can't contact pins
whismanoid 0:3edb3708c8c5 494 //SPI spi1(SPI1_MOSI, SPI1_MISO, SPI1_SCK); // mosi, miso, sclk spi1 MAX32630FTHR: P1_1 P1_2 P1_0 ok but this is the xip flash, can't contact pins
whismanoid 0:3edb3708c8c5 495 //SPI spi2(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // mosi, miso, sclk spi2 MAX32630FTHR: P5_1, P5_2, P5_0
whismanoid 0:3edb3708c8c5 496 SPI spi(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // mosi, miso, sclk spi2 MAX32630FTHR: P5_1, P5_2, P5_0
whismanoid 0:3edb3708c8c5 497 //
whismanoid 0:3edb3708c8c5 498 DigitalOut spi_cs(P3_0);
whismanoid 0:3edb3708c8c5 499 #else
whismanoid 0:3edb3708c8c5 500 // unknown target
whismanoid 0:3edb3708c8c5 501 #endif
whismanoid 0:3edb3708c8c5 502 #endif
whismanoid 0:3edb3708c8c5 503
whismanoid 0:3edb3708c8c5 504 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 505 // Device driver object
whismanoid 0:3edb3708c8c5 506 #if APPLICATION_MAX5715 // SPI interface default settings
whismanoid 0:3edb3708c8c5 507 DigitalOut LDACb_pin(D9); // Arduino 10-pin header D9
whismanoid 0:3edb3708c8c5 508 DigitalOut CLRb_pin(D8); // Arduino 10-pin header D8
whismanoid 0:3edb3708c8c5 509 //~ DigitalIn RDYb_pin(D12); // Arduino 10-pin header D12 (MISO)
whismanoid 0:3edb3708c8c5 510 MAX5715 g_MAX5715_device(spi, spi_cs,
whismanoid 0:3edb3708c8c5 511 LDACb_pin,
whismanoid 0:3edb3708c8c5 512 CLRb_pin,
whismanoid 0:3edb3708c8c5 513 ///* RDYb_pin */ digitalInOut12,
whismanoid 0:3edb3708c8c5 514 MAX5715::MAX5715_IC);
whismanoid 0:3edb3708c8c5 515 //
whismanoid 0:3edb3708c8c5 516 #elif APPLICATION_MAX11131 // SPI interface default settings
whismanoid 0:3edb3708c8c5 517 DigitalOut CNVSTb_pin(D9); // Arduino 10-pin header D9
whismanoid 0:3edb3708c8c5 518 //DigitalOut CLRb_pin(D8); // Arduino 10-pin header D8
whismanoid 0:3edb3708c8c5 519 DigitalIn EOCb_pin(D12); // Arduino 10-pin header D12 (MISO)
whismanoid 0:3edb3708c8c5 520 MAX11131 g_MAX11131_device(spi, spi_cs,
whismanoid 0:3edb3708c8c5 521 CNVSTb_pin,
whismanoid 0:3edb3708c8c5 522 EOCb_pin,
whismanoid 0:3edb3708c8c5 523 ///* RDYb_pin */ digitalInOut12,
whismanoid 0:3edb3708c8c5 524 MAX11131::MAX11131_IC);
whismanoid 0:3edb3708c8c5 525 //
whismanoid 0:3edb3708c8c5 526 //
whismanoid 0:3edb3708c8c5 527 #elif APPLICATION_MAX5171 // SPI interface default settings
whismanoid 0:3edb3708c8c5 528 // AnalogOut FB_pin(Px_x_PortName_To_Be_Determined); // Analog Input to MAX5171 device
whismanoid 0:3edb3708c8c5 529 DigitalOut RS_pin(D9); // Digital Configuration Input to MAX5171 device
whismanoid 0:3edb3708c8c5 530 DigitalOut PDLb_pin(D8); // Digital Configuration Input to MAX5171 device
whismanoid 0:3edb3708c8c5 531 DigitalOut CLRb_pin(D7); // Digital Configuration Input to MAX5171 device
whismanoid 0:3edb3708c8c5 532 DigitalOut SHDN_pin(D6); // Digital Configuration Input to MAX5171 device
whismanoid 0:3edb3708c8c5 533 // AnalogIn OUT_pin(A0); // Analog Output from MAX5171 device
whismanoid 0:3edb3708c8c5 534 DigitalIn UPO_pin(D2); // Digital General-Purpose Output from MAX5171 device
whismanoid 0:3edb3708c8c5 535 MAX5171 g_MAX5171_device(spi, spi_cs, RS_pin, PDLb_pin, CLRb_pin, SHDN_pin, UPO_pin, MAX5171::MAX5171_IC);
whismanoid 0:3edb3708c8c5 536 //
whismanoid 0:3edb3708c8c5 537 #elif APPLICATION_MAX11410 // SPI interface default settings
whismanoid 0:3edb3708c8c5 538 //
whismanoid 0:3edb3708c8c5 539 MAX11410 g_MAX11410_device(spi, spi_cs, MAX11410::MAX11410_IC);
whismanoid 0:3edb3708c8c5 540 //
whismanoid 0:3edb3708c8c5 541 #elif APPLICATION_MAX12345 // SPI interface default settings
whismanoid 0:3edb3708c8c5 542 //
whismanoid 0:3edb3708c8c5 543 MAX12345 g_MAX12345_device(spi, spi_cs, ...);
whismanoid 0:3edb3708c8c5 544 //
whismanoid 0:3edb3708c8c5 545 #else // APPLICATION_ArduinoPinsMonitor diagnostic
whismanoid 0:3edb3708c8c5 546 //
whismanoid 0:3edb3708c8c5 547 #endif
whismanoid 0:3edb3708c8c5 548
whismanoid 0:3edb3708c8c5 549
whismanoid 0:3edb3708c8c5 550 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 551 // Option to dedicate I2C port pins
whismanoid 0:3edb3708c8c5 552 //
whismanoid 0:3edb3708c8c5 553 #ifndef HAS_I2C
whismanoid 0:3edb3708c8c5 554 #define HAS_I2C 1
whismanoid 0:3edb3708c8c5 555 #endif
whismanoid 0:3edb3708c8c5 556 #if HAS_I2C
whismanoid 0:3edb3708c8c5 557 //#include "I2C.h"
whismanoid 0:3edb3708c8c5 558 //#include "I2CSlave.h"
whismanoid 0:3edb3708c8c5 559 //#define I2C_SCL_Hz 400000 // 400kHz
whismanoid 0:3edb3708c8c5 560 //#define I2C_SCL_Hz 200000 // 200kHz
whismanoid 0:3edb3708c8c5 561 #define I2C_SCL_Hz 100000 // 100kHz
whismanoid 0:3edb3708c8c5 562 //
whismanoid 0:3edb3708c8c5 563 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 564 // TODO1: validate g_I2C_SCL_Hz against system clock frequency SystemCoreClock F_CPU
whismanoid 0:3edb3708c8c5 565 const uint32_t limit_max_I2C_SCL_Hz = (SystemCoreClock / 2); // F_CPU / 2; // 8MHz / 2 = 4MHz
whismanoid 0:3edb3708c8c5 566 const uint32_t limit_min_I2C_SCL_Hz = (SystemCoreClock / 8191); // F_CPU / 128; // 8MHz / 128 = 62.5kHz
whismanoid 0:3edb3708c8c5 567 //
whismanoid 0:3edb3708c8c5 568 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 569 //I2C i2cMaster0(I2C0_SDA, I2C0_SCL); // sda scl MAX32630FTHR: NOT_CONNECTED
whismanoid 0:3edb3708c8c5 570 //I2C i2cMaster1(I2C1_SDA, I2C1_SCL); // sda scl MAX32630FTHR: P3_4, P3_5
whismanoid 0:3edb3708c8c5 571 //I2C i2cMaster2(I2C2_SDA, I2C2_SCL); // sda scl MAX32630FTHR: P5_7, P6_0
whismanoid 0:3edb3708c8c5 572 //I2C i2cMaster(I2C2_SDA, I2C2_SCL); // sda scl MAX32630FTHR: P5_7, P6_0
whismanoid 0:3edb3708c8c5 573 //
whismanoid 0:3edb3708c8c5 574 //I2CSlave i2cSlave0(I2C0_SDA, I2C0_SCL); // sda scl MAX32630FTHR: NOT_CONNECTED
whismanoid 0:3edb3708c8c5 575 //I2CSlave i2cSlave1(I2C1_SDA, I2C1_SCL); // sda scl MAX32630FTHR: P3_4, P3_5
whismanoid 0:3edb3708c8c5 576 //I2CSlave i2cSlave2(I2C2_SDA, I2C2_SCL); // sda scl MAX32630FTHR: P5_7, P6_0
whismanoid 0:3edb3708c8c5 577 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 578 // TODO1: validate g_I2C_SCL_Hz against system clock frequency SystemCoreClock F_CPU
whismanoid 0:3edb3708c8c5 579 const uint32_t limit_max_I2C_SCL_Hz = (SystemCoreClock / 2); // F_CPU / 2; // 8MHz / 2 = 4MHz
whismanoid 0:3edb3708c8c5 580 const uint32_t limit_min_I2C_SCL_Hz = (SystemCoreClock / 8191); // F_CPU / 128; // 8MHz / 128 = 62.5kHz
whismanoid 0:3edb3708c8c5 581 //
whismanoid 0:3edb3708c8c5 582 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 583 //I2C i2cMaster0(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 584 //I2C i2cMaster1(I2C1_SDA, I2C1_SCL); // sda scl TARGET_MAX32635MBED: P3_4, P3_5 Arduino 6-pin header
whismanoid 0:3edb3708c8c5 585 // declare in narrower scope: MAX32625MBED I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 586 //
whismanoid 0:3edb3708c8c5 587 #elif defined(TARGET_NUCLEO_F446RE)
whismanoid 0:3edb3708c8c5 588 // TODO1: validate g_I2C_SCL_Hz against system clock frequency SystemCoreClock F_CPU
whismanoid 0:3edb3708c8c5 589 const uint32_t limit_max_I2C_SCL_Hz = (SystemCoreClock / 2); // F_CPU / 2; // 8MHz / 2 = 4MHz
whismanoid 0:3edb3708c8c5 590 const uint32_t limit_min_I2C_SCL_Hz = (SystemCoreClock / 8191); // F_CPU / 128; // 8MHz / 128 = 62.5kHz
whismanoid 0:3edb3708c8c5 591 //
whismanoid 0:3edb3708c8c5 592 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 593 //I2C i2cMaster0(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 594 //I2C i2cMaster1(I2C1_SDA, I2C1_SCL); // sda scl TARGET_MAX32635MBED: P3_4, P3_5 Arduino 6-pin header
whismanoid 0:3edb3708c8c5 595 // declare in narrower scope: MAX32625MBED I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 596 # ifndef I2C0_SDA
whismanoid 0:3edb3708c8c5 597 # define I2C0_SDA I2C_SDA
whismanoid 0:3edb3708c8c5 598 # define I2C0_SCL I2C_SCL
whismanoid 0:3edb3708c8c5 599 # endif
whismanoid 0:3edb3708c8c5 600 //
whismanoid 0:3edb3708c8c5 601 #elif defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 602 // TODO1: validate g_I2C_SCL_Hz against system clock frequency SystemCoreClock F_CPU
whismanoid 0:3edb3708c8c5 603 const uint32_t limit_max_I2C_SCL_Hz = (SystemCoreClock / 2); // F_CPU / 2; // 8MHz / 2 = 4MHz
whismanoid 0:3edb3708c8c5 604 const uint32_t limit_min_I2C_SCL_Hz = (SystemCoreClock / 8191); // F_CPU / 128; // 8MHz / 128 = 62.5kHz
whismanoid 0:3edb3708c8c5 605 //
whismanoid 0:3edb3708c8c5 606 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 607 //I2C i2cMaster0(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 608 //I2C i2cMaster1(I2C1_SDA, I2C1_SCL); // sda scl TARGET_MAX32635MBED: P3_4, P3_5 Arduino 6-pin header
whismanoid 0:3edb3708c8c5 609 // declare in narrower scope: MAX32625MBED I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 610 # ifndef I2C0_SDA
whismanoid 0:3edb3708c8c5 611 # define I2C0_SDA I2C_SDA
whismanoid 0:3edb3708c8c5 612 # define I2C0_SCL I2C_SCL
whismanoid 0:3edb3708c8c5 613 # endif
whismanoid 0:3edb3708c8c5 614 //
whismanoid 0:3edb3708c8c5 615 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 616 #else
whismanoid 0:3edb3708c8c5 617 // unknown target
whismanoid 0:3edb3708c8c5 618 #endif
whismanoid 0:3edb3708c8c5 619 //
whismanoid 0:3edb3708c8c5 620 #endif
whismanoid 0:3edb3708c8c5 621 #if HAS_I2C
whismanoid 0:3edb3708c8c5 622 uint32_t g_I2C_SCL_Hz = I2C_SCL_Hz;
whismanoid 0:3edb3708c8c5 623 uint8_t g_I2C_status = 0; // g_I2C_status = Wire_Sr.endTransmission();
whismanoid 0:3edb3708c8c5 624 uint8_t g_I2C_deviceAddress7 = (0xA0 >> 1); // I2C device address (slave address on I2C bus), 7-bits, RIGHT-justified.
whismanoid 0:3edb3708c8c5 625 uint8_t g_I2C_read_count = 0;
whismanoid 0:3edb3708c8c5 626 uint8_t g_I2C_write_count = 0;
whismanoid 0:3edb3708c8c5 627 uint8_t g_I2C_write_data[256];
whismanoid 0:3edb3708c8c5 628 uint8_t g_I2C_command_regAddress;
whismanoid 0:3edb3708c8c5 629 //
whismanoid 0:3edb3708c8c5 630 // TODO: i2c init
whismanoid 0:3edb3708c8c5 631 // i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 632 #endif
whismanoid 0:3edb3708c8c5 633 #if HAS_I2C
whismanoid 0:3edb3708c8c5 634 // TODO: i2c transfer
whismanoid 0:3edb3708c8c5 635 //const int addr7bit = 0x48; // 7 bit I2C address
whismanoid 0:3edb3708c8c5 636 //const int addr8bit = 0x48 << 1; // 8bit I2C address, 0x90
whismanoid 0:3edb3708c8c5 637 // /* int */ i2cMaster.read (int addr8bit, char *data, int length, bool repeated=false) // Read from an I2C slave.
whismanoid 0:3edb3708c8c5 638 // /* int */ i2cMaster.read (int ack) // Read a single byte from the I2C bus.
whismanoid 0:3edb3708c8c5 639 // /* int */ i2cMaster.write (int addr8bit, const char *data, int length, bool repeated=false) // Write to an I2C slave.
whismanoid 0:3edb3708c8c5 640 // /* int */ i2cMaster.write (int data) // Write single byte out on the I2C bus.
whismanoid 0:3edb3708c8c5 641 // /* void */ i2cMaster.start (void) // Creates a start condition on the I2C bus.
whismanoid 0:3edb3708c8c5 642 // /* void */ i2cMaster.stop (void) // Creates a stop condition on the I2C bus.
whismanoid 0:3edb3708c8c5 643 // /* int */ i2cMaster.transfer (int addr8bit, const char *tx_buffer, int tx_length, char *rx_buffer, int rx_length, const event_callback_t &callback, int event=I2C_EVENT_TRANSFER_COMPLETE, bool repeated=false) // Start nonblocking I2C transfer. More...
whismanoid 0:3edb3708c8c5 644 // /* void */ i2cMaster.abort_transfer () // Abort the ongoing I2C transfer. More...
whismanoid 0:3edb3708c8c5 645 #endif
whismanoid 0:3edb3708c8c5 646
whismanoid 0:3edb3708c8c5 647
whismanoid 0:3edb3708c8c5 648 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 649 // Declare the Serial driver
whismanoid 0:3edb3708c8c5 650 // default baud rate settings are 9600 8N1
whismanoid 0:3edb3708c8c5 651 // install device driver from http://developer.mbed.org/media/downloads/drivers/mbedWinSerial_16466.exe
whismanoid 0:3edb3708c8c5 652 // see docs https://docs.mbed.com/docs/mbed-os-handbook/en/5.5/getting_started/what_need/
whismanoid 0:3edb3708c8c5 653 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 654 #include "USBSerial.h"
whismanoid 0:3edb3708c8c5 655 // Hardware serial port over DAPLink
whismanoid 0:3edb3708c8c5 656 // The default baud rate for the DapLink UART is 9600
whismanoid 0:3edb3708c8c5 657 Serial DAPLINKserial(P2_1, P2_0); // tx, rx
whismanoid 0:3edb3708c8c5 658 #define HAS_DAPLINK_SERIAL 1
whismanoid 0:3edb3708c8c5 659 // Virtual serial port over USB
whismanoid 0:3edb3708c8c5 660 // The baud rate does not affect the virtual USBSerial UART.
whismanoid 7:bf501f8cb637 661 USBSerial serial;
whismanoid 0:3edb3708c8c5 662 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 663 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 664 #include "USBSerial.h"
whismanoid 0:3edb3708c8c5 665 // Hardware serial port over DAPLink
whismanoid 0:3edb3708c8c5 666 // The default baud rate for the DapLink UART is 9600
whismanoid 0:3edb3708c8c5 667 Serial DAPLINKserial(P2_1, P2_0); // tx, rx
whismanoid 0:3edb3708c8c5 668 #define HAS_DAPLINK_SERIAL 1
whismanoid 0:3edb3708c8c5 669 // Virtual serial port over USB
whismanoid 0:3edb3708c8c5 670 // The baud rate does not affect the virtual USBSerial UART.
whismanoid 7:bf501f8cb637 671 USBSerial serial;
whismanoid 0:3edb3708c8c5 672 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 673 #elif defined(TARGET_NUCLEO_F446RE) || defined(TARGET_NUCLEO_F401RE)
whismanoid 7:bf501f8cb637 674 Serial serial(SERIAL_TX, SERIAL_RX); // tx, rx
whismanoid 0:3edb3708c8c5 675 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 676 // TODO1: TARGET=MAX32625MBED ARM Cortex-M4F 96MHz 512kB Flash 160kB SRAM
whismanoid 0:3edb3708c8c5 677 #elif defined(TARGET_LPC1768)
whismanoid 7:bf501f8cb637 678 Serial serial(USBTX, USBRX); // tx, rx
whismanoid 0:3edb3708c8c5 679 #else
whismanoid 0:3edb3708c8c5 680 // unknown target
whismanoid 0:3edb3708c8c5 681 #endif
whismanoid 0:3edb3708c8c5 682
whismanoid 0:3edb3708c8c5 683 void on_immediate_0x21(); // Unicode (U+0021) ! EXCLAMATION MARK
whismanoid 0:3edb3708c8c5 684 void on_immediate_0x7b(); // Unicode (U+007B) { LEFT CURLY BRACKET
whismanoid 0:3edb3708c8c5 685 void on_immediate_0x7d(); // Unicode (U+007D) } RIGHT CURLY BRACKET
whismanoid 0:3edb3708c8c5 686
whismanoid 0:3edb3708c8c5 687 #include "CmdLine.h"
whismanoid 0:3edb3708c8c5 688
whismanoid 0:3edb3708c8c5 689 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 690 CmdLine cmdLine_DAPLINKserial(DAPLINKserial, "DAPLINK");
whismanoid 0:3edb3708c8c5 691 # endif // HAS_DAPLINK_SERIAL
whismanoid 7:bf501f8cb637 692 CmdLine cmdLine_serial(serial, "serial");
whismanoid 0:3edb3708c8c5 693
whismanoid 0:3edb3708c8c5 694
whismanoid 0:3edb3708c8c5 695 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 696 // tolerate AT commands, which may be sent during probe, such as:
whismanoid 0:3edb3708c8c5 697 // AT
whismanoid 0:3edb3708c8c5 698 // AT+CGMI -- request manufacturer identification AT+CMGI=?
whismanoid 0:3edb3708c8c5 699 // AT+CGMM -- request manufacturer model
whismanoid 0:3edb3708c8c5 700 // AT%IPSYS?
whismanoid 0:3edb3708c8c5 701 // ATE0 -- echo disable
whismanoid 0:3edb3708c8c5 702 // ATV1 -- verbose result codes OK | ERROR | NO CARRIER
whismanoid 0:3edb3708c8c5 703 // AT+CMEE=1
whismanoid 0:3edb3708c8c5 704 // ATX4
whismanoid 0:3edb3708c8c5 705 // AT&C1
whismanoid 0:3edb3708c8c5 706 // ATE0
whismanoid 0:3edb3708c8c5 707 // AT+CMEE=1
whismanoid 0:3edb3708c8c5 708 // AT+GCAP
whismanoid 0:3edb3708c8c5 709 // ATI
whismanoid 0:3edb3708c8c5 710 // AT+CPIN?
whismanoid 0:3edb3708c8c5 711 // AT+CGMM
whismanoid 0:3edb3708c8c5 712 #ifndef IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 713 #define IGNORE_AT_COMMANDS 1
whismanoid 0:3edb3708c8c5 714 #endif
whismanoid 0:3edb3708c8c5 715
whismanoid 0:3edb3708c8c5 716
whismanoid 0:3edb3708c8c5 717 // uncrustify-0.66.1 *INDENT-OFF*
whismanoid 0:3edb3708c8c5 718 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 719 // Declare the DigitalInOut GPIO pins
whismanoid 0:3edb3708c8c5 720 // Optional digitalInOut support. If there is only one it should be digitalInOut1.
whismanoid 0:3edb3708c8c5 721 // D) Digital High/Low/Input Pin
whismanoid 0:3edb3708c8c5 722 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 723 // +-------------[microUSB]-------------+
whismanoid 0:3edb3708c8c5 724 // | J1 MAX32630FTHR J2 |
whismanoid 0:3edb3708c8c5 725 // | [ ] RST GND [ ] |
whismanoid 0:3edb3708c8c5 726 // | [ ] 3V3 BAT+[ ] |
whismanoid 0:3edb3708c8c5 727 // | [ ] 1V8 reset SW1 |
whismanoid 0:3edb3708c8c5 728 // | [ ] GND J4 J3 |
whismanoid 0:3edb3708c8c5 729 // | [ ] AIN_0 1.2Vfs (bat) SYS [ ] |
whismanoid 0:3edb3708c8c5 730 // | [ ] AIN_1 1.2Vfs PWR [ ] |
whismanoid 0:3edb3708c8c5 731 // | [ ] AIN_2 1.2Vfs +5V VBUS [ ] |
whismanoid 0:3edb3708c8c5 732 // | [ ] AIN_3 1.2Vfs 1-WIRE P4_0 [ ] | dig9
whismanoid 0:3edb3708c8c5 733 // dig10 | [x] P5_7 SDA2 SRN P5_6 [ ] | dig8
whismanoid 0:3edb3708c8c5 734 // dig11 | [x] P6_0 SCL2 SDIO3 P5_5 [ ] | dig7
whismanoid 0:3edb3708c8c5 735 // dig12 | [x] P5_0 SCLK SDIO2 P5_4 [ ] | dig6
whismanoid 0:3edb3708c8c5 736 // dig13 | [x] P5_1 MOSI SSEL P5_3 [x] | dig5
whismanoid 0:3edb3708c8c5 737 // dig14 | [ ] P5_2 MISO RTS P3_3 [ ] | dig4
whismanoid 0:3edb3708c8c5 738 // dig15 | [ ] P3_0 RX CTS P3_2 [ ] | dig3
whismanoid 0:3edb3708c8c5 739 // dig0 | [ ] P3_1 TX SCL P3_5 [x] | dig2
whismanoid 0:3edb3708c8c5 740 // | [ ] GND SDA P3_4 [x] | dig1
whismanoid 0:3edb3708c8c5 741 // +------------------------------------+
whismanoid 0:3edb3708c8c5 742 #define HAS_digitalInOut0 1 // P3_1 TARGET_MAX32630 J1.15
whismanoid 0:3edb3708c8c5 743 #define HAS_digitalInOut1 1 // P3_4 TARGET_MAX32630 J3.12
whismanoid 0:3edb3708c8c5 744 #define HAS_digitalInOut2 1 // P3_5 TARGET_MAX32630 J3.11
whismanoid 0:3edb3708c8c5 745 #define HAS_digitalInOut3 1 // P3_2 TARGET_MAX32630 J3.10
whismanoid 0:3edb3708c8c5 746 #define HAS_digitalInOut4 1 // P3_3 TARGET_MAX32630 J3.9
whismanoid 0:3edb3708c8c5 747 #define HAS_digitalInOut5 1 // P5_3 TARGET_MAX32630 J3.8
whismanoid 0:3edb3708c8c5 748 #define HAS_digitalInOut6 1 // P5_4 TARGET_MAX32630 J3.7
whismanoid 0:3edb3708c8c5 749 #define HAS_digitalInOut7 1 // P5_5 TARGET_MAX32630 J3.6
whismanoid 0:3edb3708c8c5 750 #define HAS_digitalInOut8 1 // P5_6 TARGET_MAX32630 J3.5
whismanoid 0:3edb3708c8c5 751 #define HAS_digitalInOut9 1 // P4_0 TARGET_MAX32630 J3.4
whismanoid 0:3edb3708c8c5 752 #if HAS_I2C
whismanoid 0:3edb3708c8c5 753 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 754 #define HAS_digitalInOut10 0 // P5_7 TARGET_MAX32630 J1.9
whismanoid 0:3edb3708c8c5 755 #define HAS_digitalInOut11 0 // P6_0 TARGET_MAX32630 J1.10
whismanoid 0:3edb3708c8c5 756 #else // HAS_I2C
whismanoid 0:3edb3708c8c5 757 #define HAS_digitalInOut10 1 // P5_7 TARGET_MAX32630 J1.9
whismanoid 0:3edb3708c8c5 758 #define HAS_digitalInOut11 1 // P6_0 TARGET_MAX32630 J1.10
whismanoid 0:3edb3708c8c5 759 #endif // HAS_I2C
whismanoid 0:3edb3708c8c5 760 #if HAS_SPI
whismanoid 0:3edb3708c8c5 761 // avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 762 #define HAS_digitalInOut12 0 // P5_0 TARGET_MAX32630 J1.11
whismanoid 0:3edb3708c8c5 763 #define HAS_digitalInOut13 0 // P5_1 TARGET_MAX32630 J1.12
whismanoid 0:3edb3708c8c5 764 #define HAS_digitalInOut14 0 // P5_2 TARGET_MAX32630 J1.13
whismanoid 0:3edb3708c8c5 765 #define HAS_digitalInOut15 0 // P3_0 TARGET_MAX32630 J1.14
whismanoid 0:3edb3708c8c5 766 #else // HAS_SPI
whismanoid 0:3edb3708c8c5 767 #define HAS_digitalInOut12 1 // P5_0 TARGET_MAX32630 J1.11
whismanoid 0:3edb3708c8c5 768 #define HAS_digitalInOut13 1 // P5_1 TARGET_MAX32630 J1.12
whismanoid 0:3edb3708c8c5 769 #define HAS_digitalInOut14 1 // P5_2 TARGET_MAX32630 J1.13
whismanoid 0:3edb3708c8c5 770 #define HAS_digitalInOut15 1 // P3_0 TARGET_MAX32630 J1.14
whismanoid 0:3edb3708c8c5 771 #endif // HAS_SPI
whismanoid 0:3edb3708c8c5 772 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 773 DigitalInOut digitalInOut0(P3_1, PIN_INPUT, PullUp, 1); // P3_1 TARGET_MAX32630 J1.15
whismanoid 0:3edb3708c8c5 774 #endif
whismanoid 0:3edb3708c8c5 775 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 776 DigitalInOut digitalInOut1(P3_4, PIN_INPUT, PullUp, 1); // P3_4 TARGET_MAX32630 J3.12
whismanoid 0:3edb3708c8c5 777 #endif
whismanoid 0:3edb3708c8c5 778 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 779 DigitalInOut digitalInOut2(P3_5, PIN_INPUT, PullUp, 1); // P3_5 TARGET_MAX32630 J3.11
whismanoid 0:3edb3708c8c5 780 #endif
whismanoid 0:3edb3708c8c5 781 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 782 DigitalInOut digitalInOut3(P3_2, PIN_INPUT, PullUp, 1); // P3_2 TARGET_MAX32630 J3.10
whismanoid 0:3edb3708c8c5 783 #endif
whismanoid 0:3edb3708c8c5 784 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 785 DigitalInOut digitalInOut4(P3_3, PIN_INPUT, PullUp, 1); // P3_3 TARGET_MAX32630 J3.9
whismanoid 0:3edb3708c8c5 786 #endif
whismanoid 0:3edb3708c8c5 787 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 788 DigitalInOut digitalInOut5(P5_3, PIN_INPUT, PullUp, 1); // P5_3 TARGET_MAX32630 J3.8
whismanoid 0:3edb3708c8c5 789 #endif
whismanoid 0:3edb3708c8c5 790 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 791 DigitalInOut digitalInOut6(P5_4, PIN_INPUT, PullUp, 1); // P5_4 TARGET_MAX32630 J3.7
whismanoid 0:3edb3708c8c5 792 #endif
whismanoid 0:3edb3708c8c5 793 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 794 DigitalInOut digitalInOut7(P5_5, PIN_INPUT, PullUp, 1); // P5_5 TARGET_MAX32630 J3.6
whismanoid 0:3edb3708c8c5 795 #endif
whismanoid 0:3edb3708c8c5 796 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 797 DigitalInOut digitalInOut8(P5_6, PIN_INPUT, PullUp, 1); // P5_6 TARGET_MAX32630 J3.5
whismanoid 0:3edb3708c8c5 798 #endif
whismanoid 0:3edb3708c8c5 799 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 800 DigitalInOut digitalInOut9(P4_0, PIN_INPUT, PullUp, 1); // P4_0 TARGET_MAX32630 J3.4
whismanoid 0:3edb3708c8c5 801 #endif
whismanoid 0:3edb3708c8c5 802 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 803 DigitalInOut digitalInOut10(P5_7, PIN_INPUT, PullUp, 1); // P5_7 TARGET_MAX32630 J1.9
whismanoid 0:3edb3708c8c5 804 #endif
whismanoid 0:3edb3708c8c5 805 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 806 DigitalInOut digitalInOut11(P6_0, PIN_INPUT, PullUp, 1); // P6_0 TARGET_MAX32630 J1.10
whismanoid 0:3edb3708c8c5 807 #endif
whismanoid 0:3edb3708c8c5 808 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 809 DigitalInOut digitalInOut12(P5_0, PIN_INPUT, PullUp, 1); // P5_0 TARGET_MAX32630 J1.11
whismanoid 0:3edb3708c8c5 810 #endif
whismanoid 0:3edb3708c8c5 811 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 812 DigitalInOut digitalInOut13(P5_1, PIN_INPUT, PullUp, 1); // P5_1 TARGET_MAX32630 J1.12
whismanoid 0:3edb3708c8c5 813 #endif
whismanoid 0:3edb3708c8c5 814 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 815 DigitalInOut digitalInOut14(P5_2, PIN_INPUT, PullUp, 1); // P5_2 TARGET_MAX32630 J1.13
whismanoid 0:3edb3708c8c5 816 #endif
whismanoid 0:3edb3708c8c5 817 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 818 DigitalInOut digitalInOut15(P3_0, PIN_INPUT, PullUp, 1); // P3_0 TARGET_MAX32630 J1.14
whismanoid 0:3edb3708c8c5 819 #endif
whismanoid 0:3edb3708c8c5 820 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 821 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 822 // TARGET=MAX32625MBED ARM Cortex-M4F 96MHz 512kB Flash 160kB SRAM
whismanoid 0:3edb3708c8c5 823 // +-------------------------------------+
whismanoid 0:3edb3708c8c5 824 // | MAX32625MBED Arduino UNO header |
whismanoid 0:3edb3708c8c5 825 // | |
whismanoid 0:3edb3708c8c5 826 // | A5/SCL[ ] | P1_7 dig15
whismanoid 0:3edb3708c8c5 827 // | A4/SDA[ ] | P1_6 dig14
whismanoid 0:3edb3708c8c5 828 // | AREF=N/C[ ] |
whismanoid 0:3edb3708c8c5 829 // | GND[ ] |
whismanoid 0:3edb3708c8c5 830 // | [ ]N/C SCK/13[ ] | P1_0 dig13
whismanoid 0:3edb3708c8c5 831 // | [ ]IOREF=3V3 MISO/12[ ] | P1_2 dig12
whismanoid 0:3edb3708c8c5 832 // | [ ]RST MOSI/11[ ]~| P1_1 dig11
whismanoid 0:3edb3708c8c5 833 // | [ ]3V3 CS/10[ ]~| P1_3 dig10
whismanoid 0:3edb3708c8c5 834 // | [ ]5V0 9[ ]~| P1_5 dig9
whismanoid 0:3edb3708c8c5 835 // | [ ]GND 8[ ] | P1_4 dig8
whismanoid 0:3edb3708c8c5 836 // | [ ]GND |
whismanoid 0:3edb3708c8c5 837 // | [ ]Vin 7[ ] | P0_7 dig7
whismanoid 0:3edb3708c8c5 838 // | 6[ ]~| P0_6 dig6
whismanoid 0:3edb3708c8c5 839 // AIN_0 | [ ]A0 5[ ]~| P0_5 dig5
whismanoid 0:3edb3708c8c5 840 // AIN_1 | [ ]A1 4[ ] | P0_4 dig4
whismanoid 0:3edb3708c8c5 841 // AIN_2 | [ ]A2 INT1/3[ ]~| P0_3 dig3
whismanoid 0:3edb3708c8c5 842 // AIN_3 | [ ]A3 INT0/2[ ] | P0_2 dig2
whismanoid 0:3edb3708c8c5 843 // dig16 P3_4 | [ ]A4/SDA RST SCK MISO TX>1[ ] | P0_1 dig1
whismanoid 0:3edb3708c8c5 844 // dig17 P3_5 | [ ]A5/SCL [ ] [ ] [ ] RX<0[ ] | P0_0 dig0
whismanoid 0:3edb3708c8c5 845 // | [ ] [ ] [ ] |
whismanoid 0:3edb3708c8c5 846 // | UNO_R3 GND MOSI 5V ____________/
whismanoid 0:3edb3708c8c5 847 // \_______________________/
whismanoid 0:3edb3708c8c5 848 //
whismanoid 0:3edb3708c8c5 849 #define HAS_digitalInOut0 1 // P0_0 TARGET_MAX32625MBED D0
whismanoid 0:3edb3708c8c5 850 #define HAS_digitalInOut1 1 // P0_1 TARGET_MAX32625MBED D1
whismanoid 0:3edb3708c8c5 851 #if APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 852 #define HAS_digitalInOut2 0 // P0_2 TARGET_MAX32625MBED D2 -- MAX11131 EOC DigitalIn
whismanoid 0:3edb3708c8c5 853 #else
whismanoid 0:3edb3708c8c5 854 #define HAS_digitalInOut2 1 // P0_2 TARGET_MAX32625MBED D2
whismanoid 0:3edb3708c8c5 855 #endif
whismanoid 0:3edb3708c8c5 856 #define HAS_digitalInOut3 1 // P0_3 TARGET_MAX32625MBED D3
whismanoid 0:3edb3708c8c5 857 #define HAS_digitalInOut4 1 // P0_4 TARGET_MAX32625MBED D4
whismanoid 0:3edb3708c8c5 858 #define HAS_digitalInOut5 1 // P0_5 TARGET_MAX32625MBED D5
whismanoid 0:3edb3708c8c5 859 #define HAS_digitalInOut6 1 // P0_6 TARGET_MAX32625MBED D6
whismanoid 0:3edb3708c8c5 860 #define HAS_digitalInOut7 1 // P0_7 TARGET_MAX32625MBED D7
whismanoid 0:3edb3708c8c5 861 #define HAS_digitalInOut8 1 // P1_4 TARGET_MAX32625MBED D8
whismanoid 0:3edb3708c8c5 862 #if APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 863 #define HAS_digitalInOut9 0 // P1_5 TARGET_MAX32625MBED D9 -- MAX11131 CNVST DigitalOut
whismanoid 0:3edb3708c8c5 864 #else
whismanoid 0:3edb3708c8c5 865 #define HAS_digitalInOut9 1 // P1_5 TARGET_MAX32625MBED D9
whismanoid 0:3edb3708c8c5 866 #endif
whismanoid 0:3edb3708c8c5 867 #if HAS_SPI
whismanoid 0:3edb3708c8c5 868 // avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 869 #define HAS_digitalInOut10 0 // P1_3 TARGET_MAX32635MBED CS/10
whismanoid 0:3edb3708c8c5 870 #define HAS_digitalInOut11 0 // P1_1 TARGET_MAX32635MBED MOSI/11
whismanoid 0:3edb3708c8c5 871 #define HAS_digitalInOut12 0 // P1_2 TARGET_MAX32635MBED MISO/12
whismanoid 0:3edb3708c8c5 872 #define HAS_digitalInOut13 0 // P1_0 TARGET_MAX32635MBED SCK/13
whismanoid 0:3edb3708c8c5 873 #else // HAS_SPI
whismanoid 0:3edb3708c8c5 874 #define HAS_digitalInOut10 1 // P1_3 TARGET_MAX32635MBED CS/10
whismanoid 0:3edb3708c8c5 875 #define HAS_digitalInOut11 1 // P1_1 TARGET_MAX32635MBED MOSI/11
whismanoid 0:3edb3708c8c5 876 #define HAS_digitalInOut12 1 // P1_2 TARGET_MAX32635MBED MISO/12
whismanoid 0:3edb3708c8c5 877 #define HAS_digitalInOut13 1 // P1_0 TARGET_MAX32635MBED SCK/13
whismanoid 0:3edb3708c8c5 878 #endif // HAS_SPI
whismanoid 0:3edb3708c8c5 879 #if HAS_I2C
whismanoid 0:3edb3708c8c5 880 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 881 #define HAS_digitalInOut14 0 // P1_6 TARGET_MAX32635MBED A4/SDA (10pin digital connector)
whismanoid 0:3edb3708c8c5 882 #define HAS_digitalInOut15 0 // P1_7 TARGET_MAX32635MBED A5/SCL (10pin digital connector)
whismanoid 0:3edb3708c8c5 883 #define HAS_digitalInOut16 0 // P3_4 TARGET_MAX32635MBED A4/SDA (6pin analog connector)
whismanoid 0:3edb3708c8c5 884 #define HAS_digitalInOut17 0 // P3_5 TARGET_MAX32635MBED A5/SCL (6pin analog connector)
whismanoid 0:3edb3708c8c5 885 #else // HAS_I2C
whismanoid 0:3edb3708c8c5 886 #define HAS_digitalInOut14 1 // P1_6 TARGET_MAX32635MBED A4/SDA (10pin digital connector)
whismanoid 0:3edb3708c8c5 887 #define HAS_digitalInOut15 1 // P1_7 TARGET_MAX32635MBED A5/SCL (10pin digital connector)
whismanoid 0:3edb3708c8c5 888 #define HAS_digitalInOut16 1 // P3_4 TARGET_MAX32635MBED A4/SDA (6pin analog connector)
whismanoid 0:3edb3708c8c5 889 #define HAS_digitalInOut17 1 // P3_5 TARGET_MAX32635MBED A5/SCL (6pin analog connector)
whismanoid 0:3edb3708c8c5 890 #endif // HAS_I2C
whismanoid 0:3edb3708c8c5 891 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 892 DigitalInOut digitalInOut0(P0_0, PIN_INPUT, PullUp, 1); // P0_0 TARGET_MAX32625MBED D0
whismanoid 0:3edb3708c8c5 893 #endif
whismanoid 0:3edb3708c8c5 894 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 895 DigitalInOut digitalInOut1(P0_1, PIN_INPUT, PullUp, 1); // P0_1 TARGET_MAX32625MBED D1
whismanoid 0:3edb3708c8c5 896 #endif
whismanoid 0:3edb3708c8c5 897 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 898 DigitalInOut digitalInOut2(P0_2, PIN_INPUT, PullUp, 1); // P0_2 TARGET_MAX32625MBED D2
whismanoid 0:3edb3708c8c5 899 #endif
whismanoid 0:3edb3708c8c5 900 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 901 DigitalInOut digitalInOut3(P0_3, PIN_INPUT, PullUp, 1); // P0_3 TARGET_MAX32625MBED D3
whismanoid 0:3edb3708c8c5 902 #endif
whismanoid 0:3edb3708c8c5 903 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 904 DigitalInOut digitalInOut4(P0_4, PIN_INPUT, PullUp, 1); // P0_4 TARGET_MAX32625MBED D4
whismanoid 0:3edb3708c8c5 905 #endif
whismanoid 0:3edb3708c8c5 906 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 907 DigitalInOut digitalInOut5(P0_5, PIN_INPUT, PullUp, 1); // P0_5 TARGET_MAX32625MBED D5
whismanoid 0:3edb3708c8c5 908 #endif
whismanoid 0:3edb3708c8c5 909 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 910 DigitalInOut digitalInOut6(P0_6, PIN_INPUT, PullUp, 1); // P0_6 TARGET_MAX32625MBED D6
whismanoid 0:3edb3708c8c5 911 #endif
whismanoid 0:3edb3708c8c5 912 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 913 DigitalInOut digitalInOut7(P0_7, PIN_INPUT, PullUp, 1); // P0_7 TARGET_MAX32625MBED D7
whismanoid 0:3edb3708c8c5 914 #endif
whismanoid 0:3edb3708c8c5 915 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 916 DigitalInOut digitalInOut8(P1_4, PIN_INPUT, PullUp, 1); // P1_4 TARGET_MAX32625MBED D8
whismanoid 0:3edb3708c8c5 917 #endif
whismanoid 0:3edb3708c8c5 918 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 919 DigitalInOut digitalInOut9(P1_5, PIN_INPUT, PullUp, 1); // P1_5 TARGET_MAX32625MBED D9
whismanoid 0:3edb3708c8c5 920 #endif
whismanoid 0:3edb3708c8c5 921 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 922 DigitalInOut digitalInOut10(P1_3, PIN_INPUT, PullUp, 1); // P1_3 TARGET_MAX32635MBED CS/10
whismanoid 0:3edb3708c8c5 923 #endif
whismanoid 0:3edb3708c8c5 924 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 925 DigitalInOut digitalInOut11(P1_1, PIN_INPUT, PullUp, 1); // P1_1 TARGET_MAX32635MBED MOSI/11
whismanoid 0:3edb3708c8c5 926 #endif
whismanoid 0:3edb3708c8c5 927 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 928 DigitalInOut digitalInOut12(P1_2, PIN_INPUT, PullUp, 1); // P1_2 TARGET_MAX32635MBED MISO/12
whismanoid 0:3edb3708c8c5 929 #endif
whismanoid 0:3edb3708c8c5 930 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 931 DigitalInOut digitalInOut13(P1_0, PIN_INPUT, PullUp, 1); // P1_0 TARGET_MAX32635MBED SCK/13
whismanoid 0:3edb3708c8c5 932 #endif
whismanoid 0:3edb3708c8c5 933 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 934 // Ensure that the unused I2C pins do not interfere with analog inputs A4 and A5
whismanoid 0:3edb3708c8c5 935 // DigitalInOut mode can be one of PullUp, PullDown, PullNone, OpenDrain
whismanoid 0:3edb3708c8c5 936 DigitalInOut digitalInOut14(P1_6, PIN_INPUT, OpenDrain, 1); // P1_6 TARGET_MAX32635MBED A4/SDA (10pin digital connector)
whismanoid 0:3edb3708c8c5 937 #endif
whismanoid 0:3edb3708c8c5 938 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 939 // Ensure that the unused I2C pins do not interfere with analog inputs A4 and A5
whismanoid 0:3edb3708c8c5 940 DigitalInOut digitalInOut15(P1_7, PIN_INPUT, OpenDrain, 1); // P1_7 TARGET_MAX32635MBED A5/SCL (10pin digital connector)
whismanoid 0:3edb3708c8c5 941 #endif
whismanoid 0:3edb3708c8c5 942 #if HAS_digitalInOut16
whismanoid 0:3edb3708c8c5 943 // Ensure that the unused I2C pins do not interfere with analog inputs A4 and A5
whismanoid 0:3edb3708c8c5 944 // DigitalInOut mode can be one of PullUp, PullDown, PullNone, OpenDrain
whismanoid 0:3edb3708c8c5 945 // PullUp-->3.4V, PullDown-->1.7V, PullNone-->3.5V, OpenDrain-->0.00V
whismanoid 0:3edb3708c8c5 946 DigitalInOut digitalInOut16(P3_4, PIN_INPUT, OpenDrain, 0); // P3_4 TARGET_MAX32635MBED A4/SDA (6pin analog connector)
whismanoid 0:3edb3708c8c5 947 #endif
whismanoid 0:3edb3708c8c5 948 #if HAS_digitalInOut17
whismanoid 0:3edb3708c8c5 949 // Ensure that the unused I2C pins do not interfere with analog inputs A4 and A5
whismanoid 0:3edb3708c8c5 950 DigitalInOut digitalInOut17(P3_5, PIN_INPUT, OpenDrain, 0); // P3_5 TARGET_MAX32635MBED A5/SCL (6pin analog connector)
whismanoid 0:3edb3708c8c5 951 #endif
whismanoid 0:3edb3708c8c5 952 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 953 #elif defined(TARGET_NUCLEO_F446RE) || defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 954 #define HAS_digitalInOut0 0 // P0_0 TARGET_MAX32625MBED D0
whismanoid 0:3edb3708c8c5 955 #define HAS_digitalInOut1 0 // P0_1 TARGET_MAX32625MBED D1
whismanoid 0:3edb3708c8c5 956 #if APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 957 #define HAS_digitalInOut2 0 // P0_2 TARGET_MAX32625MBED D2 -- MAX11131 EOC DigitalIn
whismanoid 0:3edb3708c8c5 958 #else
whismanoid 0:3edb3708c8c5 959 #define HAS_digitalInOut2 1 // P0_2 TARGET_MAX32625MBED D2
whismanoid 0:3edb3708c8c5 960 #endif
whismanoid 0:3edb3708c8c5 961 #define HAS_digitalInOut3 1 // P0_3 TARGET_MAX32625MBED D3
whismanoid 0:3edb3708c8c5 962 #define HAS_digitalInOut4 1 // P0_4 TARGET_MAX32625MBED D4
whismanoid 0:3edb3708c8c5 963 #define HAS_digitalInOut5 1 // P0_5 TARGET_MAX32625MBED D5
whismanoid 0:3edb3708c8c5 964 #define HAS_digitalInOut6 1 // P0_6 TARGET_MAX32625MBED D6
whismanoid 0:3edb3708c8c5 965 #define HAS_digitalInOut7 1 // P0_7 TARGET_MAX32625MBED D7
whismanoid 0:3edb3708c8c5 966 #if APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 967 #define HAS_digitalInOut8 0 // P1_4 TARGET_MAX32625MBED D8 -- MAX5715 CLRb DigitalOut
whismanoid 0:3edb3708c8c5 968 #else
whismanoid 0:3edb3708c8c5 969 #define HAS_digitalInOut8 1 // P1_4 TARGET_MAX32625MBED D8
whismanoid 0:3edb3708c8c5 970 #endif
whismanoid 0:3edb3708c8c5 971 #if APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 972 #define HAS_digitalInOut9 0 // P1_5 TARGET_MAX32625MBED D9 -- MAX5715 LDACb DigitalOut
whismanoid 0:3edb3708c8c5 973 #elif APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 974 #define HAS_digitalInOut9 0 // P1_5 TARGET_MAX32625MBED D9 -- MAX11131 CNVST DigitalOut
whismanoid 0:3edb3708c8c5 975 #else
whismanoid 0:3edb3708c8c5 976 #define HAS_digitalInOut9 1 // P1_5 TARGET_MAX32625MBED D9
whismanoid 0:3edb3708c8c5 977 #endif
whismanoid 0:3edb3708c8c5 978 #if HAS_SPI
whismanoid 0:3edb3708c8c5 979 // avoid resource conflict between P5_0, P5_1, P5_2 SPI and DigitalInOut
whismanoid 0:3edb3708c8c5 980 // Arduino digital pin D10 SPI function is CS/10
whismanoid 0:3edb3708c8c5 981 // Arduino digital pin D11 SPI function is MOSI/11
whismanoid 0:3edb3708c8c5 982 // Arduino digital pin D12 SPI function is MISO/12
whismanoid 0:3edb3708c8c5 983 // Arduino digital pin D13 SPI function is SCK/13
whismanoid 0:3edb3708c8c5 984 #define HAS_digitalInOut10 0
whismanoid 0:3edb3708c8c5 985 #define HAS_digitalInOut11 0
whismanoid 0:3edb3708c8c5 986 #define HAS_digitalInOut12 0
whismanoid 0:3edb3708c8c5 987 #define HAS_digitalInOut13 0
whismanoid 0:3edb3708c8c5 988 #else // HAS_SPI
whismanoid 0:3edb3708c8c5 989 #define HAS_digitalInOut10 1
whismanoid 0:3edb3708c8c5 990 #define HAS_digitalInOut11 1
whismanoid 0:3edb3708c8c5 991 #define HAS_digitalInOut12 1
whismanoid 0:3edb3708c8c5 992 #define HAS_digitalInOut13 1
whismanoid 0:3edb3708c8c5 993 #endif // HAS_SPI
whismanoid 0:3edb3708c8c5 994 #if HAS_I2C
whismanoid 0:3edb3708c8c5 995 // avoid resource conflict between P5_7, P6_0 I2C and DigitalInOut
whismanoid 0:3edb3708c8c5 996 // Arduino digital pin D14 I2C function is A4/SDA (10pin digital connector)
whismanoid 0:3edb3708c8c5 997 // Arduino digital pin D15 I2C function is A5/SCL (10pin digital connector)
whismanoid 0:3edb3708c8c5 998 // Arduino digital pin D16 I2C function is A4/SDA (6pin analog connector)
whismanoid 0:3edb3708c8c5 999 // Arduino digital pin D17 I2C function is A5/SCL (6pin analog connector)
whismanoid 0:3edb3708c8c5 1000 #define HAS_digitalInOut14 0
whismanoid 0:3edb3708c8c5 1001 #define HAS_digitalInOut15 0
whismanoid 0:3edb3708c8c5 1002 #define HAS_digitalInOut16 0
whismanoid 0:3edb3708c8c5 1003 #define HAS_digitalInOut17 0
whismanoid 0:3edb3708c8c5 1004 #else // HAS_I2C
whismanoid 0:3edb3708c8c5 1005 #define HAS_digitalInOut14 1
whismanoid 0:3edb3708c8c5 1006 #define HAS_digitalInOut15 1
whismanoid 0:3edb3708c8c5 1007 #define HAS_digitalInOut16 0
whismanoid 0:3edb3708c8c5 1008 #define HAS_digitalInOut17 0
whismanoid 0:3edb3708c8c5 1009 #endif // HAS_I2C
whismanoid 0:3edb3708c8c5 1010 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 1011 DigitalInOut digitalInOut0(D0, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1012 #endif
whismanoid 0:3edb3708c8c5 1013 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 1014 DigitalInOut digitalInOut1(D1, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1015 #endif
whismanoid 0:3edb3708c8c5 1016 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 1017 DigitalInOut digitalInOut2(D2, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1018 #endif
whismanoid 0:3edb3708c8c5 1019 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 1020 DigitalInOut digitalInOut3(D3, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1021 #endif
whismanoid 0:3edb3708c8c5 1022 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 1023 DigitalInOut digitalInOut4(D4, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1024 #endif
whismanoid 0:3edb3708c8c5 1025 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 1026 DigitalInOut digitalInOut5(D5, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1027 #endif
whismanoid 0:3edb3708c8c5 1028 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 1029 DigitalInOut digitalInOut6(D6, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1030 #endif
whismanoid 0:3edb3708c8c5 1031 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 1032 DigitalInOut digitalInOut7(D7, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1033 #endif
whismanoid 0:3edb3708c8c5 1034 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 1035 DigitalInOut digitalInOut8(D8, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1036 #endif
whismanoid 0:3edb3708c8c5 1037 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 1038 DigitalInOut digitalInOut9(D9, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1039 #endif
whismanoid 0:3edb3708c8c5 1040 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 1041 // Arduino digital pin D10 SPI function is CS/10
whismanoid 0:3edb3708c8c5 1042 DigitalInOut digitalInOut10(D10, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1043 #endif
whismanoid 0:3edb3708c8c5 1044 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 1045 // Arduino digital pin D11 SPI function is MOSI/11
whismanoid 0:3edb3708c8c5 1046 DigitalInOut digitalInOut11(D11, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1047 #endif
whismanoid 0:3edb3708c8c5 1048 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 1049 // Arduino digital pin D12 SPI function is MISO/12
whismanoid 0:3edb3708c8c5 1050 DigitalInOut digitalInOut12(D12, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1051 #endif
whismanoid 0:3edb3708c8c5 1052 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 1053 // Arduino digital pin D13 SPI function is SCK/13
whismanoid 0:3edb3708c8c5 1054 DigitalInOut digitalInOut13(D13, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1055 #endif
whismanoid 0:3edb3708c8c5 1056 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 1057 // Arduino digital pin D14 I2C function is A4/SDA (10pin digital connector)
whismanoid 0:3edb3708c8c5 1058 DigitalInOut digitalInOut14(D14, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1059 #endif
whismanoid 0:3edb3708c8c5 1060 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 1061 // Arduino digital pin D15 I2C function is A5/SCL (10pin digital connector)
whismanoid 0:3edb3708c8c5 1062 DigitalInOut digitalInOut15(D15, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1063 #endif
whismanoid 0:3edb3708c8c5 1064 #if HAS_digitalInOut16
whismanoid 0:3edb3708c8c5 1065 // Arduino digital pin D16 I2C function is A4/SDA (6pin analog connector)
whismanoid 0:3edb3708c8c5 1066 DigitalInOut digitalInOut16(D16, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1067 #endif
whismanoid 0:3edb3708c8c5 1068 #if HAS_digitalInOut17
whismanoid 0:3edb3708c8c5 1069 // Arduino digital pin D17 I2C function is A5/SCL (6pin analog connector)
whismanoid 0:3edb3708c8c5 1070 DigitalInOut digitalInOut17(D17, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1071 #endif
whismanoid 0:3edb3708c8c5 1072 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1073 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 1074 #define HAS_digitalInOut0 1
whismanoid 0:3edb3708c8c5 1075 #define HAS_digitalInOut1 1
whismanoid 0:3edb3708c8c5 1076 #define HAS_digitalInOut2 1
whismanoid 0:3edb3708c8c5 1077 #define HAS_digitalInOut3 1
whismanoid 0:3edb3708c8c5 1078 #define HAS_digitalInOut4 1
whismanoid 0:3edb3708c8c5 1079 #define HAS_digitalInOut5 1
whismanoid 0:3edb3708c8c5 1080 #define HAS_digitalInOut6 1
whismanoid 0:3edb3708c8c5 1081 #define HAS_digitalInOut7 1
whismanoid 0:3edb3708c8c5 1082 #define HAS_digitalInOut8 1
whismanoid 0:3edb3708c8c5 1083 #define HAS_digitalInOut9 1
whismanoid 0:3edb3708c8c5 1084 // #define HAS_digitalInOut10 1
whismanoid 0:3edb3708c8c5 1085 // #define HAS_digitalInOut11 1
whismanoid 0:3edb3708c8c5 1086 // #define HAS_digitalInOut12 1
whismanoid 0:3edb3708c8c5 1087 // #define HAS_digitalInOut13 1
whismanoid 0:3edb3708c8c5 1088 // #define HAS_digitalInOut14 1
whismanoid 0:3edb3708c8c5 1089 // #define HAS_digitalInOut15 1
whismanoid 0:3edb3708c8c5 1090 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 1091 DigitalInOut digitalInOut0(p5, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.9/I2STX_SDA/MOSI1/MAT2.3
whismanoid 0:3edb3708c8c5 1092 #endif
whismanoid 0:3edb3708c8c5 1093 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 1094 DigitalInOut digitalInOut1(p6, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.8/I2STX_WS/MISO1/MAT2.2
whismanoid 0:3edb3708c8c5 1095 #endif
whismanoid 0:3edb3708c8c5 1096 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 1097 DigitalInOut digitalInOut2(p7, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.7/I2STX_CLK/SCK1/MAT2.1
whismanoid 0:3edb3708c8c5 1098 #endif
whismanoid 0:3edb3708c8c5 1099 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 1100 DigitalInOut digitalInOut3(p8, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.6/I2SRX_SDA/SSEL1/MAT2.0
whismanoid 0:3edb3708c8c5 1101 #endif
whismanoid 0:3edb3708c8c5 1102 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 1103 DigitalInOut digitalInOut4(p9, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.0/CAN_RX1/TXD3/SDA1
whismanoid 0:3edb3708c8c5 1104 #endif
whismanoid 0:3edb3708c8c5 1105 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 1106 DigitalInOut digitalInOut5(p10, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.1/CAN_TX1/RXD3/SCL1
whismanoid 0:3edb3708c8c5 1107 #endif
whismanoid 0:3edb3708c8c5 1108 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 1109 DigitalInOut digitalInOut6(p11, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.18/DCD1/MOSI0/MOSI1
whismanoid 0:3edb3708c8c5 1110 #endif
whismanoid 0:3edb3708c8c5 1111 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 1112 DigitalInOut digitalInOut7(p12, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.17/CTS1/MISO0/MISO
whismanoid 0:3edb3708c8c5 1113 #endif
whismanoid 0:3edb3708c8c5 1114 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 1115 DigitalInOut digitalInOut8(p13, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.15/TXD1/SCK0/SCK
whismanoid 0:3edb3708c8c5 1116 #endif
whismanoid 0:3edb3708c8c5 1117 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 1118 DigitalInOut digitalInOut9(p14, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.16/RXD1/SSEL0/SSEL
whismanoid 0:3edb3708c8c5 1119 #endif
whismanoid 0:3edb3708c8c5 1120 //
whismanoid 0:3edb3708c8c5 1121 // these pins support analog input analogIn0 .. analogIn5
whismanoid 0:3edb3708c8c5 1122 //DigitalInOut digitalInOut_(p15, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.23/AD0.0/I2SRX_CLK/CAP3.0
whismanoid 0:3edb3708c8c5 1123 //DigitalInOut digitalInOut_(p16, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.24/AD0.1/I2SRX_WS/CAP3.1
whismanoid 0:3edb3708c8c5 1124 //DigitalInOut digitalInOut_(p17, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.25/AD0.2/I2SRX_SDA/TXD3
whismanoid 0:3edb3708c8c5 1125 //DigitalInOut digitalInOut_(p18, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.26/AD0.3/AOUT/RXD3
whismanoid 0:3edb3708c8c5 1126 //DigitalInOut digitalInOut_(p19, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P1.30/VBUS/AD0.4
whismanoid 0:3edb3708c8c5 1127 //DigitalInOut digitalInOut_(p20, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P1.31/SCK1/AD0.5
whismanoid 0:3edb3708c8c5 1128 //
whismanoid 0:3edb3708c8c5 1129 // these pins support PWM pwmDriver1 .. pwmDriver6
whismanoid 0:3edb3708c8c5 1130 //DigitalInOut digitalInOut_(p21, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P2.5/PWM1.6/DTR1/TRACEDATA0
whismanoid 0:3edb3708c8c5 1131 //DigitalInOut digitalInOut_(p22, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P2.4/PWM1.5/DSR1/TRACEDATA1
whismanoid 0:3edb3708c8c5 1132 //DigitalInOut digitalInOut_(p23, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P2.3/PWM1.4/DCD1/TRACEDATA2
whismanoid 0:3edb3708c8c5 1133 //DigitalInOut digitalInOut_(p24, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P2.2/PWM1.3/CTS1/TRACEDATA3
whismanoid 0:3edb3708c8c5 1134 //DigitalInOut digitalInOut_(p25, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P2.1/PWM1.2/RXD1
whismanoid 0:3edb3708c8c5 1135 //DigitalInOut digitalInOut_(p26, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P2.0/PWM1.1/TXD1/TRACECLK
whismanoid 0:3edb3708c8c5 1136 //
whismanoid 0:3edb3708c8c5 1137 // these could be additional digitalInOut pins
whismanoid 0:3edb3708c8c5 1138 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 1139 DigitalInOut digitalInOut10(p27, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.11/RXD2/SCL2/MAT3.1
whismanoid 0:3edb3708c8c5 1140 #endif
whismanoid 0:3edb3708c8c5 1141 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 1142 DigitalInOut digitalInOut11(p28, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.10/TXD2/SDA2/MAT3.0
whismanoid 0:3edb3708c8c5 1143 #endif
whismanoid 0:3edb3708c8c5 1144 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 1145 DigitalInOut digitalInOut12(p29, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.5/I2SRX_WS/CAN_TX2/CAP2.1
whismanoid 0:3edb3708c8c5 1146 #endif
whismanoid 0:3edb3708c8c5 1147 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 1148 DigitalInOut digitalInOut13(p30, PIN_INPUT, PullUp, 1); // TARGET_LPC1768 P0.4/I2SRX_CLK/CAN_RX2/CAP2.0
whismanoid 0:3edb3708c8c5 1149 #endif
whismanoid 0:3edb3708c8c5 1150 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 1151 DigitalInOut digitalInOut14(___, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1152 #endif
whismanoid 0:3edb3708c8c5 1153 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 1154 DigitalInOut digitalInOut15(___, PIN_INPUT, PullUp, 1);
whismanoid 0:3edb3708c8c5 1155 #endif
whismanoid 0:3edb3708c8c5 1156 #else
whismanoid 0:3edb3708c8c5 1157 // unknown target
whismanoid 0:3edb3708c8c5 1158 #endif
whismanoid 0:3edb3708c8c5 1159 // uncrustify-0.66.1 *INDENT-ON*
whismanoid 0:3edb3708c8c5 1160 #if HAS_digitalInOut0 || HAS_digitalInOut1 \
whismanoid 0:3edb3708c8c5 1161 || HAS_digitalInOut2 || HAS_digitalInOut3 \
whismanoid 0:3edb3708c8c5 1162 || HAS_digitalInOut4 || HAS_digitalInOut5 \
whismanoid 0:3edb3708c8c5 1163 || HAS_digitalInOut6 || HAS_digitalInOut7 \
whismanoid 0:3edb3708c8c5 1164 || HAS_digitalInOut8 || HAS_digitalInOut9 \
whismanoid 0:3edb3708c8c5 1165 || HAS_digitalInOut10 || HAS_digitalInOut11 \
whismanoid 0:3edb3708c8c5 1166 || HAS_digitalInOut12 || HAS_digitalInOut13 \
whismanoid 0:3edb3708c8c5 1167 || HAS_digitalInOut14 || HAS_digitalInOut15 \
whismanoid 0:3edb3708c8c5 1168 || HAS_digitalInOut16 || HAS_digitalInOut17
whismanoid 0:3edb3708c8c5 1169 #define HAS_digitalInOuts 1
whismanoid 0:3edb3708c8c5 1170 #endif
whismanoid 0:3edb3708c8c5 1171
whismanoid 0:3edb3708c8c5 1172 // uncrustify-0.66.1 *INDENT-OFF*
whismanoid 0:3edb3708c8c5 1173 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1174 // Declare the AnalogIn driver
whismanoid 0:3edb3708c8c5 1175 // Optional analogIn support. If there is only one it should be analogIn1.
whismanoid 0:3edb3708c8c5 1176 // A) analog input
whismanoid 0:3edb3708c8c5 1177 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 1178 #define HAS_analogIn0 1
whismanoid 0:3edb3708c8c5 1179 #define HAS_analogIn1 1
whismanoid 0:3edb3708c8c5 1180 #define HAS_analogIn2 1
whismanoid 0:3edb3708c8c5 1181 #define HAS_analogIn3 1
whismanoid 0:3edb3708c8c5 1182 #define HAS_analogIn4 1
whismanoid 0:3edb3708c8c5 1183 #define HAS_analogIn5 1
whismanoid 0:3edb3708c8c5 1184 #define HAS_analogIn6 1
whismanoid 0:3edb3708c8c5 1185 #define HAS_analogIn7 1
whismanoid 0:3edb3708c8c5 1186 #define HAS_analogIn8 1
whismanoid 0:3edb3708c8c5 1187 #define HAS_analogIn9 1
whismanoid 0:3edb3708c8c5 1188 // #define HAS_analogIn10 0
whismanoid 0:3edb3708c8c5 1189 // #define HAS_analogIn11 0
whismanoid 0:3edb3708c8c5 1190 // #define HAS_analogIn12 0
whismanoid 0:3edb3708c8c5 1191 // #define HAS_analogIn13 0
whismanoid 0:3edb3708c8c5 1192 // #define HAS_analogIn14 0
whismanoid 0:3edb3708c8c5 1193 // #define HAS_analogIn15 0
whismanoid 0:3edb3708c8c5 1194 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 1195 AnalogIn analogIn0(AIN_0); // TARGET_MAX32630 J1.5 AIN_0 = AIN0 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1196 #endif
whismanoid 0:3edb3708c8c5 1197 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 1198 AnalogIn analogIn1(AIN_1); // TARGET_MAX32630 J1.6 AIN_1 = AIN1 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1199 #endif
whismanoid 0:3edb3708c8c5 1200 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 1201 AnalogIn analogIn2(AIN_2); // TARGET_MAX32630 J1.7 AIN_2 = AIN2 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1202 #endif
whismanoid 0:3edb3708c8c5 1203 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 1204 AnalogIn analogIn3(AIN_3); // TARGET_MAX32630 J1.8 AIN_3 = AIN3 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1205 #endif
whismanoid 0:3edb3708c8c5 1206 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 1207 AnalogIn analogIn4(AIN_4); // TARGET_MAX32630 J1.5 AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 1208 #endif
whismanoid 0:3edb3708c8c5 1209 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 1210 AnalogIn analogIn5(AIN_5); // TARGET_MAX32630 J1.6 AIN_5 = AIN1 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 1211 #endif
whismanoid 0:3edb3708c8c5 1212 #if HAS_analogIn6
whismanoid 0:3edb3708c8c5 1213 AnalogIn analogIn6(AIN_6); // TARGET_MAX32630 AIN_6 = VDDB / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 1214 #endif
whismanoid 0:3edb3708c8c5 1215 #if HAS_analogIn7
whismanoid 0:3edb3708c8c5 1216 AnalogIn analogIn7(AIN_7); // TARGET_MAX32630 AIN_7 = VDD18 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1217 #endif
whismanoid 0:3edb3708c8c5 1218 #if HAS_analogIn8
whismanoid 0:3edb3708c8c5 1219 AnalogIn analogIn8(AIN_8); // TARGET_MAX32630 AIN_8 = VDD12 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1220 #endif
whismanoid 0:3edb3708c8c5 1221 #if HAS_analogIn9
whismanoid 0:3edb3708c8c5 1222 AnalogIn analogIn9(AIN_9); // TARGET_MAX32630 AIN_9 = VRTC / 2.0 fullscale is 2.4V
whismanoid 0:3edb3708c8c5 1223 #endif
whismanoid 0:3edb3708c8c5 1224 #if HAS_analogIn10
whismanoid 0:3edb3708c8c5 1225 AnalogIn analogIn10(____); // TARGET_MAX32630 AIN_10 = x undefined?
whismanoid 0:3edb3708c8c5 1226 #endif
whismanoid 0:3edb3708c8c5 1227 #if HAS_analogIn11
whismanoid 0:3edb3708c8c5 1228 AnalogIn analogIn11(____); // TARGET_MAX32630 AIN_11 = VDDIO / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 1229 #endif
whismanoid 0:3edb3708c8c5 1230 #if HAS_analogIn12
whismanoid 0:3edb3708c8c5 1231 AnalogIn analogIn12(____); // TARGET_MAX32630 AIN_12 = VDDIOH / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 1232 #endif
whismanoid 0:3edb3708c8c5 1233 #if HAS_analogIn13
whismanoid 0:3edb3708c8c5 1234 AnalogIn analogIn13(____);
whismanoid 0:3edb3708c8c5 1235 #endif
whismanoid 0:3edb3708c8c5 1236 #if HAS_analogIn14
whismanoid 0:3edb3708c8c5 1237 AnalogIn analogIn14(____);
whismanoid 0:3edb3708c8c5 1238 #endif
whismanoid 0:3edb3708c8c5 1239 #if HAS_analogIn15
whismanoid 0:3edb3708c8c5 1240 AnalogIn analogIn15(____);
whismanoid 0:3edb3708c8c5 1241 #endif
whismanoid 0:3edb3708c8c5 1242 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1243 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 1244 #define HAS_analogIn0 1
whismanoid 0:3edb3708c8c5 1245 #define HAS_analogIn1 1
whismanoid 0:3edb3708c8c5 1246 #define HAS_analogIn2 1
whismanoid 0:3edb3708c8c5 1247 #define HAS_analogIn3 1
whismanoid 0:3edb3708c8c5 1248 #define HAS_analogIn4 1
whismanoid 0:3edb3708c8c5 1249 #define HAS_analogIn5 1
whismanoid 0:3edb3708c8c5 1250 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 1251 AnalogIn analogIn0(AIN_0); // TARGET_MAX32630 J1.5 AIN_0 = AIN0 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1252 #endif
whismanoid 0:3edb3708c8c5 1253 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 1254 AnalogIn analogIn1(AIN_1); // TARGET_MAX32630 J1.6 AIN_1 = AIN1 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1255 #endif
whismanoid 0:3edb3708c8c5 1256 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 1257 AnalogIn analogIn2(AIN_2); // TARGET_MAX32630 J1.7 AIN_2 = AIN2 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1258 #endif
whismanoid 0:3edb3708c8c5 1259 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 1260 AnalogIn analogIn3(AIN_3); // TARGET_MAX32630 J1.8 AIN_3 = AIN3 pin fullscale is 1.2V
whismanoid 0:3edb3708c8c5 1261 #endif
whismanoid 0:3edb3708c8c5 1262 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 1263 AnalogIn analogIn4(AIN_4); // TARGET_MAX32630 J1.5 AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 1264 #endif
whismanoid 0:3edb3708c8c5 1265 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 1266 AnalogIn analogIn5(AIN_5); // TARGET_MAX32630 J1.6 AIN_5 = AIN1 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 1267 #endif
whismanoid 0:3edb3708c8c5 1268 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1269 #elif defined(TARGET_NUCLEO_F446RE)
whismanoid 0:3edb3708c8c5 1270 #define HAS_analogIn0 1
whismanoid 0:3edb3708c8c5 1271 #define HAS_analogIn1 1
whismanoid 0:3edb3708c8c5 1272 #define HAS_analogIn2 1
whismanoid 0:3edb3708c8c5 1273 #define HAS_analogIn3 1
whismanoid 0:3edb3708c8c5 1274 #define HAS_analogIn4 1
whismanoid 0:3edb3708c8c5 1275 #define HAS_analogIn5 1
whismanoid 0:3edb3708c8c5 1276 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 1277 AnalogIn analogIn0(A0);
whismanoid 0:3edb3708c8c5 1278 #endif
whismanoid 0:3edb3708c8c5 1279 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 1280 AnalogIn analogIn1(A1);
whismanoid 0:3edb3708c8c5 1281 #endif
whismanoid 0:3edb3708c8c5 1282 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 1283 AnalogIn analogIn2(A2);
whismanoid 0:3edb3708c8c5 1284 #endif
whismanoid 0:3edb3708c8c5 1285 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 1286 AnalogIn analogIn3(A3);
whismanoid 0:3edb3708c8c5 1287 #endif
whismanoid 0:3edb3708c8c5 1288 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 1289 AnalogIn analogIn4(A4);
whismanoid 0:3edb3708c8c5 1290 #endif
whismanoid 0:3edb3708c8c5 1291 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 1292 AnalogIn analogIn5(A5);
whismanoid 0:3edb3708c8c5 1293 #endif
whismanoid 0:3edb3708c8c5 1294 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1295 #elif defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 1296 #define HAS_analogIn0 1
whismanoid 0:3edb3708c8c5 1297 #define HAS_analogIn1 1
whismanoid 0:3edb3708c8c5 1298 #define HAS_analogIn2 1
whismanoid 0:3edb3708c8c5 1299 #define HAS_analogIn3 1
whismanoid 0:3edb3708c8c5 1300 #define HAS_analogIn4 1
whismanoid 0:3edb3708c8c5 1301 #define HAS_analogIn5 1
whismanoid 0:3edb3708c8c5 1302 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 1303 AnalogIn analogIn0(A0);
whismanoid 0:3edb3708c8c5 1304 #endif
whismanoid 0:3edb3708c8c5 1305 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 1306 AnalogIn analogIn1(A1);
whismanoid 0:3edb3708c8c5 1307 #endif
whismanoid 0:3edb3708c8c5 1308 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 1309 AnalogIn analogIn2(A2);
whismanoid 0:3edb3708c8c5 1310 #endif
whismanoid 0:3edb3708c8c5 1311 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 1312 AnalogIn analogIn3(A3);
whismanoid 0:3edb3708c8c5 1313 #endif
whismanoid 0:3edb3708c8c5 1314 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 1315 AnalogIn analogIn4(A4);
whismanoid 0:3edb3708c8c5 1316 #endif
whismanoid 0:3edb3708c8c5 1317 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 1318 AnalogIn analogIn5(A5);
whismanoid 0:3edb3708c8c5 1319 #endif
whismanoid 0:3edb3708c8c5 1320 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1321 // TODO1: TARGET=MAX32625MBED ARM Cortex-M4F 96MHz 512kB Flash 160kB SRAM
whismanoid 0:3edb3708c8c5 1322 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 1323 #define HAS_analogIn0 1
whismanoid 0:3edb3708c8c5 1324 #define HAS_analogIn1 1
whismanoid 0:3edb3708c8c5 1325 #define HAS_analogIn2 1
whismanoid 0:3edb3708c8c5 1326 #define HAS_analogIn3 1
whismanoid 0:3edb3708c8c5 1327 #define HAS_analogIn4 1
whismanoid 0:3edb3708c8c5 1328 #define HAS_analogIn5 1
whismanoid 0:3edb3708c8c5 1329 // #define HAS_analogIn6 1
whismanoid 0:3edb3708c8c5 1330 // #define HAS_analogIn7 1
whismanoid 0:3edb3708c8c5 1331 // #define HAS_analogIn8 1
whismanoid 0:3edb3708c8c5 1332 // #define HAS_analogIn9 1
whismanoid 0:3edb3708c8c5 1333 // #define HAS_analogIn10 1
whismanoid 0:3edb3708c8c5 1334 // #define HAS_analogIn11 1
whismanoid 0:3edb3708c8c5 1335 // #define HAS_analogIn12 1
whismanoid 0:3edb3708c8c5 1336 // #define HAS_analogIn13 1
whismanoid 0:3edb3708c8c5 1337 // #define HAS_analogIn14 1
whismanoid 0:3edb3708c8c5 1338 // #define HAS_analogIn15 1
whismanoid 0:3edb3708c8c5 1339 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 1340 AnalogIn analogIn0(p15); // TARGET_LPC1768 P0.23/AD0.0/I2SRX_CLK/CAP3.0
whismanoid 0:3edb3708c8c5 1341 #endif
whismanoid 0:3edb3708c8c5 1342 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 1343 AnalogIn analogIn1(p16); // TARGET_LPC1768 P0.24/AD0.1/I2SRX_WS/CAP3.1
whismanoid 0:3edb3708c8c5 1344 #endif
whismanoid 0:3edb3708c8c5 1345 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 1346 AnalogIn analogIn2(p17); // TARGET_LPC1768 P0.25/AD0.2/I2SRX_SDA/TXD3
whismanoid 0:3edb3708c8c5 1347 #endif
whismanoid 0:3edb3708c8c5 1348 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 1349 AnalogIn analogIn3(p18); // TARGET_LPC1768 P0.26/AD0.3/AOUT/RXD3
whismanoid 0:3edb3708c8c5 1350 #endif
whismanoid 0:3edb3708c8c5 1351 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 1352 AnalogIn analogIn4(p19); // TARGET_LPC1768 P1.30/VBUS/AD0.4
whismanoid 0:3edb3708c8c5 1353 #endif
whismanoid 0:3edb3708c8c5 1354 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 1355 AnalogIn analogIn5(p20); // TARGET_LPC1768 P1.31/SCK1/AD0.5
whismanoid 0:3edb3708c8c5 1356 #endif
whismanoid 0:3edb3708c8c5 1357 #if HAS_analogIn6
whismanoid 0:3edb3708c8c5 1358 AnalogIn analogIn6(____);
whismanoid 0:3edb3708c8c5 1359 #endif
whismanoid 0:3edb3708c8c5 1360 #if HAS_analogIn7
whismanoid 0:3edb3708c8c5 1361 AnalogIn analogIn7(____);
whismanoid 0:3edb3708c8c5 1362 #endif
whismanoid 0:3edb3708c8c5 1363 #if HAS_analogIn8
whismanoid 0:3edb3708c8c5 1364 AnalogIn analogIn8(____);
whismanoid 0:3edb3708c8c5 1365 #endif
whismanoid 0:3edb3708c8c5 1366 #if HAS_analogIn9
whismanoid 0:3edb3708c8c5 1367 AnalogIn analogIn9(____);
whismanoid 0:3edb3708c8c5 1368 #endif
whismanoid 0:3edb3708c8c5 1369 #if HAS_analogIn10
whismanoid 0:3edb3708c8c5 1370 AnalogIn analogIn10(____);
whismanoid 0:3edb3708c8c5 1371 #endif
whismanoid 0:3edb3708c8c5 1372 #if HAS_analogIn11
whismanoid 0:3edb3708c8c5 1373 AnalogIn analogIn11(____);
whismanoid 0:3edb3708c8c5 1374 #endif
whismanoid 0:3edb3708c8c5 1375 #if HAS_analogIn12
whismanoid 0:3edb3708c8c5 1376 AnalogIn analogIn12(____);
whismanoid 0:3edb3708c8c5 1377 #endif
whismanoid 0:3edb3708c8c5 1378 #if HAS_analogIn13
whismanoid 0:3edb3708c8c5 1379 AnalogIn analogIn13(____);
whismanoid 0:3edb3708c8c5 1380 #endif
whismanoid 0:3edb3708c8c5 1381 #if HAS_analogIn14
whismanoid 0:3edb3708c8c5 1382 AnalogIn analogIn14(____);
whismanoid 0:3edb3708c8c5 1383 #endif
whismanoid 0:3edb3708c8c5 1384 #if HAS_analogIn15
whismanoid 0:3edb3708c8c5 1385 AnalogIn analogIn15(____);
whismanoid 0:3edb3708c8c5 1386 #endif
whismanoid 0:3edb3708c8c5 1387 #else
whismanoid 0:3edb3708c8c5 1388 // unknown target
whismanoid 0:3edb3708c8c5 1389 #endif
whismanoid 0:3edb3708c8c5 1390 // uncrustify-0.66.1 *INDENT-ON*
whismanoid 0:3edb3708c8c5 1391 #if HAS_analogIn0 || HAS_analogIn1 \
whismanoid 0:3edb3708c8c5 1392 || HAS_analogIn2 || HAS_analogIn3 \
whismanoid 0:3edb3708c8c5 1393 || HAS_analogIn4 || HAS_analogIn5 \
whismanoid 0:3edb3708c8c5 1394 || HAS_analogIn6 || HAS_analogIn7 \
whismanoid 0:3edb3708c8c5 1395 || HAS_analogIn8 || HAS_analogIn9 \
whismanoid 0:3edb3708c8c5 1396 || HAS_analogIn10 || HAS_analogIn11 \
whismanoid 0:3edb3708c8c5 1397 || HAS_analogIn12 || HAS_analogIn13 \
whismanoid 0:3edb3708c8c5 1398 || HAS_analogIn14 || HAS_analogIn15
whismanoid 0:3edb3708c8c5 1399 #define HAS_analogIns 1
whismanoid 0:3edb3708c8c5 1400 #endif
whismanoid 0:3edb3708c8c5 1401
whismanoid 0:3edb3708c8c5 1402 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1403 // Option to use LEDs to show status
whismanoid 0:3edb3708c8c5 1404 #ifndef USE_LEDS
whismanoid 0:3edb3708c8c5 1405 #define USE_LEDS 1
whismanoid 0:3edb3708c8c5 1406 #endif
whismanoid 0:3edb3708c8c5 1407 #if USE_LEDS
whismanoid 0:3edb3708c8c5 1408 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 1409 # define LED_ON 0
whismanoid 0:3edb3708c8c5 1410 # define LED_OFF 1
whismanoid 0:3edb3708c8c5 1411 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1412 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 1413 # define LED_ON 0
whismanoid 0:3edb3708c8c5 1414 # define LED_OFF 1
whismanoid 0:3edb3708c8c5 1415 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1416 // TODO1: TARGET=MAX32625MBED ARM Cortex-M4F 96MHz 512kB Flash 160kB SRAM
whismanoid 0:3edb3708c8c5 1417 #elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 1418 # define LED_ON 1
whismanoid 0:3edb3708c8c5 1419 # define LED_OFF 0
whismanoid 0:3edb3708c8c5 1420 #else // not defined(TARGET_LPC1768 etc.)
whismanoid 0:3edb3708c8c5 1421 # define LED_ON 1
whismanoid 0:3edb3708c8c5 1422 # define LED_OFF 0
whismanoid 0:3edb3708c8c5 1423 #endif // target definition
whismanoid 0:3edb3708c8c5 1424 DigitalOut led1(LED1, LED_OFF); // MAX32630FTHR: LED1 = LED_RED
whismanoid 0:3edb3708c8c5 1425 DigitalOut led2(LED2, LED_OFF); // MAX32630FTHR: LED2 = LED_GREEN
whismanoid 0:3edb3708c8c5 1426 DigitalOut led3(LED3, LED_OFF); // MAX32630FTHR: LED3 = LED_BLUE
whismanoid 0:3edb3708c8c5 1427 DigitalOut led4(LED4, LED_OFF);
whismanoid 0:3edb3708c8c5 1428 #endif // USE_LEDS
whismanoid 0:3edb3708c8c5 1429
whismanoid 0:3edb3708c8c5 1430 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1431 #if USE_LEDS
whismanoid 0:3edb3708c8c5 1432 class RGB_LED {
whismanoid 0:3edb3708c8c5 1433 public:
whismanoid 0:3edb3708c8c5 1434 RGB_LED(DigitalOut &led_red, DigitalOut &led_green, DigitalOut &led_blue)
whismanoid 0:3edb3708c8c5 1435 : m_red(led_red), m_green(led_green), m_blue(led_blue)
whismanoid 0:3edb3708c8c5 1436 {
whismanoid 0:3edb3708c8c5 1437 };
whismanoid 0:3edb3708c8c5 1438 DigitalOut &m_red;
whismanoid 0:3edb3708c8c5 1439 DigitalOut &m_green;
whismanoid 0:3edb3708c8c5 1440 DigitalOut &m_blue;
whismanoid 0:3edb3708c8c5 1441 ~RGB_LED()
whismanoid 0:3edb3708c8c5 1442 {
whismanoid 0:3edb3708c8c5 1443 };
whismanoid 0:3edb3708c8c5 1444 /* diagnostic rbg led RED
whismanoid 0:3edb3708c8c5 1445 */
whismanoid 0:3edb3708c8c5 1446 void red() {
whismanoid 0:3edb3708c8c5 1447 m_red = LED_ON; m_green = LED_OFF; m_blue = LED_OFF; // diagnostic rbg led RED
whismanoid 0:3edb3708c8c5 1448 };
whismanoid 0:3edb3708c8c5 1449 /* diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 1450 */
whismanoid 0:3edb3708c8c5 1451 void green() {
whismanoid 0:3edb3708c8c5 1452 m_red = LED_OFF; m_green = LED_ON; m_blue = LED_OFF; // diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 1453 };
whismanoid 0:3edb3708c8c5 1454 /* diagnostic rbg led BLUE
whismanoid 0:3edb3708c8c5 1455 */
whismanoid 0:3edb3708c8c5 1456 void blue() {
whismanoid 0:3edb3708c8c5 1457 m_red = LED_OFF; m_green = LED_OFF; m_blue = LED_ON; // diagnostic rbg led BLUE
whismanoid 0:3edb3708c8c5 1458 };
whismanoid 0:3edb3708c8c5 1459 /* diagnostic rbg led RED+GREEN+BLUE=WHITE
whismanoid 0:3edb3708c8c5 1460 */
whismanoid 0:3edb3708c8c5 1461 void white() {
whismanoid 0:3edb3708c8c5 1462 m_red = LED_ON; m_green = LED_ON; m_blue = LED_ON; // diagnostic rbg led RED+GREEN+BLUE=WHITE
whismanoid 0:3edb3708c8c5 1463 };
whismanoid 0:3edb3708c8c5 1464 /* diagnostic rbg led GREEN+BLUE=CYAN
whismanoid 0:3edb3708c8c5 1465 */
whismanoid 0:3edb3708c8c5 1466 void cyan() {
whismanoid 0:3edb3708c8c5 1467 m_red = LED_OFF; m_green = LED_ON; m_blue = LED_ON; // diagnostic rbg led GREEN+BLUE=CYAN
whismanoid 0:3edb3708c8c5 1468 };
whismanoid 0:3edb3708c8c5 1469 /* diagnostic rbg led RED+BLUE=MAGENTA
whismanoid 0:3edb3708c8c5 1470 */
whismanoid 0:3edb3708c8c5 1471 void magenta() {
whismanoid 0:3edb3708c8c5 1472 m_red = LED_ON; m_green = LED_OFF; m_blue = LED_ON; // diagnostic rbg led RED+BLUE=MAGENTA
whismanoid 0:3edb3708c8c5 1473 };
whismanoid 0:3edb3708c8c5 1474 /* diagnostic rbg led RED+GREEN=YELLOW
whismanoid 0:3edb3708c8c5 1475 */
whismanoid 0:3edb3708c8c5 1476 void yellow() {
whismanoid 0:3edb3708c8c5 1477 m_red = LED_ON; m_green = LED_ON; m_blue = LED_OFF; // diagnostic rbg led RED+GREEN=YELLOW
whismanoid 0:3edb3708c8c5 1478 };
whismanoid 0:3edb3708c8c5 1479 /* diagnostic rbg led BLACK
whismanoid 0:3edb3708c8c5 1480 */
whismanoid 0:3edb3708c8c5 1481 void black() {
whismanoid 0:3edb3708c8c5 1482 m_red = LED_OFF; m_green = LED_OFF; m_blue = LED_OFF; // diagnostic rbg led BLACK
whismanoid 0:3edb3708c8c5 1483 };
whismanoid 0:3edb3708c8c5 1484 };
whismanoid 0:3edb3708c8c5 1485 RGB_LED rgb_led(led1, led2, led3); // red, green, blue LEDs
whismanoid 0:3edb3708c8c5 1486 #endif // USE_LEDS
whismanoid 0:3edb3708c8c5 1487
whismanoid 0:3edb3708c8c5 1488 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1489 // use BUTTON1 trigger some action
whismanoid 0:3edb3708c8c5 1490 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 1491 #define HAS_BUTTON1_DEMO_INTERRUPT 1
whismanoid 0:3edb3708c8c5 1492 #elif defined(TARGET_MAX32625)
whismanoid 0:3edb3708c8c5 1493 #define HAS_BUTTON1_DEMO_INTERRUPT 1
whismanoid 0:3edb3708c8c5 1494 #define HAS_BUTTON2_DEMO_INTERRUPT 1
whismanoid 0:3edb3708c8c5 1495 #elif defined(TARGET_NUCLEO_F446RE)
whismanoid 0:3edb3708c8c5 1496 #define HAS_BUTTON1_DEMO_INTERRUPT 0
whismanoid 0:3edb3708c8c5 1497 #define HAS_BUTTON2_DEMO_INTERRUPT 0
whismanoid 0:3edb3708c8c5 1498 #elif defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 1499 #define HAS_BUTTON1_DEMO_INTERRUPT 0
whismanoid 0:3edb3708c8c5 1500 #define HAS_BUTTON2_DEMO_INTERRUPT 0
whismanoid 0:3edb3708c8c5 1501 #endif
whismanoid 0:3edb3708c8c5 1502 //
whismanoid 0:3edb3708c8c5 1503 #ifndef HAS_BUTTON1_DEMO
whismanoid 0:3edb3708c8c5 1504 #define HAS_BUTTON1_DEMO 0
whismanoid 0:3edb3708c8c5 1505 #endif
whismanoid 0:3edb3708c8c5 1506 #ifndef HAS_BUTTON2_DEMO
whismanoid 0:3edb3708c8c5 1507 #define HAS_BUTTON2_DEMO 0
whismanoid 0:3edb3708c8c5 1508 #endif
whismanoid 0:3edb3708c8c5 1509 //
whismanoid 0:3edb3708c8c5 1510 // avoid runtime error on button1 press [mbed-os-5.11]
whismanoid 0:3edb3708c8c5 1511 // instead of using InterruptIn, use DigitalIn and poll in main while(1)
whismanoid 0:3edb3708c8c5 1512 #ifndef HAS_BUTTON1_DEMO_INTERRUPT_POLLING
whismanoid 0:3edb3708c8c5 1513 #define HAS_BUTTON1_DEMO_INTERRUPT_POLLING 1
whismanoid 0:3edb3708c8c5 1514 #endif
whismanoid 0:3edb3708c8c5 1515 //
whismanoid 0:3edb3708c8c5 1516 #ifndef HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 1517 #define HAS_BUTTON1_DEMO_INTERRUPT 1
whismanoid 0:3edb3708c8c5 1518 #endif
whismanoid 0:3edb3708c8c5 1519 #ifndef HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 1520 #define HAS_BUTTON2_DEMO_INTERRUPT 1
whismanoid 0:3edb3708c8c5 1521 #endif
whismanoid 0:3edb3708c8c5 1522 //
whismanoid 0:3edb3708c8c5 1523 #if HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 1524 # if HAS_BUTTON1_DEMO_INTERRUPT_POLLING
whismanoid 0:3edb3708c8c5 1525 // avoid runtime error on button1 press [mbed-os-5.11]
whismanoid 0:3edb3708c8c5 1526 // instead of using InterruptIn, use DigitalIn and poll in main while(1)
whismanoid 0:3edb3708c8c5 1527 DigitalIn button1(BUTTON1);
whismanoid 0:3edb3708c8c5 1528 # else
whismanoid 0:3edb3708c8c5 1529 InterruptIn button1(BUTTON1);
whismanoid 0:3edb3708c8c5 1530 # endif
whismanoid 0:3edb3708c8c5 1531 #elif HAS_BUTTON1_DEMO
whismanoid 0:3edb3708c8c5 1532 DigitalIn button1(BUTTON1);
whismanoid 0:3edb3708c8c5 1533 #endif
whismanoid 0:3edb3708c8c5 1534 #if HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 1535 # if HAS_BUTTON1_DEMO_INTERRUPT_POLLING
whismanoid 0:3edb3708c8c5 1536 // avoid runtime error on button1 press [mbed-os-5.11]
whismanoid 0:3edb3708c8c5 1537 // instead of using InterruptIn, use DigitalIn and poll in main while(1)
whismanoid 0:3edb3708c8c5 1538 DigitalIn button2(BUTTON2);
whismanoid 0:3edb3708c8c5 1539 # else
whismanoid 0:3edb3708c8c5 1540 InterruptIn button2(BUTTON2);
whismanoid 0:3edb3708c8c5 1541 # endif
whismanoid 0:3edb3708c8c5 1542 #elif HAS_BUTTON2_DEMO
whismanoid 0:3edb3708c8c5 1543 DigitalIn button2(BUTTON2);
whismanoid 0:3edb3708c8c5 1544 #endif
whismanoid 0:3edb3708c8c5 1545
whismanoid 0:3edb3708c8c5 1546 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1547 // Ticker is the periodic interrupt timer itself
whismanoid 0:3edb3708c8c5 1548 #define USE_PERIODIC_TIMER 0
whismanoid 0:3edb3708c8c5 1549 #if USE_PERIODIC_TIMER
whismanoid 0:3edb3708c8c5 1550 Ticker periodicInterruptTimer;
whismanoid 0:3edb3708c8c5 1551 us_timestamp_t periodicInterruptTimer_interval_usec = 50;
whismanoid 0:3edb3708c8c5 1552 us_timestamp_t periodicInterruptTimer_interval_usec_MAX = 1000;
whismanoid 0:3edb3708c8c5 1553 us_timestamp_t periodicInterruptTimer_interval_usec_MIN = 20;
whismanoid 0:3edb3708c8c5 1554 #endif
whismanoid 0:3edb3708c8c5 1555
whismanoid 0:3edb3708c8c5 1556
whismanoid 0:3edb3708c8c5 1557 #if APPLICATION_MAX11131 // hardware interface functions
whismanoid 0:3edb3708c8c5 1558 //----------------------------------------
whismanoid 0:3edb3708c8c5 1559 void print_value(CmdLine& cmdLine, int16_t value_u12, int channelId)
whismanoid 0:3edb3708c8c5 1560 {
whismanoid 0:3edb3708c8c5 1561 int channelPairIndex = channelId / 2;
whismanoid 0:3edb3708c8c5 1562 // format: 1 0 0 0 1 UCH0/1 UCH2/3 UCH4/5 UCH6/7 UCH8/9 UCH10/11 UCH12/13 UCH14/15 PDIFF_COM x x
whismanoid 0:3edb3708c8c5 1563 // unused variable: int UCHn = (g_MAX11131_device.UNIPOLAR >> (10 - channelPairIndex)) & 0x01;
whismanoid 0:3edb3708c8c5 1564 int BCHn = (g_MAX11131_device.BIPOLAR >> (10 - channelPairIndex)) & 0x01;
whismanoid 0:3edb3708c8c5 1565 // unused variable: int RANGEn = (g_MAX11131_device.RANGE >> (10 - channelPairIndex)) & 0x01;
whismanoid 0:3edb3708c8c5 1566 //
whismanoid 0:3edb3708c8c5 1567 cmdLine.serial().printf(" ch=");
whismanoid 0:3edb3708c8c5 1568 // TODO1: if CHANID=0 don't print ch=channelId
whismanoid 0:3edb3708c8c5 1569 if ((g_MAX11131_device.isExternalClock == 0) || (g_MAX11131_device.chan_id_0_1 == 1))
whismanoid 0:3edb3708c8c5 1570 {
whismanoid 0:3edb3708c8c5 1571 // Internal clock modes always use channel ID.
whismanoid 0:3edb3708c8c5 1572 // External clock modes use channel ID if ADC_MODE_CONTROL.CHAN_ID is 1.
whismanoid 0:3edb3708c8c5 1573 cmdLine.serial().printf("%d", channelId);
whismanoid 0:3edb3708c8c5 1574 } else {
whismanoid 0:3edb3708c8c5 1575 cmdLine.serial().printf("?");
whismanoid 0:3edb3708c8c5 1576 }
whismanoid 0:3edb3708c8c5 1577 if (BCHn)
whismanoid 0:3edb3708c8c5 1578 {
whismanoid 3:8913cb4a8b9f 1579 cmdLine.serial().printf(" xb=%ld", g_MAX11131_device.TwosComplementValue(value_u12));
whismanoid 0:3edb3708c8c5 1580 }
whismanoid 0:3edb3708c8c5 1581 else
whismanoid 0:3edb3708c8c5 1582 {
whismanoid 0:3edb3708c8c5 1583 cmdLine.serial().printf(" xu=%d", value_u12);
whismanoid 0:3edb3708c8c5 1584 }
whismanoid 0:3edb3708c8c5 1585 cmdLine.serial().printf(" = 0x%4.4x = %6.4fV",
whismanoid 0:3edb3708c8c5 1586 (value_u12 & 0xFFFF),
whismanoid 0:3edb3708c8c5 1587 g_MAX11131_device.VoltageOfCode(value_u12, channelId)
whismanoid 0:3edb3708c8c5 1588 );
whismanoid 0:3edb3708c8c5 1589 // dtostrf width and precision: 2.5v / 4096 LSB = 0.0006103515625 volts per LSB
whismanoid 0:3edb3708c8c5 1590 }
whismanoid 0:3edb3708c8c5 1591
whismanoid 0:3edb3708c8c5 1592 //----------------------------------------
whismanoid 0:3edb3708c8c5 1593 // read data words
whismanoid 0:3edb3708c8c5 1594 // @pre RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 1595 // @pre AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 1596 // For internal clock modes, the data format always includes the channel address.
whismanoid 0:3edb3708c8c5 1597 // misoData16 = CH[3:0] DATA[11:0]
whismanoid 0:3edb3708c8c5 1598 void AINcode_print_value_chanID(CmdLine& cmdLine, int nWords)
whismanoid 0:3edb3708c8c5 1599 {
whismanoid 0:3edb3708c8c5 1600 cmdLine.serial().printf("ScanRead_nWords_chanID nWords=%d\r\n", nWords);
whismanoid 0:3edb3708c8c5 1601 for (int index = 0; index < nWords; index++) {
whismanoid 0:3edb3708c8c5 1602 //~ int16_t misoData16 = MAX11131_ScanRead();
whismanoid 0:3edb3708c8c5 1603 // For internal clock modes, the data format always includes the channel address.
whismanoid 0:3edb3708c8c5 1604 // misoData16 = CH[3:0] DATA[11:0]
whismanoid 0:3edb3708c8c5 1605 int16_t value_u12 = (g_MAX11131_device.RAW_misoData16[index] & 0x0FFF);
whismanoid 0:3edb3708c8c5 1606 int channelId = ((g_MAX11131_device.RAW_misoData16[index] >> 12) & 0x000F);
whismanoid 0:3edb3708c8c5 1607 // diagnostic: print raw MISO data
whismanoid 0:3edb3708c8c5 1608 cmdLine.serial().printf(" MAX11131.MISO[%u]=0x%4.4x:", index,
whismanoid 0:3edb3708c8c5 1609 (g_MAX11131_device.RAW_misoData16[index] & 0xFFFF));
whismanoid 0:3edb3708c8c5 1610 print_value(cmdLine, value_u12, channelId);
whismanoid 0:3edb3708c8c5 1611 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 1612 }
whismanoid 0:3edb3708c8c5 1613 }
whismanoid 0:3edb3708c8c5 1614
whismanoid 0:3edb3708c8c5 1615 //----------------------------------------
whismanoid 0:3edb3708c8c5 1616 // read data words
whismanoid 0:3edb3708c8c5 1617 // @pre RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 1618 // @pre AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 1619 // For external clock modes, the data format returned depends on the CHAN_ID bit.
whismanoid 0:3edb3708c8c5 1620 // when CHAN_ID = 0: misoData16 = 0 DATA[11:0] x x x
whismanoid 0:3edb3708c8c5 1621 // when CHAN_ID = 1: misoData16 = CH[3:0] DATA[11:0]
whismanoid 0:3edb3708c8c5 1622 void AINcode_print_value_externalClock(CmdLine& cmdLine, int nWords)
whismanoid 0:3edb3708c8c5 1623 {
whismanoid 0:3edb3708c8c5 1624 // For external clock modes, the data format returned depends on the CHAN_ID bit.
whismanoid 0:3edb3708c8c5 1625 // when CHAN_ID = 0: misoData16 = 0 DATA[11:0] x x x
whismanoid 0:3edb3708c8c5 1626 // when CHAN_ID = 1: misoData16 = CH[3:0] DATA[11:0]
whismanoid 0:3edb3708c8c5 1627 // For internal clock modes, the data format always includes the channel address.
whismanoid 0:3edb3708c8c5 1628 // misoData16 = CH[3:0] DATA[11:0]
whismanoid 0:3edb3708c8c5 1629 if (g_MAX11131_device.chan_id_0_1 != 0) {
whismanoid 0:3edb3708c8c5 1630 AINcode_print_value_chanID(cmdLine, nWords);
whismanoid 0:3edb3708c8c5 1631 return;
whismanoid 0:3edb3708c8c5 1632 }
whismanoid 0:3edb3708c8c5 1633 cmdLine.serial().printf("ScanRead_nWords_externalClock nWords=%d\r\n", nWords);
whismanoid 0:3edb3708c8c5 1634 for (int index = 0; index < nWords; index++) {
whismanoid 0:3edb3708c8c5 1635 // int16_t misoData16 = MAX11131_ScanRead();
whismanoid 0:3edb3708c8c5 1636 int16_t value_u12 = ((g_MAX11131_device.RAW_misoData16[index] >> 3) & 0x0FFF);
whismanoid 0:3edb3708c8c5 1637 int channelId = g_MAX11131_device.channelNumber_0_15;
whismanoid 0:3edb3708c8c5 1638 // diagnostic: print raw MISO data
whismanoid 0:3edb3708c8c5 1639 cmdLine.serial().printf(" MAX11131.MISO[%u]=0x%4.4x:", index,
whismanoid 0:3edb3708c8c5 1640 (g_MAX11131_device.RAW_misoData16[index] & 0xFFFF));
whismanoid 0:3edb3708c8c5 1641 print_value(cmdLine, value_u12, channelId);
whismanoid 0:3edb3708c8c5 1642 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 1643 }
whismanoid 0:3edb3708c8c5 1644 }
whismanoid 0:3edb3708c8c5 1645
whismanoid 0:3edb3708c8c5 1646 //----------------------------------------
whismanoid 0:3edb3708c8c5 1647 // read data words and calculate mean, stddev
whismanoid 0:3edb3708c8c5 1648 // @pre RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 1649 // @pre AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 1650 void AINcode_print_value_chanID_mean(CmdLine& cmdLine, int nWords)
whismanoid 0:3edb3708c8c5 1651 {
whismanoid 0:3edb3708c8c5 1652 cmdLine.serial().printf("ScanRead_nWords_chanID_mean nWords=%d\r\n", nWords);
whismanoid 0:3edb3708c8c5 1653 double Sx = 0;
whismanoid 0:3edb3708c8c5 1654 double Sxx = 0;
whismanoid 0:3edb3708c8c5 1655 for (int index = 0; index < nWords; index++) {
whismanoid 0:3edb3708c8c5 1656 //~ int16_t misoData16 = MAX11131_ScanRead();
whismanoid 0:3edb3708c8c5 1657 // For internal clock modes, the data format always includes the channel address.
whismanoid 0:3edb3708c8c5 1658 // misoData16 = CH[3:0] DATA[11:0]
whismanoid 0:3edb3708c8c5 1659 int16_t value_u12 = (g_MAX11131_device.RAW_misoData16[index] & 0x0FFF);
whismanoid 0:3edb3708c8c5 1660 int channelId = ((g_MAX11131_device.RAW_misoData16[index] >> 12) & 0x000F);
whismanoid 0:3edb3708c8c5 1661 // TODO: sign-extend value_s12 from value_u12
whismanoid 0:3edb3708c8c5 1662 //
whismanoid 0:3edb3708c8c5 1663 cmdLine.serial().printf("n=%d", index);
whismanoid 0:3edb3708c8c5 1664 print_value(cmdLine, value_u12, channelId);
whismanoid 0:3edb3708c8c5 1665 //
whismanoid 0:3edb3708c8c5 1666 Sx = Sx + value_u12;
whismanoid 0:3edb3708c8c5 1667 Sxx = Sxx + ((double)value_u12 * value_u12);
whismanoid 0:3edb3708c8c5 1668 cmdLine.serial().printf(" Sx=%f Sxx=%f\r\n", Sx, Sxx);
whismanoid 0:3edb3708c8c5 1669 }
whismanoid 0:3edb3708c8c5 1670 double mean = Sx / nWords;
whismanoid 0:3edb3708c8c5 1671 cmdLine.serial().printf(" mean=%f=0x%4.4x", mean, (int)mean);
whismanoid 0:3edb3708c8c5 1672 // calculate standard deviation from N, Sx, Sxx
whismanoid 0:3edb3708c8c5 1673 if (nWords >= 2)
whismanoid 0:3edb3708c8c5 1674 {
whismanoid 0:3edb3708c8c5 1675 double variance = (Sxx - ( Sx * Sx / nWords)) / (nWords - 1);
whismanoid 0:3edb3708c8c5 1676 // stddev = square root of variance
whismanoid 0:3edb3708c8c5 1677 double stddev = sqrt(variance);
whismanoid 0:3edb3708c8c5 1678 cmdLine.serial().printf(" variance=%f stddev=%f", variance, stddev);
whismanoid 0:3edb3708c8c5 1679 }
whismanoid 0:3edb3708c8c5 1680 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 1681 }
whismanoid 0:3edb3708c8c5 1682
whismanoid 0:3edb3708c8c5 1683 /* MAX11131_print_register_verbose
whismanoid 0:3edb3708c8c5 1684 *
whismanoid 0:3edb3708c8c5 1685 * TODO: document this function
whismanoid 0:3edb3708c8c5 1686 * This header was inserted by uncrustify; see uncrustify_func_header.txt.
whismanoid 0:3edb3708c8c5 1687 *
whismanoid 0:3edb3708c8c5 1688 */
whismanoid 0:3edb3708c8c5 1689 void MAX11131_print_register_verbose(CmdLine& cmdLine, int16_t registerData)
whismanoid 0:3edb3708c8c5 1690 {
whismanoid 0:3edb3708c8c5 1691 if (registerData & 0x8000)
whismanoid 0:3edb3708c8c5 1692 {
whismanoid 0:3edb3708c8c5 1693 switch (registerData & 0xF800)
whismanoid 0:3edb3708c8c5 1694 {
whismanoid 0:3edb3708c8c5 1695 case 0x8000: // ADC_CONFIGURATION 0x8000..0x87FF format: 1 0 0 0 0 REFSEL AVGON NAVG[1:0] NSCAN[1:0] SPM[1:0] ECHO 0 0
whismanoid 0:3edb3708c8c5 1696 cmdLine.serial().printf(" ADC_CONFIGURATION");
whismanoid 0:3edb3708c8c5 1697 {
whismanoid 0:3edb3708c8c5 1698 // define write-only register ADC_CONFIGURATION
whismanoid 0:3edb3708c8c5 1699 //int16_t ADC_CONFIGURATION = 0x8000; //!< registerData 0x8000..0x87FF format: 1 0 0 0 0 REFSEL AVGON NAVG[1:0] NSCAN[1:0] SPM[1:0] ECHO 0 0
whismanoid 0:3edb3708c8c5 1700 const int REFSEL_LSB = 10; const int REFSEL_BITS = 0x01; // ADC_CONFIGURATION.REFSEL
whismanoid 0:3edb3708c8c5 1701 const int AVGON_LSB = 9; const int AVGON_BITS = 0x01; // ADC_CONFIGURATION.AVGON
whismanoid 0:3edb3708c8c5 1702 const int NAVG_LSB = 7; const int NAVG_BITS = 0x03; // ADC_CONFIGURATION.NAVG[1:0]
whismanoid 0:3edb3708c8c5 1703 const int NSCAN_LSB = 5; const int NSCAN_BITS = 0x03; // ADC_CONFIGURATION.NSCAN[1:0]
whismanoid 0:3edb3708c8c5 1704 const int SPM_LSB = 3; const int SPM_BITS = 0x03; // ADC_CONFIGURATION.SPM[1:0]
whismanoid 0:3edb3708c8c5 1705 const int ECHO_LSB = 2; const int ECHO_BITS = 0x01; // ADC_CONFIGURATION.ECHO
whismanoid 0:3edb3708c8c5 1706
whismanoid 0:3edb3708c8c5 1707 const int REFSEL = ((registerData >> REFSEL_LSB) & REFSEL_BITS);
whismanoid 0:3edb3708c8c5 1708 const int AVGON = ((registerData >> AVGON_LSB) & AVGON_BITS);
whismanoid 0:3edb3708c8c5 1709 const int NAVG = ((registerData >> NAVG_LSB) & NAVG_BITS);
whismanoid 0:3edb3708c8c5 1710 const int NSCAN = ((registerData >> NSCAN_LSB) & NSCAN_BITS);
whismanoid 0:3edb3708c8c5 1711 const int SPM = ((registerData >> SPM_LSB) & SPM_BITS);
whismanoid 0:3edb3708c8c5 1712 const int ECHO = ((registerData >> ECHO_LSB) & ECHO_BITS);
whismanoid 0:3edb3708c8c5 1713
whismanoid 0:3edb3708c8c5 1714 if (REFSEL) {
whismanoid 0:3edb3708c8c5 1715 cmdLine.serial().printf(" REFSEL=%d", REFSEL);
whismanoid 0:3edb3708c8c5 1716 }
whismanoid 0:3edb3708c8c5 1717 if (AVGON) {
whismanoid 0:3edb3708c8c5 1718 cmdLine.serial().printf(" AVGON=%d", AVGON);
whismanoid 0:3edb3708c8c5 1719 }
whismanoid 0:3edb3708c8c5 1720 if (NAVG) {
whismanoid 0:3edb3708c8c5 1721 cmdLine.serial().printf(" NAVG=%d", NAVG);
whismanoid 0:3edb3708c8c5 1722 }
whismanoid 0:3edb3708c8c5 1723 if (NSCAN) {
whismanoid 0:3edb3708c8c5 1724 cmdLine.serial().printf(" NSCAN=%d", NSCAN);
whismanoid 0:3edb3708c8c5 1725 }
whismanoid 0:3edb3708c8c5 1726 if (SPM) {
whismanoid 0:3edb3708c8c5 1727 cmdLine.serial().printf(" SPM=%d", SPM);
whismanoid 0:3edb3708c8c5 1728 }
whismanoid 0:3edb3708c8c5 1729 if (ECHO) {
whismanoid 0:3edb3708c8c5 1730 cmdLine.serial().printf(" ECHO=%d", ECHO);
whismanoid 0:3edb3708c8c5 1731 }
whismanoid 0:3edb3708c8c5 1732 }
whismanoid 0:3edb3708c8c5 1733 break;
whismanoid 0:3edb3708c8c5 1734 case 0x8800: // UNIPOLAR 0x8800..0x8FFF format: 1 0 0 0 1 UCH0/1 UCH2/3 UCH4/5 UCH6/7 UCH8/9 UCH10/11 UCH12/13 UCH14/15 PDIFF_COM x x
whismanoid 0:3edb3708c8c5 1735 cmdLine.serial().printf(" UNIPOLAR 0x%4.4x", ((registerData >> 3) & 0xFF));
whismanoid 0:3edb3708c8c5 1736 if ((registerData >> 2) & 0x01) {
whismanoid 0:3edb3708c8c5 1737 cmdLine.serial().printf(" PDIFF_COM");
whismanoid 0:3edb3708c8c5 1738 }
whismanoid 0:3edb3708c8c5 1739 break;
whismanoid 0:3edb3708c8c5 1740 case 0x9000: // BIPOLAR 0x9000..0x97FF format: 1 0 0 1 0 BCH0/1 BCH2/3 BCH4/5 BCH6/7 BCH8/9 BCH10/11 BCH12/13 BCH14/15 x x x
whismanoid 0:3edb3708c8c5 1741 cmdLine.serial().printf(" BIPOLAR 0x%4.4x", ((registerData >> 3) & 0xFF));
whismanoid 0:3edb3708c8c5 1742 break;
whismanoid 0:3edb3708c8c5 1743 case 0x9800: // RANGE 0x9800..0x9FFF format: 1 0 0 1 1 RANGE0/1 RANGE2/3 RANGE4/5 RANGE6/7 RANGE8/9 RANGE10/11 RANGE12/13 RANGE14/15 x x x
whismanoid 0:3edb3708c8c5 1744 cmdLine.serial().printf(" RANGE 0x%4.4x", ((registerData >> 3) & 0xFF));
whismanoid 0:3edb3708c8c5 1745 break;
whismanoid 0:3edb3708c8c5 1746 case 0xA000: // CSCAN0 0xA000..0xA7FF format: 1 0 1 0 0 CHSCAN15 CHSCAN14 CHSCAN13 CHSCAN12 CHSCAN11 CHSCAN10 CHSCAN9 CHSCAN8 x x x
whismanoid 0:3edb3708c8c5 1747 cmdLine.serial().printf(" CSCAN0 0x%4.4x", ((registerData >> 3) & 0xFF));
whismanoid 0:3edb3708c8c5 1748 break;
whismanoid 0:3edb3708c8c5 1749 case 0xA800: // CSCAN1 0xA800..0xAFFF format: 1 0 1 0 1 CHSCAN7 CHSCAN6 CHSCAN5 CHSCAN4 CHSCAN3 CHSCAN2 CHSCAN1 CHSCAN0 x x x
whismanoid 0:3edb3708c8c5 1750 cmdLine.serial().printf(" CSCAN1 0x%4.4x", ((registerData >> 3) & 0xFF));
whismanoid 0:3edb3708c8c5 1751 break;
whismanoid 0:3edb3708c8c5 1752 case 0xB000: // SAMPLESET 0xB000..0xB7FF format: 1 0 1 1 0 SEQ_LENGTH[7:0] x x x
whismanoid 0:3edb3708c8c5 1753 cmdLine.serial().printf(" SAMPLESET SEQ_LENGTH[7:0]=0x%4.4x", ((registerData >> 3) & 0xFF));
whismanoid 0:3edb3708c8c5 1754 cmdLine.serial().printf(" so length=%d channels", (((registerData >> 3) & 0xFF) + 1));
whismanoid 0:3edb3708c8c5 1755 break;
whismanoid 0:3edb3708c8c5 1756 default:
whismanoid 0:3edb3708c8c5 1757 cmdLine.serial().printf(" ???");
whismanoid 0:3edb3708c8c5 1758 break;
whismanoid 0:3edb3708c8c5 1759 }
whismanoid 0:3edb3708c8c5 1760 }
whismanoid 0:3edb3708c8c5 1761 else
whismanoid 0:3edb3708c8c5 1762 {
whismanoid 0:3edb3708c8c5 1763 // ADC_MODE_CONTROL 0x0000..0x7FFF format: 0 SCAN[3:0] CHSEL[3:0] RESET[1:0] PM[1:0] CHAN_ID SWCNV 0
whismanoid 0:3edb3708c8c5 1764 cmdLine.serial().printf(" ADC_MODE_CONTROL");
whismanoid 0:3edb3708c8c5 1765
whismanoid 0:3edb3708c8c5 1766 // define write-only register ADC_MODE_CONTROL
whismanoid 0:3edb3708c8c5 1767 //int16_t ADC_MODE_CONTROL = 0; //!< registerData 0x0000..0x7FFF format: 0 SCAN[3:0] CHSEL[3:0] RESET[1:0] PM[1:0] CHAN_ID SWCNV 0
whismanoid 0:3edb3708c8c5 1768 const int SCAN_LSB = 11; const int SCAN_BITS = 0x0F; //!< ADC_MODE_CONTROL.SCAN[3:0] ADC Scan Control (command)
whismanoid 0:3edb3708c8c5 1769 const int CHSEL_LSB = 7; const int CHSEL_BITS = 0x0F; //!< ADC_MODE_CONTROL.CHSEL[3:0] Analog Input Channel Select AIN0..AIN15
whismanoid 0:3edb3708c8c5 1770 const int RESET_LSB = 5; const int RESET_BITS = 0x03; //!< ADC_MODE_CONTROL.RESET[1:0] Reset 0=Normal 1=ResetFIFO 2=ResetAllRegisters 3=reserved
whismanoid 0:3edb3708c8c5 1771 const int PM_LSB = 3; const int PM_BITS = 0x03; //!< ADC_MODE_CONTROL.PM[1:0] Power Management 0=Normal, 1=AutoShutdown, 2=AutoStandby 3=reserved
whismanoid 0:3edb3708c8c5 1772 const int CHAN_ID_LSB = 2; const int CHAN_ID_BITS = 0x01; //!< ADC_MODE_CONTROL.CHAN_ID
whismanoid 0:3edb3708c8c5 1773 const int SWCNV_LSB = 1; const int SWCNV_BITS = 0x01; //!< ADC_MODE_CONTROL.SWCNV
whismanoid 0:3edb3708c8c5 1774
whismanoid 0:3edb3708c8c5 1775 const int SCAN = ((registerData >> SCAN_LSB) & SCAN_BITS);
whismanoid 0:3edb3708c8c5 1776 const int CHSEL = ((registerData >> CHSEL_LSB) & CHSEL_BITS);
whismanoid 0:3edb3708c8c5 1777 const int RESET = ((registerData >> RESET_LSB) & RESET_BITS);
whismanoid 0:3edb3708c8c5 1778 const int PM = ((registerData >> PM_LSB) & PM_BITS);
whismanoid 0:3edb3708c8c5 1779 const int CHANID = ((registerData >> CHAN_ID_LSB) & CHAN_ID_BITS);
whismanoid 0:3edb3708c8c5 1780 const int SWCNV = ((registerData >> SWCNV_LSB) & SWCNV_BITS);
whismanoid 0:3edb3708c8c5 1781
whismanoid 0:3edb3708c8c5 1782 switch (SCAN)
whismanoid 0:3edb3708c8c5 1783 {
whismanoid 0:3edb3708c8c5 1784 case MAX11131::SCAN_0000_NOP:
whismanoid 0:3edb3708c8c5 1785 cmdLine.serial().printf(" SCAN_0000_NOP");
whismanoid 0:3edb3708c8c5 1786 break;
whismanoid 0:3edb3708c8c5 1787 case MAX11131::SCAN_0001_Manual:
whismanoid 0:3edb3708c8c5 1788 cmdLine.serial().printf(" SCAN_0001_Manual CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1789 break;
whismanoid 0:3edb3708c8c5 1790 case MAX11131::SCAN_0010_Repeat:
whismanoid 0:3edb3708c8c5 1791 cmdLine.serial().printf(" SCAN_0010_Repeat CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1792 break;
whismanoid 0:3edb3708c8c5 1793 case MAX11131::SCAN_0011_StandardInternalClock:
whismanoid 0:3edb3708c8c5 1794 cmdLine.serial().printf(" SCAN_0011_StandardInt CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1795 break;
whismanoid 0:3edb3708c8c5 1796 case MAX11131::SCAN_0100_StandardExternalClock:
whismanoid 0:3edb3708c8c5 1797 cmdLine.serial().printf(" SCAN_0100_StandardExt CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1798 break;
whismanoid 0:3edb3708c8c5 1799 case MAX11131::SCAN_0101_UpperInternalClock:
whismanoid 0:3edb3708c8c5 1800 cmdLine.serial().printf(" SCAN_0101_UpperInt CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1801 break;
whismanoid 0:3edb3708c8c5 1802 case MAX11131::SCAN_0110_UpperExternalClock:
whismanoid 0:3edb3708c8c5 1803 cmdLine.serial().printf(" SCAN_0110_UpperExt CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1804 break;
whismanoid 0:3edb3708c8c5 1805 case MAX11131::SCAN_0111_CustomInternalClock:
whismanoid 0:3edb3708c8c5 1806 cmdLine.serial().printf(" SCAN_0111_CustomInt");
whismanoid 0:3edb3708c8c5 1807 break;
whismanoid 0:3edb3708c8c5 1808 case MAX11131::SCAN_1000_CustomExternalClock:
whismanoid 0:3edb3708c8c5 1809 cmdLine.serial().printf(" SCAN_1000_CustomExt");
whismanoid 0:3edb3708c8c5 1810 break;
whismanoid 0:3edb3708c8c5 1811 case MAX11131::SCAN_1001_SampleSetExternalClock:
whismanoid 0:3edb3708c8c5 1812 cmdLine.serial().printf(" SCAN_1001_SampleSetExt");
whismanoid 0:3edb3708c8c5 1813 break;
whismanoid 0:3edb3708c8c5 1814 default:
whismanoid 0:3edb3708c8c5 1815 cmdLine.serial().printf(" SCAN=%d", SCAN);
whismanoid 0:3edb3708c8c5 1816 cmdLine.serial().printf(" CHSEL=%d", CHSEL);
whismanoid 0:3edb3708c8c5 1817 }
whismanoid 0:3edb3708c8c5 1818 if (RESET) {
whismanoid 0:3edb3708c8c5 1819 cmdLine.serial().printf(" RESET=%d", RESET);
whismanoid 0:3edb3708c8c5 1820 }
whismanoid 0:3edb3708c8c5 1821 if (PM) {
whismanoid 0:3edb3708c8c5 1822 cmdLine.serial().printf(" PM=%d", PM);
whismanoid 0:3edb3708c8c5 1823 }
whismanoid 0:3edb3708c8c5 1824 if (SCAN != MAX11131::SCAN_0000_NOP)
whismanoid 0:3edb3708c8c5 1825 {
whismanoid 0:3edb3708c8c5 1826 if (g_MAX11131_device.isExternalClock)
whismanoid 0:3edb3708c8c5 1827 {
whismanoid 0:3edb3708c8c5 1828 // if external clock mode, print CHANID
whismanoid 0:3edb3708c8c5 1829 cmdLine.serial().printf(" CHANID=%d", CHANID);
whismanoid 0:3edb3708c8c5 1830 }
whismanoid 0:3edb3708c8c5 1831 else
whismanoid 0:3edb3708c8c5 1832 {
whismanoid 0:3edb3708c8c5 1833 // if internal clock mode, print SWCNV
whismanoid 0:3edb3708c8c5 1834 cmdLine.serial().printf(" SWCNV=%d", SWCNV);
whismanoid 0:3edb3708c8c5 1835 }
whismanoid 0:3edb3708c8c5 1836 }
whismanoid 0:3edb3708c8c5 1837 }
whismanoid 0:3edb3708c8c5 1838 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 1839 }
whismanoid 0:3edb3708c8c5 1840 #endif
whismanoid 0:3edb3708c8c5 1841
whismanoid 0:3edb3708c8c5 1842
whismanoid 0:3edb3708c8c5 1843 #if APPLICATION_MAX5171 // hardware interface functions
whismanoid 0:3edb3708c8c5 1844 #endif
whismanoid 0:3edb3708c8c5 1845
whismanoid 0:3edb3708c8c5 1846
whismanoid 0:3edb3708c8c5 1847 #if APPLICATION_MAX11410 // hardware interface functions
whismanoid 0:3edb3708c8c5 1848 #endif
whismanoid 0:3edb3708c8c5 1849
whismanoid 0:3edb3708c8c5 1850
whismanoid 0:3edb3708c8c5 1851 #if APPLICATION_MAX12345 // hardware interface functions
whismanoid 0:3edb3708c8c5 1852 #endif
whismanoid 0:3edb3708c8c5 1853
whismanoid 0:3edb3708c8c5 1854
whismanoid 0:3edb3708c8c5 1855 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 1856 // print banner message to serial port
whismanoid 0:3edb3708c8c5 1857 void print_banner()
whismanoid 0:3edb3708c8c5 1858 {
whismanoid 0:3edb3708c8c5 1859 #if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 1860 DAPLINKserial.printf("\r\n");
whismanoid 0:3edb3708c8c5 1861 # if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 1862 DAPLINKserial.printf("MAX32630");
whismanoid 0:3edb3708c8c5 1863 # elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 1864 DAPLINKserial.printf("MAX32625MBED");
whismanoid 0:3edb3708c8c5 1865 # elif defined(TARGET_NUCLEO_F446RE)
whismanoid 0:3edb3708c8c5 1866 DAPLINKserial.printf("NUCLEO_F446RE");
whismanoid 0:3edb3708c8c5 1867 # elif defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 1868 DAPLINKserial.printf("NUCLEO_F401RE");
whismanoid 0:3edb3708c8c5 1869 # elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 1870 DAPLINKserial.printf("LPC1768");
whismanoid 0:3edb3708c8c5 1871 # else
whismanoid 0:3edb3708c8c5 1872 // unknown target
whismanoid 0:3edb3708c8c5 1873 DAPLINKserial.printf("unknownTarget");
whismanoid 0:3edb3708c8c5 1874 # endif
whismanoid 0:3edb3708c8c5 1875 DAPLINKserial.printf(" DAPLINKserial\r\n");
whismanoid 0:3edb3708c8c5 1876 #endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 1877
whismanoid 7:bf501f8cb637 1878 serial.printf("\r\n");
whismanoid 0:3edb3708c8c5 1879 # if defined(TARGET_MAX32630)
whismanoid 7:bf501f8cb637 1880 serial.printf("MAX32630");
whismanoid 0:3edb3708c8c5 1881 # elif defined(TARGET_MAX32625MBED)
whismanoid 7:bf501f8cb637 1882 serial.printf("MAX32625MBED");
whismanoid 0:3edb3708c8c5 1883 # elif defined(TARGET_NUCLEO_F446RE)
whismanoid 7:bf501f8cb637 1884 serial.printf("NUCLEO_F446RE");
whismanoid 0:3edb3708c8c5 1885 # elif defined(TARGET_NUCLEO_F401RE)
whismanoid 7:bf501f8cb637 1886 serial.printf("NUCLEO_F401RE");
whismanoid 0:3edb3708c8c5 1887 # elif defined(TARGET_LPC1768)
whismanoid 7:bf501f8cb637 1888 serial.printf("LPC1768");
whismanoid 0:3edb3708c8c5 1889 # else
whismanoid 0:3edb3708c8c5 1890 // unknown target
whismanoid 7:bf501f8cb637 1891 serial.printf("unknownTarget");
whismanoid 0:3edb3708c8c5 1892 # endif
whismanoid 7:bf501f8cb637 1893 serial.printf(" Tester\r\n");
whismanoid 0:3edb3708c8c5 1894 }
whismanoid 0:3edb3708c8c5 1895
whismanoid 7:bf501f8cb637 1896 // DigitalInOut pin resource: print the pin index names to serial
whismanoid 0:3edb3708c8c5 1897 #if HAS_digitalInOuts
whismanoid 0:3edb3708c8c5 1898 void list_digitalInOutPins(Stream& serialStream)
whismanoid 0:3edb3708c8c5 1899 {
whismanoid 0:3edb3708c8c5 1900 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 1901 serialStream.printf(" 0");
whismanoid 0:3edb3708c8c5 1902 #endif
whismanoid 0:3edb3708c8c5 1903 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 1904 serialStream.printf(" 1");
whismanoid 0:3edb3708c8c5 1905 #endif
whismanoid 0:3edb3708c8c5 1906 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 1907 serialStream.printf(" 2");
whismanoid 0:3edb3708c8c5 1908 #endif
whismanoid 0:3edb3708c8c5 1909 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 1910 serialStream.printf(" 3");
whismanoid 0:3edb3708c8c5 1911 #endif
whismanoid 0:3edb3708c8c5 1912 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 1913 serialStream.printf(" 4");
whismanoid 0:3edb3708c8c5 1914 #endif
whismanoid 0:3edb3708c8c5 1915 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 1916 serialStream.printf(" 5");
whismanoid 0:3edb3708c8c5 1917 #endif
whismanoid 0:3edb3708c8c5 1918 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 1919 serialStream.printf(" 6");
whismanoid 0:3edb3708c8c5 1920 #endif
whismanoid 0:3edb3708c8c5 1921 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 1922 serialStream.printf(" 7");
whismanoid 0:3edb3708c8c5 1923 #endif
whismanoid 0:3edb3708c8c5 1924 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 1925 serialStream.printf(" 8");
whismanoid 0:3edb3708c8c5 1926 #endif
whismanoid 0:3edb3708c8c5 1927 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 1928 serialStream.printf(" 9");
whismanoid 0:3edb3708c8c5 1929 #endif
whismanoid 0:3edb3708c8c5 1930 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 1931 serialStream.printf(" 10");
whismanoid 0:3edb3708c8c5 1932 #endif
whismanoid 0:3edb3708c8c5 1933 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 1934 serialStream.printf(" 11");
whismanoid 0:3edb3708c8c5 1935 #endif
whismanoid 0:3edb3708c8c5 1936 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 1937 serialStream.printf(" 12");
whismanoid 0:3edb3708c8c5 1938 #endif
whismanoid 0:3edb3708c8c5 1939 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 1940 serialStream.printf(" 13");
whismanoid 0:3edb3708c8c5 1941 #endif
whismanoid 0:3edb3708c8c5 1942 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 1943 serialStream.printf(" 14");
whismanoid 0:3edb3708c8c5 1944 #endif
whismanoid 0:3edb3708c8c5 1945 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 1946 serialStream.printf(" 15");
whismanoid 0:3edb3708c8c5 1947 #endif
whismanoid 0:3edb3708c8c5 1948 #if HAS_digitalInOut16
whismanoid 0:3edb3708c8c5 1949 serialStream.printf(" 16");
whismanoid 0:3edb3708c8c5 1950 #endif
whismanoid 0:3edb3708c8c5 1951 #if HAS_digitalInOut17
whismanoid 0:3edb3708c8c5 1952 serialStream.printf(" 17");
whismanoid 0:3edb3708c8c5 1953 #endif
whismanoid 0:3edb3708c8c5 1954 }
whismanoid 0:3edb3708c8c5 1955 #endif
whismanoid 0:3edb3708c8c5 1956
whismanoid 0:3edb3708c8c5 1957 // DigitalInOut pin resource: present?
whismanoid 0:3edb3708c8c5 1958 #if HAS_digitalInOuts
whismanoid 0:3edb3708c8c5 1959 bool has_digitalInOutPin(int cPinIndex)
whismanoid 0:3edb3708c8c5 1960 {
whismanoid 0:3edb3708c8c5 1961 switch (cPinIndex)
whismanoid 0:3edb3708c8c5 1962 {
whismanoid 0:3edb3708c8c5 1963 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 1964 case '0': case 0x00: return true;
whismanoid 0:3edb3708c8c5 1965 #endif
whismanoid 0:3edb3708c8c5 1966 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 1967 case '1': case 0x01: return true;
whismanoid 0:3edb3708c8c5 1968 #endif
whismanoid 0:3edb3708c8c5 1969 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 1970 case '2': case 0x02: return true;
whismanoid 0:3edb3708c8c5 1971 #endif
whismanoid 0:3edb3708c8c5 1972 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 1973 case '3': case 0x03: return true;
whismanoid 0:3edb3708c8c5 1974 #endif
whismanoid 0:3edb3708c8c5 1975 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 1976 case '4': case 0x04: return true;
whismanoid 0:3edb3708c8c5 1977 #endif
whismanoid 0:3edb3708c8c5 1978 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 1979 case '5': case 0x05: return true;
whismanoid 0:3edb3708c8c5 1980 #endif
whismanoid 0:3edb3708c8c5 1981 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 1982 case '6': case 0x06: return true;
whismanoid 0:3edb3708c8c5 1983 #endif
whismanoid 0:3edb3708c8c5 1984 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 1985 case '7': case 0x07: return true;
whismanoid 0:3edb3708c8c5 1986 #endif
whismanoid 0:3edb3708c8c5 1987 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 1988 case '8': case 0x08: return true;
whismanoid 0:3edb3708c8c5 1989 #endif
whismanoid 0:3edb3708c8c5 1990 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 1991 case '9': case 0x09: return true;
whismanoid 0:3edb3708c8c5 1992 #endif
whismanoid 0:3edb3708c8c5 1993 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 1994 case 'a': case 0x0a: return true;
whismanoid 0:3edb3708c8c5 1995 #endif
whismanoid 0:3edb3708c8c5 1996 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 1997 case 'b': case 0x0b: return true;
whismanoid 0:3edb3708c8c5 1998 #endif
whismanoid 0:3edb3708c8c5 1999 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 2000 case 'c': case 0x0c: return true;
whismanoid 0:3edb3708c8c5 2001 #endif
whismanoid 0:3edb3708c8c5 2002 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 2003 case 'd': case 0x0d: return true;
whismanoid 0:3edb3708c8c5 2004 #endif
whismanoid 0:3edb3708c8c5 2005 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 2006 case 'e': case 0x0e: return true;
whismanoid 0:3edb3708c8c5 2007 #endif
whismanoid 0:3edb3708c8c5 2008 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 2009 case 'f': case 0x0f: return true;
whismanoid 0:3edb3708c8c5 2010 #endif
whismanoid 0:3edb3708c8c5 2011 default:
whismanoid 0:3edb3708c8c5 2012 return false;
whismanoid 0:3edb3708c8c5 2013 }
whismanoid 0:3edb3708c8c5 2014 }
whismanoid 0:3edb3708c8c5 2015 #endif
whismanoid 0:3edb3708c8c5 2016
whismanoid 0:3edb3708c8c5 2017 // DigitalInOut pin resource: search index
whismanoid 0:3edb3708c8c5 2018 #if HAS_digitalInOuts
whismanoid 0:3edb3708c8c5 2019 DigitalInOut& find_digitalInOutPin(int cPinIndex)
whismanoid 0:3edb3708c8c5 2020 {
whismanoid 0:3edb3708c8c5 2021 switch (cPinIndex)
whismanoid 0:3edb3708c8c5 2022 {
whismanoid 0:3edb3708c8c5 2023 default: // default to the first defined digitalInOut pin
whismanoid 0:3edb3708c8c5 2024 #if HAS_digitalInOut0
whismanoid 0:3edb3708c8c5 2025 case '0': case 0x00: return digitalInOut0;
whismanoid 0:3edb3708c8c5 2026 #endif
whismanoid 0:3edb3708c8c5 2027 #if HAS_digitalInOut1
whismanoid 0:3edb3708c8c5 2028 case '1': case 0x01: return digitalInOut1;
whismanoid 0:3edb3708c8c5 2029 #endif
whismanoid 0:3edb3708c8c5 2030 #if HAS_digitalInOut2
whismanoid 0:3edb3708c8c5 2031 case '2': case 0x02: return digitalInOut2;
whismanoid 0:3edb3708c8c5 2032 #endif
whismanoid 0:3edb3708c8c5 2033 #if HAS_digitalInOut3
whismanoid 0:3edb3708c8c5 2034 case '3': case 0x03: return digitalInOut3;
whismanoid 0:3edb3708c8c5 2035 #endif
whismanoid 0:3edb3708c8c5 2036 #if HAS_digitalInOut4
whismanoid 0:3edb3708c8c5 2037 case '4': case 0x04: return digitalInOut4;
whismanoid 0:3edb3708c8c5 2038 #endif
whismanoid 0:3edb3708c8c5 2039 #if HAS_digitalInOut5
whismanoid 0:3edb3708c8c5 2040 case '5': case 0x05: return digitalInOut5;
whismanoid 0:3edb3708c8c5 2041 #endif
whismanoid 0:3edb3708c8c5 2042 #if HAS_digitalInOut6
whismanoid 0:3edb3708c8c5 2043 case '6': case 0x06: return digitalInOut6;
whismanoid 0:3edb3708c8c5 2044 #endif
whismanoid 0:3edb3708c8c5 2045 #if HAS_digitalInOut7
whismanoid 0:3edb3708c8c5 2046 case '7': case 0x07: return digitalInOut7;
whismanoid 0:3edb3708c8c5 2047 #endif
whismanoid 0:3edb3708c8c5 2048 #if HAS_digitalInOut8
whismanoid 0:3edb3708c8c5 2049 case '8': case 0x08: return digitalInOut8;
whismanoid 0:3edb3708c8c5 2050 #endif
whismanoid 0:3edb3708c8c5 2051 #if HAS_digitalInOut9
whismanoid 0:3edb3708c8c5 2052 case '9': case 0x09: return digitalInOut9;
whismanoid 0:3edb3708c8c5 2053 #endif
whismanoid 0:3edb3708c8c5 2054 #if HAS_digitalInOut10
whismanoid 0:3edb3708c8c5 2055 case 'a': case 0x0a: return digitalInOut10;
whismanoid 0:3edb3708c8c5 2056 #endif
whismanoid 0:3edb3708c8c5 2057 #if HAS_digitalInOut11
whismanoid 0:3edb3708c8c5 2058 case 'b': case 0x0b: return digitalInOut11;
whismanoid 0:3edb3708c8c5 2059 #endif
whismanoid 0:3edb3708c8c5 2060 #if HAS_digitalInOut12
whismanoid 0:3edb3708c8c5 2061 case 'c': case 0x0c: return digitalInOut12;
whismanoid 0:3edb3708c8c5 2062 #endif
whismanoid 0:3edb3708c8c5 2063 #if HAS_digitalInOut13
whismanoid 0:3edb3708c8c5 2064 case 'd': case 0x0d: return digitalInOut13;
whismanoid 0:3edb3708c8c5 2065 #endif
whismanoid 0:3edb3708c8c5 2066 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 2067 case 'e': case 0x0e: return digitalInOut14;
whismanoid 0:3edb3708c8c5 2068 #endif
whismanoid 0:3edb3708c8c5 2069 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 2070 case 'f': case 0x0f: return digitalInOut15;
whismanoid 0:3edb3708c8c5 2071 #endif
whismanoid 0:3edb3708c8c5 2072 #if HAS_digitalInOut16
whismanoid 0:3edb3708c8c5 2073 case 'g': case 0x10: return digitalInOut16;
whismanoid 0:3edb3708c8c5 2074 #endif
whismanoid 0:3edb3708c8c5 2075 #if HAS_digitalInOut17
whismanoid 0:3edb3708c8c5 2076 case 'h': case 0x11: return digitalInOut17;
whismanoid 0:3edb3708c8c5 2077 #endif
whismanoid 0:3edb3708c8c5 2078 }
whismanoid 0:3edb3708c8c5 2079 }
whismanoid 0:3edb3708c8c5 2080 #endif
whismanoid 0:3edb3708c8c5 2081
whismanoid 7:bf501f8cb637 2082 // AnalogIn pin resource: print the pin index names to serial
whismanoid 0:3edb3708c8c5 2083 #if HAS_analogIns
whismanoid 0:3edb3708c8c5 2084 void list_analogInPins(Stream& serialStream)
whismanoid 0:3edb3708c8c5 2085 {
whismanoid 0:3edb3708c8c5 2086 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 2087 serialStream.printf(" 0");
whismanoid 0:3edb3708c8c5 2088 #endif
whismanoid 0:3edb3708c8c5 2089 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 2090 serialStream.printf(" 1");
whismanoid 0:3edb3708c8c5 2091 #endif
whismanoid 0:3edb3708c8c5 2092 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 2093 serialStream.printf(" 2");
whismanoid 0:3edb3708c8c5 2094 #endif
whismanoid 0:3edb3708c8c5 2095 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 2096 serialStream.printf(" 3");
whismanoid 0:3edb3708c8c5 2097 #endif
whismanoid 0:3edb3708c8c5 2098 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 2099 serialStream.printf(" 4");
whismanoid 0:3edb3708c8c5 2100 #endif
whismanoid 0:3edb3708c8c5 2101 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 2102 serialStream.printf(" 5");
whismanoid 0:3edb3708c8c5 2103 #endif
whismanoid 0:3edb3708c8c5 2104 #if HAS_analogIn6
whismanoid 0:3edb3708c8c5 2105 serialStream.printf(" 6");
whismanoid 0:3edb3708c8c5 2106 #endif
whismanoid 0:3edb3708c8c5 2107 #if HAS_analogIn7
whismanoid 0:3edb3708c8c5 2108 serialStream.printf(" 7");
whismanoid 0:3edb3708c8c5 2109 #endif
whismanoid 0:3edb3708c8c5 2110 #if HAS_analogIn8
whismanoid 0:3edb3708c8c5 2111 serialStream.printf(" 8");
whismanoid 0:3edb3708c8c5 2112 #endif
whismanoid 0:3edb3708c8c5 2113 #if HAS_analogIn9
whismanoid 0:3edb3708c8c5 2114 serialStream.printf(" 9");
whismanoid 0:3edb3708c8c5 2115 #endif
whismanoid 0:3edb3708c8c5 2116 #if HAS_analogIn10
whismanoid 0:3edb3708c8c5 2117 serialStream.printf(" a");
whismanoid 0:3edb3708c8c5 2118 #endif
whismanoid 0:3edb3708c8c5 2119 #if HAS_analogIn11
whismanoid 0:3edb3708c8c5 2120 serialStream.printf(" b");
whismanoid 0:3edb3708c8c5 2121 #endif
whismanoid 0:3edb3708c8c5 2122 #if HAS_analogIn12
whismanoid 0:3edb3708c8c5 2123 serialStream.printf(" c");
whismanoid 0:3edb3708c8c5 2124 #endif
whismanoid 0:3edb3708c8c5 2125 #if HAS_analogIn13
whismanoid 0:3edb3708c8c5 2126 serialStream.printf(" d");
whismanoid 0:3edb3708c8c5 2127 #endif
whismanoid 0:3edb3708c8c5 2128 #if HAS_analogIn14
whismanoid 0:3edb3708c8c5 2129 serialStream.printf(" e");
whismanoid 0:3edb3708c8c5 2130 #endif
whismanoid 0:3edb3708c8c5 2131 #if HAS_analogIn15
whismanoid 0:3edb3708c8c5 2132 serialStream.printf(" f");
whismanoid 0:3edb3708c8c5 2133 #endif
whismanoid 0:3edb3708c8c5 2134 }
whismanoid 0:3edb3708c8c5 2135 #endif
whismanoid 0:3edb3708c8c5 2136
whismanoid 0:3edb3708c8c5 2137 // AnalogIn pin resource: present?
whismanoid 0:3edb3708c8c5 2138 #if HAS_analogIns
whismanoid 0:3edb3708c8c5 2139 bool has_analogInPin(int cPinIndex)
whismanoid 0:3edb3708c8c5 2140 {
whismanoid 0:3edb3708c8c5 2141 switch (cPinIndex)
whismanoid 0:3edb3708c8c5 2142 {
whismanoid 0:3edb3708c8c5 2143 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 2144 case '0': case 0x00: return true;
whismanoid 0:3edb3708c8c5 2145 #endif
whismanoid 0:3edb3708c8c5 2146 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 2147 case '1': case 0x01: return true;
whismanoid 0:3edb3708c8c5 2148 #endif
whismanoid 0:3edb3708c8c5 2149 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 2150 case '2': case 0x02: return true;
whismanoid 0:3edb3708c8c5 2151 #endif
whismanoid 0:3edb3708c8c5 2152 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 2153 case '3': case 0x03: return true;
whismanoid 0:3edb3708c8c5 2154 #endif
whismanoid 0:3edb3708c8c5 2155 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 2156 case '4': case 0x04: return true;
whismanoid 0:3edb3708c8c5 2157 #endif
whismanoid 0:3edb3708c8c5 2158 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 2159 case '5': case 0x05: return true;
whismanoid 0:3edb3708c8c5 2160 #endif
whismanoid 0:3edb3708c8c5 2161 #if HAS_analogIn6
whismanoid 0:3edb3708c8c5 2162 case '6': case 0x06: return true;
whismanoid 0:3edb3708c8c5 2163 #endif
whismanoid 0:3edb3708c8c5 2164 #if HAS_analogIn7
whismanoid 0:3edb3708c8c5 2165 case '7': case 0x07: return true;
whismanoid 0:3edb3708c8c5 2166 #endif
whismanoid 0:3edb3708c8c5 2167 #if HAS_analogIn8
whismanoid 0:3edb3708c8c5 2168 case '8': case 0x08: return true;
whismanoid 0:3edb3708c8c5 2169 #endif
whismanoid 0:3edb3708c8c5 2170 #if HAS_analogIn9
whismanoid 0:3edb3708c8c5 2171 case '9': case 0x09: return true;
whismanoid 0:3edb3708c8c5 2172 #endif
whismanoid 0:3edb3708c8c5 2173 #if HAS_analogIn10
whismanoid 0:3edb3708c8c5 2174 case 'a': case 0x0a: return true;
whismanoid 0:3edb3708c8c5 2175 #endif
whismanoid 0:3edb3708c8c5 2176 #if HAS_analogIn11
whismanoid 0:3edb3708c8c5 2177 case 'b': case 0x0b: return true;
whismanoid 0:3edb3708c8c5 2178 #endif
whismanoid 0:3edb3708c8c5 2179 #if HAS_analogIn12
whismanoid 0:3edb3708c8c5 2180 case 'c': case 0x0c: return true;
whismanoid 0:3edb3708c8c5 2181 #endif
whismanoid 0:3edb3708c8c5 2182 #if HAS_analogIn13
whismanoid 0:3edb3708c8c5 2183 case 'd': case 0x0d: return true;
whismanoid 0:3edb3708c8c5 2184 #endif
whismanoid 0:3edb3708c8c5 2185 #if HAS_analogIn14
whismanoid 0:3edb3708c8c5 2186 case 'e': case 0x0e: return true;
whismanoid 0:3edb3708c8c5 2187 #endif
whismanoid 0:3edb3708c8c5 2188 #if HAS_analogIn15
whismanoid 0:3edb3708c8c5 2189 case 'f': case 0x0f: return true;
whismanoid 0:3edb3708c8c5 2190 #endif
whismanoid 0:3edb3708c8c5 2191 default:
whismanoid 0:3edb3708c8c5 2192 return false;
whismanoid 0:3edb3708c8c5 2193 }
whismanoid 0:3edb3708c8c5 2194 }
whismanoid 0:3edb3708c8c5 2195 #endif
whismanoid 0:3edb3708c8c5 2196
whismanoid 0:3edb3708c8c5 2197 // AnalogIn pin resource: search index
whismanoid 0:3edb3708c8c5 2198 #if HAS_analogIns
whismanoid 0:3edb3708c8c5 2199 AnalogIn& find_analogInPin(int cPinIndex)
whismanoid 0:3edb3708c8c5 2200 {
whismanoid 0:3edb3708c8c5 2201 switch (cPinIndex)
whismanoid 0:3edb3708c8c5 2202 {
whismanoid 0:3edb3708c8c5 2203 default: // default to the first defined analogIn pin
whismanoid 0:3edb3708c8c5 2204 #if HAS_analogIn0
whismanoid 0:3edb3708c8c5 2205 case '0': case 0x00: return analogIn0;
whismanoid 0:3edb3708c8c5 2206 #endif
whismanoid 0:3edb3708c8c5 2207 #if HAS_analogIn1
whismanoid 0:3edb3708c8c5 2208 case '1': case 0x01: return analogIn1;
whismanoid 0:3edb3708c8c5 2209 #endif
whismanoid 0:3edb3708c8c5 2210 #if HAS_analogIn2
whismanoid 0:3edb3708c8c5 2211 case '2': case 0x02: return analogIn2;
whismanoid 0:3edb3708c8c5 2212 #endif
whismanoid 0:3edb3708c8c5 2213 #if HAS_analogIn3
whismanoid 0:3edb3708c8c5 2214 case '3': case 0x03: return analogIn3;
whismanoid 0:3edb3708c8c5 2215 #endif
whismanoid 0:3edb3708c8c5 2216 #if HAS_analogIn4
whismanoid 0:3edb3708c8c5 2217 case '4': case 0x04: return analogIn4;
whismanoid 0:3edb3708c8c5 2218 #endif
whismanoid 0:3edb3708c8c5 2219 #if HAS_analogIn5
whismanoid 0:3edb3708c8c5 2220 case '5': case 0x05: return analogIn5;
whismanoid 0:3edb3708c8c5 2221 #endif
whismanoid 0:3edb3708c8c5 2222 #if HAS_analogIn6
whismanoid 0:3edb3708c8c5 2223 case '6': case 0x06: return analogIn6;
whismanoid 0:3edb3708c8c5 2224 #endif
whismanoid 0:3edb3708c8c5 2225 #if HAS_analogIn7
whismanoid 0:3edb3708c8c5 2226 case '7': case 0x07: return analogIn7;
whismanoid 0:3edb3708c8c5 2227 #endif
whismanoid 0:3edb3708c8c5 2228 #if HAS_analogIn8
whismanoid 0:3edb3708c8c5 2229 case '8': case 0x08: return analogIn8;
whismanoid 0:3edb3708c8c5 2230 #endif
whismanoid 0:3edb3708c8c5 2231 #if HAS_analogIn9
whismanoid 0:3edb3708c8c5 2232 case '9': case 0x09: return analogIn9;
whismanoid 0:3edb3708c8c5 2233 #endif
whismanoid 0:3edb3708c8c5 2234 #if HAS_analogIn10
whismanoid 0:3edb3708c8c5 2235 case 'a': case 0x0a: return analogIn10;
whismanoid 0:3edb3708c8c5 2236 #endif
whismanoid 0:3edb3708c8c5 2237 #if HAS_analogIn11
whismanoid 0:3edb3708c8c5 2238 case 'b': case 0x0b: return analogIn11;
whismanoid 0:3edb3708c8c5 2239 #endif
whismanoid 0:3edb3708c8c5 2240 #if HAS_analogIn12
whismanoid 0:3edb3708c8c5 2241 case 'c': case 0x0c: return analogIn12;
whismanoid 0:3edb3708c8c5 2242 #endif
whismanoid 0:3edb3708c8c5 2243 #if HAS_analogIn13
whismanoid 0:3edb3708c8c5 2244 case 'd': case 0x0d: return analogIn13;
whismanoid 0:3edb3708c8c5 2245 #endif
whismanoid 0:3edb3708c8c5 2246 #if HAS_analogIn14
whismanoid 0:3edb3708c8c5 2247 case 'e': case 0x0e: return analogIn14;
whismanoid 0:3edb3708c8c5 2248 #endif
whismanoid 0:3edb3708c8c5 2249 #if HAS_analogIn15
whismanoid 0:3edb3708c8c5 2250 case 'f': case 0x0f: return analogIn15;
whismanoid 0:3edb3708c8c5 2251 #endif
whismanoid 0:3edb3708c8c5 2252 }
whismanoid 0:3edb3708c8c5 2253 }
whismanoid 0:3edb3708c8c5 2254 #endif
whismanoid 0:3edb3708c8c5 2255
whismanoid 0:3edb3708c8c5 2256 #if HAS_analogIns
whismanoid 0:3edb3708c8c5 2257 const float analogInPin_fullScaleVoltage[] = {
whismanoid 0:3edb3708c8c5 2258 # if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 2259 ADC_FULL_SCALE_VOLTAGE, // analogIn0
whismanoid 0:3edb3708c8c5 2260 ADC_FULL_SCALE_VOLTAGE, // analogIn1
whismanoid 0:3edb3708c8c5 2261 ADC_FULL_SCALE_VOLTAGE, // analogIn2
whismanoid 0:3edb3708c8c5 2262 ADC_FULL_SCALE_VOLTAGE, // analogIn3
whismanoid 0:3edb3708c8c5 2263 ADC_FULL_SCALE_VOLTAGE * 5.0f, // analogIn4 // AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 2264 ADC_FULL_SCALE_VOLTAGE * 5.0f, // analogIn4 // AIN_5 = AIN1 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 2265 ADC_FULL_SCALE_VOLTAGE * 4.0f, // analogIn6 // AIN_6 = VDDB / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 2266 ADC_FULL_SCALE_VOLTAGE, // analogIn7 // AIN_7 = VDD18 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2267 ADC_FULL_SCALE_VOLTAGE, // analogIn8 // AIN_8 = VDD12 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2268 ADC_FULL_SCALE_VOLTAGE * 2.0f, // analogIn9 // AIN_9 = VRTC / 2.0 fullscale is 2.4V
whismanoid 0:3edb3708c8c5 2269 ADC_FULL_SCALE_VOLTAGE, // analogIn10 // AIN_10 = x undefined?
whismanoid 0:3edb3708c8c5 2270 ADC_FULL_SCALE_VOLTAGE * 4.0f, // analogIn11 // AIN_11 = VDDIO / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 2271 ADC_FULL_SCALE_VOLTAGE * 4.0f, // analogIn12 // AIN_12 = VDDIOH / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 2272 ADC_FULL_SCALE_VOLTAGE, // analogIn13
whismanoid 0:3edb3708c8c5 2273 ADC_FULL_SCALE_VOLTAGE, // analogIn14
whismanoid 0:3edb3708c8c5 2274 ADC_FULL_SCALE_VOLTAGE // analogIn15
whismanoid 0:3edb3708c8c5 2275 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 2276 ADC_FULL_SCALE_VOLTAGE * 1.0f, // analogIn0 // fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2277 ADC_FULL_SCALE_VOLTAGE * 1.0f, // analogIn1 // fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2278 ADC_FULL_SCALE_VOLTAGE * 1.0f, // analogIn2 // fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2279 ADC_FULL_SCALE_VOLTAGE * 1.0f, // analogIn3 // fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2280 ADC_FULL_SCALE_VOLTAGE * 5.0f, // analogIn4 // AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 2281 ADC_FULL_SCALE_VOLTAGE * 5.0f, // analogIn4 // AIN_5 = AIN1 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 2282 ADC_FULL_SCALE_VOLTAGE * 4.0f, // analogIn6 // AIN_6 = VDDB / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 2283 ADC_FULL_SCALE_VOLTAGE, // analogIn7 // AIN_7 = VDD18 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2284 ADC_FULL_SCALE_VOLTAGE, // analogIn8 // AIN_8 = VDD12 fullscale is 1.2V
whismanoid 0:3edb3708c8c5 2285 ADC_FULL_SCALE_VOLTAGE * 2.0f, // analogIn9 // AIN_9 = VRTC / 2.0 fullscale is 2.4V
whismanoid 0:3edb3708c8c5 2286 ADC_FULL_SCALE_VOLTAGE, // analogIn10 // AIN_10 = x undefined?
whismanoid 0:3edb3708c8c5 2287 ADC_FULL_SCALE_VOLTAGE * 4.0f, // analogIn11 // AIN_11 = VDDIO / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 2288 ADC_FULL_SCALE_VOLTAGE * 4.0f, // analogIn12 // AIN_12 = VDDIOH / 4.0 fullscale is 4.8V
whismanoid 0:3edb3708c8c5 2289 ADC_FULL_SCALE_VOLTAGE, // analogIn13
whismanoid 0:3edb3708c8c5 2290 ADC_FULL_SCALE_VOLTAGE, // analogIn14
whismanoid 0:3edb3708c8c5 2291 ADC_FULL_SCALE_VOLTAGE // analogIn15
whismanoid 0:3edb3708c8c5 2292 #elif defined(TARGET_NUCLEO_F446RE)
whismanoid 0:3edb3708c8c5 2293 ADC_FULL_SCALE_VOLTAGE, // analogIn0
whismanoid 0:3edb3708c8c5 2294 ADC_FULL_SCALE_VOLTAGE, // analogIn1
whismanoid 0:3edb3708c8c5 2295 ADC_FULL_SCALE_VOLTAGE, // analogIn2
whismanoid 0:3edb3708c8c5 2296 ADC_FULL_SCALE_VOLTAGE, // analogIn3
whismanoid 0:3edb3708c8c5 2297 ADC_FULL_SCALE_VOLTAGE, // analogIn4
whismanoid 0:3edb3708c8c5 2298 ADC_FULL_SCALE_VOLTAGE, // analogIn5
whismanoid 0:3edb3708c8c5 2299 ADC_FULL_SCALE_VOLTAGE, // analogIn6
whismanoid 0:3edb3708c8c5 2300 ADC_FULL_SCALE_VOLTAGE, // analogIn7
whismanoid 0:3edb3708c8c5 2301 ADC_FULL_SCALE_VOLTAGE, // analogIn8
whismanoid 0:3edb3708c8c5 2302 ADC_FULL_SCALE_VOLTAGE, // analogIn9
whismanoid 0:3edb3708c8c5 2303 ADC_FULL_SCALE_VOLTAGE, // analogIn10
whismanoid 0:3edb3708c8c5 2304 ADC_FULL_SCALE_VOLTAGE, // analogIn11
whismanoid 0:3edb3708c8c5 2305 ADC_FULL_SCALE_VOLTAGE, // analogIn12
whismanoid 0:3edb3708c8c5 2306 ADC_FULL_SCALE_VOLTAGE, // analogIn13
whismanoid 0:3edb3708c8c5 2307 ADC_FULL_SCALE_VOLTAGE, // analogIn14
whismanoid 0:3edb3708c8c5 2308 ADC_FULL_SCALE_VOLTAGE // analogIn15
whismanoid 0:3edb3708c8c5 2309 #elif defined(TARGET_NUCLEO_F401RE)
whismanoid 0:3edb3708c8c5 2310 ADC_FULL_SCALE_VOLTAGE, // analogIn0
whismanoid 0:3edb3708c8c5 2311 ADC_FULL_SCALE_VOLTAGE, // analogIn1
whismanoid 0:3edb3708c8c5 2312 ADC_FULL_SCALE_VOLTAGE, // analogIn2
whismanoid 0:3edb3708c8c5 2313 ADC_FULL_SCALE_VOLTAGE, // analogIn3
whismanoid 0:3edb3708c8c5 2314 ADC_FULL_SCALE_VOLTAGE, // analogIn4
whismanoid 0:3edb3708c8c5 2315 ADC_FULL_SCALE_VOLTAGE, // analogIn5
whismanoid 0:3edb3708c8c5 2316 ADC_FULL_SCALE_VOLTAGE, // analogIn6
whismanoid 0:3edb3708c8c5 2317 ADC_FULL_SCALE_VOLTAGE, // analogIn7
whismanoid 0:3edb3708c8c5 2318 ADC_FULL_SCALE_VOLTAGE, // analogIn8
whismanoid 0:3edb3708c8c5 2319 ADC_FULL_SCALE_VOLTAGE, // analogIn9
whismanoid 0:3edb3708c8c5 2320 ADC_FULL_SCALE_VOLTAGE, // analogIn10
whismanoid 0:3edb3708c8c5 2321 ADC_FULL_SCALE_VOLTAGE, // analogIn11
whismanoid 0:3edb3708c8c5 2322 ADC_FULL_SCALE_VOLTAGE, // analogIn12
whismanoid 0:3edb3708c8c5 2323 ADC_FULL_SCALE_VOLTAGE, // analogIn13
whismanoid 0:3edb3708c8c5 2324 ADC_FULL_SCALE_VOLTAGE, // analogIn14
whismanoid 0:3edb3708c8c5 2325 ADC_FULL_SCALE_VOLTAGE // analogIn15
whismanoid 0:3edb3708c8c5 2326 //#elif defined(TARGET_LPC1768)
whismanoid 0:3edb3708c8c5 2327 #else
whismanoid 0:3edb3708c8c5 2328 // unknown target
whismanoid 0:3edb3708c8c5 2329 ADC_FULL_SCALE_VOLTAGE, // analogIn0
whismanoid 0:3edb3708c8c5 2330 ADC_FULL_SCALE_VOLTAGE, // analogIn1
whismanoid 0:3edb3708c8c5 2331 ADC_FULL_SCALE_VOLTAGE, // analogIn2
whismanoid 0:3edb3708c8c5 2332 ADC_FULL_SCALE_VOLTAGE, // analogIn3
whismanoid 0:3edb3708c8c5 2333 ADC_FULL_SCALE_VOLTAGE, // analogIn4
whismanoid 0:3edb3708c8c5 2334 ADC_FULL_SCALE_VOLTAGE, // analogIn5
whismanoid 0:3edb3708c8c5 2335 ADC_FULL_SCALE_VOLTAGE, // analogIn6
whismanoid 0:3edb3708c8c5 2336 ADC_FULL_SCALE_VOLTAGE, // analogIn7
whismanoid 0:3edb3708c8c5 2337 ADC_FULL_SCALE_VOLTAGE, // analogIn8
whismanoid 0:3edb3708c8c5 2338 ADC_FULL_SCALE_VOLTAGE, // analogIn9
whismanoid 0:3edb3708c8c5 2339 ADC_FULL_SCALE_VOLTAGE, // analogIn10
whismanoid 0:3edb3708c8c5 2340 ADC_FULL_SCALE_VOLTAGE, // analogIn11
whismanoid 0:3edb3708c8c5 2341 ADC_FULL_SCALE_VOLTAGE, // analogIn12
whismanoid 0:3edb3708c8c5 2342 ADC_FULL_SCALE_VOLTAGE, // analogIn13
whismanoid 0:3edb3708c8c5 2343 ADC_FULL_SCALE_VOLTAGE, // analogIn14
whismanoid 0:3edb3708c8c5 2344 ADC_FULL_SCALE_VOLTAGE // analogIn15
whismanoid 0:3edb3708c8c5 2345 # endif
whismanoid 0:3edb3708c8c5 2346 };
whismanoid 0:3edb3708c8c5 2347 #endif
whismanoid 0:3edb3708c8c5 2348
whismanoid 0:3edb3708c8c5 2349 #if HAS_I2C // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 2350 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2351 // Search I2C device address list
whismanoid 0:3edb3708c8c5 2352 //
whismanoid 0:3edb3708c8c5 2353 // @param[in] deviceAddress7First = I2C device address (slave address on I2C bus), 7-bits, RIGHT-justified.
whismanoid 0:3edb3708c8c5 2354 // @param[in] deviceAddress7Last = I2C device address (slave address on I2C bus), 7-bits, RIGHT-justified.
whismanoid 0:3edb3708c8c5 2355 // @param[in] numDevicesFoundLimit = maximum number of devices to detect before halting search; in case SCL stuck low or pullups missing.
whismanoid 0:3edb3708c8c5 2356 // @returns deviceAddress on success; 0 on failure
whismanoid 0:3edb3708c8c5 2357 // @post g_I2C_deviceAddress7 is updated with any device that did ACK
whismanoid 0:3edb3708c8c5 2358 //
whismanoid 0:3edb3708c8c5 2359 void HuntAttachedI2CDevices(CmdLine& cmdLine, uint8_t deviceAddress7First, uint8_t deviceAddress7Last,
whismanoid 0:3edb3708c8c5 2360 const uint8_t numDevicesFoundLimit = 20)
whismanoid 0:3edb3708c8c5 2361 {
whismanoid 0:3edb3708c8c5 2362 // declare in narrower scope: MAX32625MBED I2C i2cMaster(...)
whismanoid 0:3edb3708c8c5 2363 I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 2364 i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 2365
whismanoid 0:3edb3708c8c5 2366 // %IP -- I2C probe
whismanoid 0:3edb3708c8c5 2367 // TODO: i2c transfer
whismanoid 0:3edb3708c8c5 2368 //const int addr7bit = 0x48; // 7 bit I2C address
whismanoid 0:3edb3708c8c5 2369 //const int addr8bit = 0x48 << 1; // 8bit I2C address, 0x90
whismanoid 0:3edb3708c8c5 2370 // /* int */ i2cMaster.read (int addr8bit, char *data, int length, bool repeated=false) // Read from an I2C slave.
whismanoid 0:3edb3708c8c5 2371 // /* int */ i2cMaster.read (int ack) // Read a single byte from the I2C bus.
whismanoid 0:3edb3708c8c5 2372 // /* int */ i2cMaster.write (int addr8bit, const char *data, int length, bool repeated=false) // Write to an I2C slave.
whismanoid 0:3edb3708c8c5 2373 // /* int */ i2cMaster.write (int data) // Write single byte out on the I2C bus.
whismanoid 0:3edb3708c8c5 2374 // /* void */ i2cMaster.start (void) // Creates a start condition on the I2C bus.
whismanoid 0:3edb3708c8c5 2375 // /* void */ i2cMaster.stop (void) // Creates a stop condition on the I2C bus.
whismanoid 0:3edb3708c8c5 2376 // /* int */ i2cMaster.transfer (int addr8bit, const char *tx_buffer, int tx_length, char *rx_buffer, int rx_length, const event_callback_t &callback, int event=I2C_EVENT_TRANSFER_COMPLETE, bool repeated=false) // Start nonblocking I2C transfer. More...
whismanoid 0:3edb3708c8c5 2377 // /* void */ i2cMaster.abort_transfer () // Abort the ongoing I2C transfer. More...
whismanoid 0:3edb3708c8c5 2378
whismanoid 0:3edb3708c8c5 2379 //const char probeWriteData[] = { 0x00 };
whismanoid 0:3edb3708c8c5 2380 //int probeWriteDataLength = 1;
whismanoid 0:3edb3708c8c5 2381 //bool isRepeatedStart = false;
whismanoid 0:3edb3708c8c5 2382 cmdLine.serial().printf("I2C Probe {0x%2.2X (0x%2.2X >> 1) to 0x%2.2X (0x%2.2X >> 1)}, limit %d\r\n",
whismanoid 0:3edb3708c8c5 2383 deviceAddress7First,
whismanoid 0:3edb3708c8c5 2384 deviceAddress7First << 1,
whismanoid 0:3edb3708c8c5 2385 deviceAddress7Last,
whismanoid 0:3edb3708c8c5 2386 deviceAddress7Last << 1,
whismanoid 0:3edb3708c8c5 2387 numDevicesFoundLimit); // HuntAttachedI2CDevices
whismanoid 0:3edb3708c8c5 2388 //~ const int i2cFileDescriptor = i2c_open_adapter(1);
whismanoid 0:3edb3708c8c5 2389 uint8_t numDevicesFound = 0;
whismanoid 0:3edb3708c8c5 2390 uint8_t last_valid_deviceAddress7 = 0;
whismanoid 0:3edb3708c8c5 2391 for (uint8_t deviceAddress7 = deviceAddress7First; deviceAddress7 <= deviceAddress7Last; deviceAddress7++)
whismanoid 0:3edb3708c8c5 2392 {
whismanoid 0:3edb3708c8c5 2393 //cmdLine.serial().printf(" (0x%2.2X >> 1) ", (deviceAddress7 << 1));
whismanoid 0:3edb3708c8c5 2394 //if (i2c_ioctl_I2C_SLAVE_i2cDeviceAddress7bits(i2cFileDescriptor, deviceAddress7) == 0)
whismanoid 0:3edb3708c8c5 2395 int addr8bit = deviceAddress7 * 2;
whismanoid 0:3edb3708c8c5 2396 //
whismanoid 0:3edb3708c8c5 2397 // /* int */ i2cMaster.write (int addr8bit, const char *data, int length, bool repeated=false) // Write to an I2C slave.
whismanoid 0:3edb3708c8c5 2398 // Returns 0 on success (ack), nonzero on failure (nack)
whismanoid 0:3edb3708c8c5 2399 //bool gotACK = (i2cMaster.write (addr8bit, probeWriteData, probeWriteDataLength, isRepeatedStart) == 0);
whismanoid 0:3edb3708c8c5 2400 //
whismanoid 0:3edb3708c8c5 2401 // SMBusQuick test
whismanoid 0:3edb3708c8c5 2402 i2cMaster.start();
whismanoid 0:3edb3708c8c5 2403 // /** Write single byte out on the I2C bus
whismanoid 0:3edb3708c8c5 2404 // *
whismanoid 0:3edb3708c8c5 2405 // * @param data data to write out on bus
whismanoid 0:3edb3708c8c5 2406 // *
whismanoid 0:3edb3708c8c5 2407 // * @returns
whismanoid 0:3edb3708c8c5 2408 // * '0' - NAK was received
whismanoid 0:3edb3708c8c5 2409 // * '1' - ACK was received,
whismanoid 0:3edb3708c8c5 2410 // * '2' - timeout
whismanoid 0:3edb3708c8c5 2411 // */
whismanoid 0:3edb3708c8c5 2412 // int write(int data);
whismanoid 0:3edb3708c8c5 2413 int writeStatus = i2cMaster.write(addr8bit);
whismanoid 0:3edb3708c8c5 2414 i2cMaster.stop();
whismanoid 0:3edb3708c8c5 2415 bool gotACK = (writeStatus == 1); // ACK was received
whismanoid 0:3edb3708c8c5 2416 if (writeStatus == 2) // timeout
whismanoid 0:3edb3708c8c5 2417 {
whismanoid 0:3edb3708c8c5 2418 cmdLine.serial().printf("- timeout\r\n");
whismanoid 0:3edb3708c8c5 2419 }
whismanoid 0:3edb3708c8c5 2420 //
whismanoid 0:3edb3708c8c5 2421 if (gotACK)
whismanoid 0:3edb3708c8c5 2422 {
whismanoid 0:3edb3708c8c5 2423 // @return status; error if (fileDescriptor < 0)
whismanoid 0:3edb3708c8c5 2424 cmdLine.serial().printf("+ ADDR=0x%2.2X (0x%2.2X >> 1) ACK\r\n", deviceAddress7, (deviceAddress7 << 1));
whismanoid 0:3edb3708c8c5 2425 numDevicesFound++;
whismanoid 0:3edb3708c8c5 2426 last_valid_deviceAddress7 = deviceAddress7;
whismanoid 0:3edb3708c8c5 2427 if (numDevicesFound > numDevicesFoundLimit)
whismanoid 0:3edb3708c8c5 2428 {
whismanoid 0:3edb3708c8c5 2429 break;
whismanoid 0:3edb3708c8c5 2430 }
whismanoid 0:3edb3708c8c5 2431 continue;
whismanoid 0:3edb3708c8c5 2432 }
whismanoid 0:3edb3708c8c5 2433 }
whismanoid 0:3edb3708c8c5 2434 if (numDevicesFound == 0)
whismanoid 0:3edb3708c8c5 2435 {
whismanoid 0:3edb3708c8c5 2436 cmdLine.serial().printf("- No I2C devices found. Maybe SCL/SDA are swapped?\r\n");
whismanoid 0:3edb3708c8c5 2437 }
whismanoid 0:3edb3708c8c5 2438 else if (numDevicesFound > numDevicesFoundLimit)
whismanoid 0:3edb3708c8c5 2439 {
whismanoid 0:3edb3708c8c5 2440 cmdLine.serial().printf("- Many I2C devices found. SCL/SDA missing pullup resistors? SCL stuck low?\r\n");
whismanoid 0:3edb3708c8c5 2441 }
whismanoid 0:3edb3708c8c5 2442 else
whismanoid 0:3edb3708c8c5 2443 {
whismanoid 0:3edb3708c8c5 2444 //~ i2c_ioctl_I2C_SLAVE_i2cDeviceAddress7bits(i2cFileDescriptor, last_valid_deviceAddress7);
whismanoid 0:3edb3708c8c5 2445 g_I2C_deviceAddress7 = last_valid_deviceAddress7;
whismanoid 0:3edb3708c8c5 2446 }
whismanoid 0:3edb3708c8c5 2447 //~ i2c_close(i2cFileDescriptor);
whismanoid 0:3edb3708c8c5 2448 }
whismanoid 0:3edb3708c8c5 2449 #endif // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 2450
whismanoid 0:3edb3708c8c5 2451 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2452 // periodic interrupt timer onTimerTick handler triggered by Ticker
whismanoid 0:3edb3708c8c5 2453 // analogIn0 (MAX32630:AIN_4 = AIN0 / 5.0) controls angular speed
whismanoid 0:3edb3708c8c5 2454 // analogIn1 (MAX32630:AIN_5 = AIN1 / 5.0) controls PWM duty cycle
whismanoid 0:3edb3708c8c5 2455 // note: measured 500ns overhead for MAX32630FTHR digitalInOut1.write(0); digitalInOut1.write(1);
whismanoid 0:3edb3708c8c5 2456 #if USE_PERIODIC_TIMER
whismanoid 0:3edb3708c8c5 2457 void onTimerTick() {
whismanoid 0:3edb3708c8c5 2458 } // onTimerTick
whismanoid 0:3edb3708c8c5 2459 #endif
whismanoid 0:3edb3708c8c5 2460
whismanoid 0:3edb3708c8c5 2461 #if USE_PERIODIC_TIMER
whismanoid 0:3edb3708c8c5 2462 // periodic interrupt timer command handlers -- enable timer
whismanoid 0:3edb3708c8c5 2463 void cmd_TE()
whismanoid 0:3edb3708c8c5 2464 {
whismanoid 0:3edb3708c8c5 2465 //us_timestamp_t interval_usec = 100000; // 100ms
whismanoid 0:3edb3708c8c5 2466 periodicInterruptTimer_interval_usec = 100000; // 100ms
whismanoid 0:3edb3708c8c5 2467 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 2468 DAPLINKserial.printf(" Timer Enable %d us\r\n", periodicInterruptTimer_interval_usec);
whismanoid 0:3edb3708c8c5 2469 # endif
whismanoid 7:bf501f8cb637 2470 serial.printf(" Timer Enable %d us", periodicInterruptTimer_interval_usec);
whismanoid 0:3edb3708c8c5 2471 periodicInterruptTimer.attach_us(&onTimerTick, periodicInterruptTimer_interval_usec);
whismanoid 0:3edb3708c8c5 2472 // -- periodicInterruptTimer.attach(&onTimerTick, interval_sec); // the address of the function to be attached (onTimerTick) and the interval (2 seconds)
whismanoid 0:3edb3708c8c5 2473 // -- periodicInterruptTimer.attach_us(&onTimerTick, interval_usec); // the address of the function to be attached (onTimerTick) and the interval (2 seconds)
whismanoid 0:3edb3708c8c5 2474 // -- periodicInterruptTimer.attach(Callback<void()> func, float t);
whismanoid 0:3edb3708c8c5 2475 // -- periodicInterruptTimer.attach_us(Callback<void()> func, us_timestamp_t t);
whismanoid 0:3edb3708c8c5 2476 // TODO1: cmd_T add cSubCommand to change interval of Ticker periodic interrupt timer
whismanoid 0:3edb3708c8c5 2477 }
whismanoid 0:3edb3708c8c5 2478 #endif
whismanoid 0:3edb3708c8c5 2479
whismanoid 0:3edb3708c8c5 2480 #if USE_PERIODIC_TIMER
whismanoid 0:3edb3708c8c5 2481 // periodic interrupt timer command handlers -- disable timer
whismanoid 0:3edb3708c8c5 2482 void cmd_TD()
whismanoid 0:3edb3708c8c5 2483 {
whismanoid 0:3edb3708c8c5 2484 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 2485 DAPLINKserial.printf(" Timer Disable\r\n");
whismanoid 0:3edb3708c8c5 2486 # endif
whismanoid 7:bf501f8cb637 2487 serial.printf(" Timer Disable ");
whismanoid 0:3edb3708c8c5 2488 periodicInterruptTimer.detach(); // Detach the function
whismanoid 0:3edb3708c8c5 2489 }
whismanoid 0:3edb3708c8c5 2490 #endif
whismanoid 0:3edb3708c8c5 2491
whismanoid 0:3edb3708c8c5 2492 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2493 // When user presses button BUTTON1, perform a demo configuration
whismanoid 0:3edb3708c8c5 2494 #if HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 2495 void onButton1FallingEdge(void)
whismanoid 0:3edb3708c8c5 2496 {
whismanoid 0:3edb3708c8c5 2497 void SelfTest(CmdLine & cmdLine);
whismanoid 0:3edb3708c8c5 2498
whismanoid 7:bf501f8cb637 2499 SelfTest(cmdLine_serial);
whismanoid 0:3edb3708c8c5 2500
whismanoid 0:3edb3708c8c5 2501 #if 0 // APPLICATION_MAX5715 // onButton1FallingEdge BUTTON1 demo configuration MAX5715BOB
whismanoid 0:3edb3708c8c5 2502 //~ cmdLine.serial().printf("MAX5715_REF(REF_AlwaysOn_2V500)");
whismanoid 0:3edb3708c8c5 2503 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_2V500);
whismanoid 0:3edb3708c8c5 2504
whismanoid 0:3edb3708c8c5 2505 uint16_t code = 4095;
whismanoid 0:3edb3708c8c5 2506 //~ cmdLine.serial().printf("CODEallLOADall code=%d", code);
whismanoid 0:3edb3708c8c5 2507 g_MAX5715_device.CODEallLOADall(code);
whismanoid 0:3edb3708c8c5 2508 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 2509
whismanoid 0:3edb3708c8c5 2510 }
whismanoid 0:3edb3708c8c5 2511 #endif // HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 2512
whismanoid 0:3edb3708c8c5 2513 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2514 // When user presses button BUTTON2, perform a demo configuration
whismanoid 0:3edb3708c8c5 2515 #if HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 2516 void onButton2FallingEdge(void)
whismanoid 0:3edb3708c8c5 2517 {
whismanoid 0:3edb3708c8c5 2518 // TODO1: BUTTON2 demo configuration LED blink
whismanoid 0:3edb3708c8c5 2519
whismanoid 0:3edb3708c8c5 2520 #if APPLICATION_MAX5715 // onButton2FallingEdge BUTTON2 demo configuration MAX5715BOB
whismanoid 0:3edb3708c8c5 2521 //~ cmdLine.serial().printf("MAX5715_REF(REF_AlwaysOn_2V048)");
whismanoid 0:3edb3708c8c5 2522 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_2V048);
whismanoid 0:3edb3708c8c5 2523 //
whismanoid 0:3edb3708c8c5 2524 uint16_t ch = 0;
whismanoid 0:3edb3708c8c5 2525 uint16_t code = 0xccc;
whismanoid 0:3edb3708c8c5 2526 //~ cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 2527 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 2528 //
whismanoid 0:3edb3708c8c5 2529 ch = 1;
whismanoid 0:3edb3708c8c5 2530 code = 0x800;
whismanoid 0:3edb3708c8c5 2531 //~ cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 2532 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 2533 //
whismanoid 0:3edb3708c8c5 2534 ch = 2;
whismanoid 0:3edb3708c8c5 2535 code = 0x666;
whismanoid 0:3edb3708c8c5 2536 //~ cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 2537 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 2538 //
whismanoid 0:3edb3708c8c5 2539 ch = 3;
whismanoid 0:3edb3708c8c5 2540 code = 0xFFF;
whismanoid 0:3edb3708c8c5 2541 //~ cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 2542 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 2543 #elif APPLICATION_MAX11131 // onButton2FallingEdge BUTTON2 demo configuration MAX11131BOB
whismanoid 0:3edb3708c8c5 2544 // TODO1: demo
whismanoid 0:3edb3708c8c5 2545 // MAX11131 > 4
whismanoid 0:3edb3708c8c5 2546 // ScanStandardExternalClock ch=9 pm=0 id=1
whismanoid 0:3edb3708c8c5 2547 // ScanRead_nWords_chanID nWords=10
whismanoid 0:3edb3708c8c5 2548 // ch=0 xu=2964 = 0x0b94 = 1.8091V
whismanoid 0:3edb3708c8c5 2549 // ch=1 xu=2227 = 0x08b3 = 1.3593V
whismanoid 0:3edb3708c8c5 2550 // ch=2 xu=1570 = 0x0622 = 0.9583V
whismanoid 0:3edb3708c8c5 2551 // ch=3 xu=865 = 0x0361 = 0.5280V
whismanoid 0:3edb3708c8c5 2552 // ch=4 xu=630 = 0x0276 = 0.3845V
whismanoid 0:3edb3708c8c5 2553 // ch=5 xu=594 = 0x0252 = 0.3625V
whismanoid 0:3edb3708c8c5 2554 // ch=6 xu=461 = 0x01cd = 0.2814V
whismanoid 0:3edb3708c8c5 2555 // ch=7 xu=364 = 0x016c = 0.2222V
whismanoid 0:3edb3708c8c5 2556 // ch=8 xu=480 = 0x01e0 = 0.2930V
whismanoid 0:3edb3708c8c5 2557 // ch=9 xu=616 = 0x0268 = 0.3760V
whismanoid 0:3edb3708c8c5 2558 g_MAX11131_device.channelNumber_0_15 = 9;
whismanoid 0:3edb3708c8c5 2559 g_MAX11131_device.PowerManagement_0_2 = 0;
whismanoid 0:3edb3708c8c5 2560 g_MAX11131_device.chan_id_0_1 = 1;
whismanoid 0:3edb3708c8c5 2561 g_MAX11131_device.NumWords = g_MAX11131_device.ScanStandardExternalClock();
whismanoid 0:3edb3708c8c5 2562 //
whismanoid 0:3edb3708c8c5 2563 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 2564 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 2565 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 2566 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 2567 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 2568 //
whismanoid 0:3edb3708c8c5 2569 // TODO: compare with mbed/Arduino AIN0-AIN3
whismanoid 0:3edb3708c8c5 2570 //
whismanoid 0:3edb3708c8c5 2571 #elif APPLICATION_MAX5171 // onButton2FallingEdge BUTTON2 demo configuration MAX5171BOB
whismanoid 0:3edb3708c8c5 2572 // TODO: demo
whismanoid 0:3edb3708c8c5 2573 uint16_t code = 0xccc;
whismanoid 0:3edb3708c8c5 2574 g_MAX5171_device.CODE(code);
whismanoid 0:3edb3708c8c5 2575 #elif APPLICATION_MAX11410 // onButton2FallingEdge BUTTON2 demo configuration MAX11410BOB
whismanoid 0:3edb3708c8c5 2576 // TODO: demo
whismanoid 0:3edb3708c8c5 2577 g_MAX11410_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 2578 #elif APPLICATION_MAX12345 // onButton2FallingEdge BUTTON2 demo configuration MAX12345BOB
whismanoid 0:3edb3708c8c5 2579 // TODO: demo
whismanoid 0:3edb3708c8c5 2580 g_MAX12345_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 2581 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 2582 rgb_led.blue(); // diagnostic rbg led BLUE
whismanoid 0:3edb3708c8c5 2583
whismanoid 0:3edb3708c8c5 2584 }
whismanoid 0:3edb3708c8c5 2585 #endif // HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 2586
whismanoid 0:3edb3708c8c5 2587 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2588 // TODO1: use MaximTinyTester encapsulate SelfTest support functions
whismanoid 0:3edb3708c8c5 2589 //--------------------------------------------------
whismanoid 2:b3a8a0ca0a94 2590 #if APPLICATION_MAX5715 // SelfTest
whismanoid 2:b3a8a0ca0a94 2591 //
whismanoid 2:b3a8a0ca0a94 2592 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 2:b3a8a0ca0a94 2593 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 2:b3a8a0ca0a94 2594 //
whismanoid 2:b3a8a0ca0a94 2595 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2596 // uint8_t MAX5715::Init(void)
whismanoid 2:b3a8a0ca0a94 2597 // uint8_t (*fn_MAX5715_Init)() = [](){ return g_MAX5715_device.Init(); };
whismanoid 2:b3a8a0ca0a94 2598 uint8_t fn_MAX5715_Init() { return g_MAX5715_device.Init(); };
whismanoid 2:b3a8a0ca0a94 2599 //
whismanoid 2:b3a8a0ca0a94 2600 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2601 // uint16_t MAX5715::DACCodeOfVoltage(double voltageV)
whismanoid 2:b3a8a0ca0a94 2602 // uint16_t (*fn_MAX5715_DACCodeOfVoltage)(double) = [](double voltageV){ return g_MAX5715_device.DACCodeOfVoltage(voltageV); };
whismanoid 2:b3a8a0ca0a94 2603 uint16_t fn_MAX5715_DACCodeOfVoltage(double voltageV) { return g_MAX5715_device.DACCodeOfVoltage(voltageV); };
whismanoid 2:b3a8a0ca0a94 2604 //
whismanoid 2:b3a8a0ca0a94 2605 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2606 // double MAX5715::VoltageOfCode(uint16_t value_u14)
whismanoid 2:b3a8a0ca0a94 2607 //double (*fn_MAX5715_VoltageOfCode)(uint16_t) = [](uint16_t value_u14){ return g_MAX5715_device.VoltageOfCode(value_u14); };
whismanoid 2:b3a8a0ca0a94 2608 double fn_MAX5715_VoltageOfCode(uint16_t value_u14) { return g_MAX5715_device.VoltageOfCode(value_u14); };
whismanoid 2:b3a8a0ca0a94 2609 //
whismanoid 2:b3a8a0ca0a94 2610 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2611 // void MAX5715::CODEnLOADn(uint8_t channel_0_3, uint16_t dacCodeLsbs)
whismanoid 2:b3a8a0ca0a94 2612 // void (*fn_MAX5715_CODEnLOADn)(uint8_t channel_0_3, uint16_t dacCodeLsbs) = [](uint8_t channel_0_3, uint16_t dacCodeLsbs){ return g_MAX5715_device.CODEnLOADn(channel_0_3, dacCodeLsbs); };
whismanoid 2:b3a8a0ca0a94 2613 void fn_MAX5715_CODEnLOADn (uint8_t channel_0_3, uint16_t dacCodeLsbs) { return g_MAX5715_device.CODEnLOADn(channel_0_3, dacCodeLsbs); };
whismanoid 2:b3a8a0ca0a94 2614 //
whismanoid 2:b3a8a0ca0a94 2615 #endif // APPLICATION_MAX5715 // SelfTest
whismanoid 2:b3a8a0ca0a94 2616 //--------------------------------------------------
whismanoid 2:b3a8a0ca0a94 2617 #if APPLICATION_MAX11131 // SelfTest
whismanoid 2:b3a8a0ca0a94 2618 //
whismanoid 2:b3a8a0ca0a94 2619 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 2:b3a8a0ca0a94 2620 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 2:b3a8a0ca0a94 2621 //
whismanoid 2:b3a8a0ca0a94 2622 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2623 //
whismanoid 2:b3a8a0ca0a94 2624 #endif // APPLICATION_MAX11131 // SelfTest
whismanoid 2:b3a8a0ca0a94 2625 //--------------------------------------------------
whismanoid 2:b3a8a0ca0a94 2626 #if APPLICATION_MAX5171 // SelfTest
whismanoid 2:b3a8a0ca0a94 2627 //
whismanoid 2:b3a8a0ca0a94 2628 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 2:b3a8a0ca0a94 2629 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 2:b3a8a0ca0a94 2630 //
whismanoid 2:b3a8a0ca0a94 2631 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2632 // uint8_t MAX5171::Init(void)
whismanoid 2:b3a8a0ca0a94 2633 // uint8_t (*fn_MAX5171_Init)() = [](){ return g_MAX5171_device.Init(); };
whismanoid 2:b3a8a0ca0a94 2634 uint8_t fn_MAX5171_Init() { return g_MAX5171_device.Init(); };
whismanoid 2:b3a8a0ca0a94 2635 //
whismanoid 2:b3a8a0ca0a94 2636 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2637 // uint16_t MAX5171::DACCodeOfVoltage(double voltageV)
whismanoid 2:b3a8a0ca0a94 2638 // uint16_t (*fn_MAX5171_DACCodeOfVoltage)(double) = [](double voltageV){ return g_MAX5171_device.DACCodeOfVoltage(voltageV); };
whismanoid 2:b3a8a0ca0a94 2639 uint16_t fn_MAX5171_DACCodeOfVoltage(double voltageV) { return g_MAX5171_device.DACCodeOfVoltage(voltageV); };
whismanoid 2:b3a8a0ca0a94 2640 //
whismanoid 2:b3a8a0ca0a94 2641 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2642 // double MAX5171::VoltageOfCode(uint16_t value_u14)
whismanoid 2:b3a8a0ca0a94 2643 // double (*fn_MAX5171_VoltageOfCode)(uint16_t) = [](uint16_t value_u14){ return g_MAX5171_device.VoltageOfCode(value_u14); };
whismanoid 2:b3a8a0ca0a94 2644 double fn_MAX5171_VoltageOfCode(uint16_t value_u14) { return g_MAX5171_device.VoltageOfCode(value_u14); };
whismanoid 2:b3a8a0ca0a94 2645 //
whismanoid 2:b3a8a0ca0a94 2646 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2647 // uint8_t MAX5171::CODE_LOAD(uint16_t dacCodeLsbs)
whismanoid 2:b3a8a0ca0a94 2648 // uint8_t (*fn_MAX5171_CODE_LOAD)(uint16_t dacCodeLsbs) = [](uint16_t dacCodeLsbs){ return g_MAX5171_device.CODE_LOAD(dacCodeLsbs); };
whismanoid 2:b3a8a0ca0a94 2649 uint8_t fn_MAX5171_CODE_LOAD(uint16_t dacCodeLsbs) { return g_MAX5171_device.CODE_LOAD(dacCodeLsbs); };
whismanoid 2:b3a8a0ca0a94 2650 //
whismanoid 2:b3a8a0ca0a94 2651 //
whismanoid 2:b3a8a0ca0a94 2652 #endif // APPLICATION_MAX5171 // SelfTest
whismanoid 2:b3a8a0ca0a94 2653 //--------------------------------------------------
whismanoid 2:b3a8a0ca0a94 2654 #if APPLICATION_MAX11410 // SelfTest
whismanoid 2:b3a8a0ca0a94 2655 //
whismanoid 2:b3a8a0ca0a94 2656 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 2:b3a8a0ca0a94 2657 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 2:b3a8a0ca0a94 2658 //
whismanoid 2:b3a8a0ca0a94 2659 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2660 //
whismanoid 2:b3a8a0ca0a94 2661 #endif // APPLICATION_MAX11410 // SelfTest
whismanoid 2:b3a8a0ca0a94 2662 //--------------------------------------------------
whismanoid 2:b3a8a0ca0a94 2663 #if APPLICATION_MAX12345 // SelfTest
whismanoid 2:b3a8a0ca0a94 2664 //
whismanoid 2:b3a8a0ca0a94 2665 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 2:b3a8a0ca0a94 2666 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 2:b3a8a0ca0a94 2667 //
whismanoid 2:b3a8a0ca0a94 2668 // define function under test using C++11 lambda expression [](){}
whismanoid 2:b3a8a0ca0a94 2669 //
whismanoid 2:b3a8a0ca0a94 2670 #endif // APPLICATION_MAX12345 // SelfTest
whismanoid 2:b3a8a0ca0a94 2671 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2672 void SelfTest_print_DACCodeOfVoltage(CmdLine& cmdLine, double voltageV)
whismanoid 0:3edb3708c8c5 2673 {
whismanoid 0:3edb3708c8c5 2674 cmdLine.serial().printf("DACCodeOfVoltage(%6.4fV)", voltageV);
whismanoid 0:3edb3708c8c5 2675 // For 12-bit DAC, dtostrf width, precision = 6, 4 i.e. 0.0001
whismanoid 0:3edb3708c8c5 2676 // For 14-bit DAC, dtostrf width, precision = 7, 5 i.e. 0.00001
whismanoid 0:3edb3708c8c5 2677 //~ dtostrf(voltageV, 6, 4, strOutLineBuffer); // value, width, precision, char* buffer
whismanoid 0:3edb3708c8c5 2678 //~ cmdLine.serial().printf(strOutLineBuffer);
whismanoid 0:3edb3708c8c5 2679 //~ cmdLine.serial().printf("V)");
whismanoid 0:3edb3708c8c5 2680 }
whismanoid 0:3edb3708c8c5 2681 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2682 #if APPLICATION_MAX5171 // SelfTest
whismanoid 0:3edb3708c8c5 2683 void SelfTest_print_VoltageOfCode(CmdLine& cmdLine, uint16_t value_u14)
whismanoid 0:3edb3708c8c5 2684 {
whismanoid 0:3edb3708c8c5 2685 cmdLine.serial().printf("VoltageOfCode(%d)", value_u14);
whismanoid 0:3edb3708c8c5 2686 }
whismanoid 0:3edb3708c8c5 2687 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 2688 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2689 #if APPLICATION_MAX5715 // SelfTest
whismanoid 0:3edb3708c8c5 2690 void SelfTest_print_Vref(CmdLine & cmdLine)
whismanoid 0:3edb3708c8c5 2691 {
whismanoid 0:3edb3708c8c5 2692 cmdLine.serial().printf("VRef = %6.4fV LSB=%6.4fV", g_MAX5715_device.VRef, (g_MAX5715_device.VRef / 4095));
whismanoid 0:3edb3708c8c5 2693 //~ dtostrf(g_MAX5715_device.VRef, 6, 4, strOutLineBuffer); // value, width, precision, char* buffer
whismanoid 0:3edb3708c8c5 2694 //~ cmdLine.serial().printf(strOutLineBuffer);
whismanoid 0:3edb3708c8c5 2695 //~ cmdLine.serial().printf("V LSB=");
whismanoid 0:3edb3708c8c5 2696 // For 12-bit DAC, dtostrf width, precision = 6, 4 i.e. 0.0001
whismanoid 0:3edb3708c8c5 2697 // For 14-bit DAC, dtostrf width, precision = 7, 5 i.e. 0.00001
whismanoid 0:3edb3708c8c5 2698 //~ dtostrf( (g_MAX5715_device.VRef / 4095), 6, 4, strOutLineBuffer); // value, width, precision, char* buffer
whismanoid 0:3edb3708c8c5 2699 //~ cmdLine.serial().printf(strOutLineBuffer);
whismanoid 0:3edb3708c8c5 2700 //~ cmdLine.serial().printf("V");
whismanoid 0:3edb3708c8c5 2701 }
whismanoid 0:3edb3708c8c5 2702 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 2703 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2704 #if APPLICATION_MAX5171 // SelfTest
whismanoid 0:3edb3708c8c5 2705 void SelfTest_print_Vref(CmdLine & cmdLine)
whismanoid 0:3edb3708c8c5 2706 {
whismanoid 0:3edb3708c8c5 2707 cmdLine.serial().printf("VRef = %7.5fV LSB=%7.5fV", g_MAX5171_device.VRef, (g_MAX5171_device.VRef / 16383));
whismanoid 0:3edb3708c8c5 2708 // For 12-bit DAC, dtostrf width, precision = 6, 4 i.e. 0.0001
whismanoid 0:3edb3708c8c5 2709 // For 14-bit DAC, dtostrf width, precision = 7, 5 i.e. 0.00001
whismanoid 0:3edb3708c8c5 2710 }
whismanoid 0:3edb3708c8c5 2711 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 2712 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2713 #if HAS_SPI2_MAX541
whismanoid 0:3edb3708c8c5 2714 MAX541 max541(spi2_max541, spi2_max541_cs);
whismanoid 0:3edb3708c8c5 2715 #endif
whismanoid 0:3edb3708c8c5 2716 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2717 bool SelfTest_MAX541_Voltage(CmdLine & cmdLine, MAX541 &max541, double voltageV)
whismanoid 0:3edb3708c8c5 2718 {
whismanoid 0:3edb3708c8c5 2719 max541.Set_Voltage(voltageV);
whismanoid 0:3edb3708c8c5 2720 // cmdLine.serial().printf("\r\n Test Fixture: MAX541 set output to %1.3fV = code 0x%4.4x", max541.Get_Voltage(), max541.Get_Code());
whismanoid 0:3edb3708c8c5 2721 cmdLine.serial().printf("\r\n Test Fixture: MAX541 set output to 0x%4.4x = %1.3fV",
whismanoid 0:3edb3708c8c5 2722 max541.Get_Code(), max541.Get_Voltage());
whismanoid 0:3edb3708c8c5 2723 #if analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 2724 // Platform board uses AIN4,AIN5,.. as high range of AIN0,AIN1,..
whismanoid 8:6bdfb1376fed 2725 MaximTinyTester tinyTester(cmdLine, analogIn4, analogIn5, analogIn2, analogIn3, analogIn0, analogIn4, led1, led2, led3);
whismanoid 0:3edb3708c8c5 2726 tinyTester.analogInPin_fullScaleVoltage[0] = analogInPin_fullScaleVoltage[4]; // board support
whismanoid 0:3edb3708c8c5 2727 tinyTester.analogInPin_fullScaleVoltage[1] = analogInPin_fullScaleVoltage[5]; // board support
whismanoid 0:3edb3708c8c5 2728 tinyTester.analogInPin_fullScaleVoltage[2] = analogInPin_fullScaleVoltage[2]; // board support
whismanoid 0:3edb3708c8c5 2729 tinyTester.analogInPin_fullScaleVoltage[3] = analogInPin_fullScaleVoltage[3]; // board support
whismanoid 0:3edb3708c8c5 2730 tinyTester.analogInPin_fullScaleVoltage[4] = analogInPin_fullScaleVoltage[0]; // board support
whismanoid 0:3edb3708c8c5 2731 tinyTester.analogInPin_fullScaleVoltage[5] = analogInPin_fullScaleVoltage[1]; // board support
whismanoid 0:3edb3708c8c5 2732 // low range channels AIN0, AIN1, AIN2, AIN3
whismanoid 0:3edb3708c8c5 2733 #else // analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 2734 // Platform board uses simple analog inputs
whismanoid 8:6bdfb1376fed 2735 MaximTinyTester tinyTester(cmdLine, analogIn0, analogIn1, analogIn2, analogIn3, analogIn4, analogIn5, led1, led2, led3);
whismanoid 0:3edb3708c8c5 2736 tinyTester.analogInPin_fullScaleVoltage[0] = analogInPin_fullScaleVoltage[0]; // board support
whismanoid 0:3edb3708c8c5 2737 tinyTester.analogInPin_fullScaleVoltage[1] = analogInPin_fullScaleVoltage[1]; // board support
whismanoid 0:3edb3708c8c5 2738 tinyTester.analogInPin_fullScaleVoltage[2] = analogInPin_fullScaleVoltage[2]; // board support
whismanoid 0:3edb3708c8c5 2739 tinyTester.analogInPin_fullScaleVoltage[3] = analogInPin_fullScaleVoltage[3]; // board support
whismanoid 0:3edb3708c8c5 2740 tinyTester.analogInPin_fullScaleVoltage[4] = analogInPin_fullScaleVoltage[4]; // board support
whismanoid 0:3edb3708c8c5 2741 tinyTester.analogInPin_fullScaleVoltage[5] = analogInPin_fullScaleVoltage[5]; // board support
whismanoid 0:3edb3708c8c5 2742 #endif
whismanoid 5:82037e281451 2743 tinyTester.Wait_Output_Settling(); // wait for MAX541 to settle
whismanoid 0:3edb3708c8c5 2744 // TODO: tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 2745 tinyTester.err_threshold = 0.100;
whismanoid 0:3edb3708c8c5 2746 return tinyTester.AnalogIn0_Read_Expect_voltageV(voltageV);
whismanoid 0:3edb3708c8c5 2747 }
whismanoid 0:3edb3708c8c5 2748 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2749 void SelfTest(CmdLine & cmdLine)
whismanoid 0:3edb3708c8c5 2750 {
whismanoid 0:3edb3708c8c5 2751 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 2752 #if analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 2753 // Platform board uses AIN4,AIN5,.. as high range of AIN0,AIN1,..
whismanoid 8:6bdfb1376fed 2754 MaximTinyTester tinyTester(cmdLine, analogIn4, analogIn5, analogIn2, analogIn3, analogIn0, analogIn4, led1, led2, led3);
whismanoid 0:3edb3708c8c5 2755 tinyTester.analogInPin_fullScaleVoltage[0] = analogInPin_fullScaleVoltage[4]; // board support
whismanoid 0:3edb3708c8c5 2756 tinyTester.analogInPin_fullScaleVoltage[1] = analogInPin_fullScaleVoltage[5]; // board support
whismanoid 0:3edb3708c8c5 2757 tinyTester.analogInPin_fullScaleVoltage[2] = analogInPin_fullScaleVoltage[2]; // board support
whismanoid 0:3edb3708c8c5 2758 tinyTester.analogInPin_fullScaleVoltage[3] = analogInPin_fullScaleVoltage[3]; // board support
whismanoid 0:3edb3708c8c5 2759 tinyTester.analogInPin_fullScaleVoltage[4] = analogInPin_fullScaleVoltage[0]; // board support
whismanoid 0:3edb3708c8c5 2760 tinyTester.analogInPin_fullScaleVoltage[5] = analogInPin_fullScaleVoltage[1]; // board support
whismanoid 0:3edb3708c8c5 2761 // low range channels AIN0, AIN1, AIN2, AIN3
whismanoid 0:3edb3708c8c5 2762 #else // analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 2763 // Platform board uses simple analog inputs
whismanoid 8:6bdfb1376fed 2764 MaximTinyTester tinyTester(cmdLine, analogIn0, analogIn1, analogIn2, analogIn3, analogIn4, analogIn5, led1, led2, led3);
whismanoid 0:3edb3708c8c5 2765 tinyTester.analogInPin_fullScaleVoltage[0] = analogInPin_fullScaleVoltage[0]; // board support
whismanoid 0:3edb3708c8c5 2766 tinyTester.analogInPin_fullScaleVoltage[1] = analogInPin_fullScaleVoltage[1]; // board support
whismanoid 0:3edb3708c8c5 2767 tinyTester.analogInPin_fullScaleVoltage[2] = analogInPin_fullScaleVoltage[2]; // board support
whismanoid 0:3edb3708c8c5 2768 tinyTester.analogInPin_fullScaleVoltage[3] = analogInPin_fullScaleVoltage[3]; // board support
whismanoid 0:3edb3708c8c5 2769 tinyTester.analogInPin_fullScaleVoltage[4] = analogInPin_fullScaleVoltage[4]; // board support
whismanoid 0:3edb3708c8c5 2770 tinyTester.analogInPin_fullScaleVoltage[5] = analogInPin_fullScaleVoltage[5]; // board support
whismanoid 0:3edb3708c8c5 2771 #endif
whismanoid 8:6bdfb1376fed 2772 tinyTester.clear();
whismanoid 0:3edb3708c8c5 2773 #if APPLICATION_MAX5715 // SelfTest
whismanoid 0:3edb3708c8c5 2774 //
whismanoid 5:82037e281451 2775 // tinyTester.FunctionCall_Expect replaces SelfTest_DACCodeOfVoltage_Expect
whismanoid 0:3edb3708c8c5 2776 //
whismanoid 1:40369075c365 2777 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 1:40369075c365 2778 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 0:3edb3708c8c5 2779 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 2780 // uint8_t MAX5715::Init(void)
whismanoid 2:b3a8a0ca0a94 2781 //uint8_t (*fn_MAX5715_Init)() = [](){ return g_MAX5715_device.Init(); };
whismanoid 0:3edb3708c8c5 2782 //
whismanoid 0:3edb3708c8c5 2783 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 2784 // uint16_t MAX5715::DACCodeOfVoltage(double voltageV)
whismanoid 2:b3a8a0ca0a94 2785 //uint16_t (*fn_MAX5715_DACCodeOfVoltage)(double) = [](double voltageV){ return g_MAX5715_device.DACCodeOfVoltage(voltageV); };
whismanoid 0:3edb3708c8c5 2786 //
whismanoid 0:3edb3708c8c5 2787 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 2788 // double MAX5715::VoltageOfCode(uint16_t value_u14)
whismanoid 2:b3a8a0ca0a94 2789 //double (*fn_MAX5715_VoltageOfCode)(uint16_t) = [](uint16_t value_u14){ return g_MAX5715_device.VoltageOfCode(value_u14); };
whismanoid 0:3edb3708c8c5 2790 //
whismanoid 0:3edb3708c8c5 2791 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 2792 // void MAX5715::CODEnLOADn(uint8_t channel_0_3, uint16_t dacCodeLsbs)
whismanoid 2:b3a8a0ca0a94 2793 //void (*fn_MAX5715_CODEnLOADn)(uint8_t channel_0_3, uint16_t dacCodeLsbs) = [](uint8_t channel_0_3, uint16_t dacCodeLsbs){ return g_MAX5715_device.CODEnLOADn(channel_0_3, dacCodeLsbs); };
whismanoid 0:3edb3708c8c5 2794 //
whismanoid 0:3edb3708c8c5 2795 //
whismanoid 0:3edb3708c8c5 2796 //
whismanoid 0:3edb3708c8c5 2797 //
whismanoid 0:3edb3708c8c5 2798 //
whismanoid 0:3edb3708c8c5 2799 //------------------------------------------------------------
whismanoid 0:3edb3708c8c5 2800 g_MAX5715_device.VRef = 4.096; // MAX5715 12-bit LSB = 0.0010V
whismanoid 0:3edb3708c8c5 2801 SelfTest_print_Vref(cmdLine);
whismanoid 0:3edb3708c8c5 2802 //~ cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 2803 //
whismanoid 0:3edb3708c8c5 2804 // tinyTester.FunctionCall_Expect replaces SelfTest_DACCodeOfVoltage_Expect
whismanoid 0:3edb3708c8c5 2805 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 10.0, 0x0FFF); // overrange FS
whismanoid 0:3edb3708c8c5 2806 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0950, 0x0FFF);
whismanoid 0:3edb3708c8c5 2807 //
whismanoid 0:3edb3708c8c5 2808 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0945, 0x0FFF);
whismanoid 0:3edb3708c8c5 2809 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0944, 0x0FFE);
whismanoid 0:3edb3708c8c5 2810 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0943, 0x0FFE);
whismanoid 0:3edb3708c8c5 2811 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0942, 0x0FFE);
whismanoid 0:3edb3708c8c5 2812 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0941, 0x0FFE);
whismanoid 0:3edb3708c8c5 2813 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0940, 0x0FFE); // search for code transition
whismanoid 0:3edb3708c8c5 2814 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0939, 0x0FFE);
whismanoid 0:3edb3708c8c5 2815 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0938, 0x0FFE);
whismanoid 0:3edb3708c8c5 2816 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0937, 0x0FFE);
whismanoid 0:3edb3708c8c5 2817 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0936, 0x0FFE);
whismanoid 0:3edb3708c8c5 2818 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0935, 0x0FFD);
whismanoid 0:3edb3708c8c5 2819 //
whismanoid 0:3edb3708c8c5 2820 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 4.0930, 0x0FFD);
whismanoid 0:3edb3708c8c5 2821 //
whismanoid 0:3edb3708c8c5 2822 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0480, 0x0800);
whismanoid 0:3edb3708c8c5 2823 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0470, 0x07FF);
whismanoid 0:3edb3708c8c5 2824 //
whismanoid 0:3edb3708c8c5 2825 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.0000, 0x03E8); // 1.0 volt
whismanoid 0:3edb3708c8c5 2826 //
whismanoid 0:3edb3708c8c5 2827 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0030, 0x0003);
whismanoid 0:3edb3708c8c5 2828 //
whismanoid 0:3edb3708c8c5 2829 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0020, 0x0002);
whismanoid 0:3edb3708c8c5 2830 //
whismanoid 0:3edb3708c8c5 2831 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0010, 0x0001);
whismanoid 0:3edb3708c8c5 2832 //
whismanoid 0:3edb3708c8c5 2833 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0000, 0x0000);
whismanoid 0:3edb3708c8c5 2834 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -0.0001, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2835 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -0.0002, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2836 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -1.0, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2837 //
whismanoid 0:3edb3708c8c5 2838 // tinyTester.FunctionCall_Expect replaces SelfTest_VoltageOfCode_Expect
whismanoid 0:3edb3708c8c5 2839 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFF, 4.0950);
whismanoid 0:3edb3708c8c5 2840 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFE, 4.0940);
whismanoid 0:3edb3708c8c5 2841 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0800, 2.0480);
whismanoid 0:3edb3708c8c5 2842 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x07FF, 2.0470);
whismanoid 0:3edb3708c8c5 2843 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x03E8, 1.0000); // 1.0 volt
whismanoid 0:3edb3708c8c5 2844 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0001, 0.0010);
whismanoid 0:3edb3708c8c5 2845 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0000, 0.0000);
whismanoid 0:3edb3708c8c5 2846 //
whismanoid 0:3edb3708c8c5 2847 //------------------------------------------------------------
whismanoid 0:3edb3708c8c5 2848 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 2849 g_MAX5715_device.VRef = 2.048; // 12-bit LSB = 0.0005V
whismanoid 0:3edb3708c8c5 2850 SelfTest_print_Vref(cmdLine);
whismanoid 0:3edb3708c8c5 2851 //~ cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 2852 // tinyTester.FunctionCall_Expect replaces SelfTest_DACCodeOfVoltage_Expect
whismanoid 0:3edb3708c8c5 2853 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 10.0, 0x0FFF); // overrange FS
whismanoid 0:3edb3708c8c5 2854 //
whismanoid 0:3edb3708c8c5 2855 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0480, 0x0FFF);
whismanoid 0:3edb3708c8c5 2856 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0479, 0x0FFF);
whismanoid 0:3edb3708c8c5 2857 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0478, 0x0FFF);
whismanoid 0:3edb3708c8c5 2858 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0477, 0x0FFF);
whismanoid 0:3edb3708c8c5 2859 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0476, 0x0FFF);
whismanoid 0:3edb3708c8c5 2860 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0475, 0x0FFF);
whismanoid 0:3edb3708c8c5 2861 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0474, 0x0FFF);
whismanoid 0:3edb3708c8c5 2862 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0473, 0x0FFF);
whismanoid 0:3edb3708c8c5 2863 //
whismanoid 0:3edb3708c8c5 2864 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0472, 0x0FFE);
whismanoid 0:3edb3708c8c5 2865 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0471, 0x0FFE);
whismanoid 0:3edb3708c8c5 2866 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0470, 0x0FFE);
whismanoid 0:3edb3708c8c5 2867 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0469, 0x0FFE);
whismanoid 0:3edb3708c8c5 2868 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0468, 0x0FFE);
whismanoid 0:3edb3708c8c5 2869 //
whismanoid 0:3edb3708c8c5 2870 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0467, 0x0FFD);
whismanoid 0:3edb3708c8c5 2871 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0466, 0x0FFD);
whismanoid 0:3edb3708c8c5 2872 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0465, 0x0FFD);
whismanoid 0:3edb3708c8c5 2873 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0464, 0x0FFD);
whismanoid 0:3edb3708c8c5 2874 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.0463, 0x0FFD);
whismanoid 0:3edb3708c8c5 2875 //
whismanoid 0:3edb3708c8c5 2876 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.0240, 0x0800);
whismanoid 0:3edb3708c8c5 2877 //
whismanoid 0:3edb3708c8c5 2878 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.0235, 0x07FF);
whismanoid 0:3edb3708c8c5 2879 //
whismanoid 0:3edb3708c8c5 2880 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.0000, 0x07D0); // 1.0 volt
whismanoid 0:3edb3708c8c5 2881 //
whismanoid 0:3edb3708c8c5 2882 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0017, 0x0003);
whismanoid 0:3edb3708c8c5 2883 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0016, 0x0003);
whismanoid 0:3edb3708c8c5 2884 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0015, 0x0003);
whismanoid 0:3edb3708c8c5 2885 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0014, 0x0003);
whismanoid 0:3edb3708c8c5 2886 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0013, 0x0003);
whismanoid 0:3edb3708c8c5 2887 //
whismanoid 0:3edb3708c8c5 2888 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0012, 0x0002);
whismanoid 0:3edb3708c8c5 2889 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0011, 0x0002);
whismanoid 0:3edb3708c8c5 2890 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0010, 0x0002);
whismanoid 0:3edb3708c8c5 2891 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0009, 0x0002);
whismanoid 0:3edb3708c8c5 2892 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0008, 0x0002);
whismanoid 0:3edb3708c8c5 2893 //
whismanoid 0:3edb3708c8c5 2894 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0007, 0x0001);
whismanoid 0:3edb3708c8c5 2895 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0006, 0x0001);
whismanoid 0:3edb3708c8c5 2896 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0005, 0x0001);
whismanoid 0:3edb3708c8c5 2897 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0004, 0x0001);
whismanoid 0:3edb3708c8c5 2898 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0003, 0x0001);
whismanoid 0:3edb3708c8c5 2899 //
whismanoid 0:3edb3708c8c5 2900 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0002, 0x0000);
whismanoid 0:3edb3708c8c5 2901 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0001, 0x0000);
whismanoid 0:3edb3708c8c5 2902 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0000, 0x0000);
whismanoid 0:3edb3708c8c5 2903 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -0.0001, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2904 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -0.0002, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2905 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -1.0, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2906 // tinyTester.FunctionCall_Expect replaces SelfTest_VoltageOfCode_Expect
whismanoid 0:3edb3708c8c5 2907 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFF, 2.0475);
whismanoid 0:3edb3708c8c5 2908 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFE, 2.0470);
whismanoid 0:3edb3708c8c5 2909 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFD, 2.0465);
whismanoid 0:3edb3708c8c5 2910 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0800, 1.0240);
whismanoid 0:3edb3708c8c5 2911 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x07FF, 1.0235);
whismanoid 0:3edb3708c8c5 2912 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x07D0, 1.0000); // 1.0 volt
whismanoid 0:3edb3708c8c5 2913 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0002, 0.0010);
whismanoid 0:3edb3708c8c5 2914 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0001, 0.0005);
whismanoid 0:3edb3708c8c5 2915 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0000, 0.0000);
whismanoid 0:3edb3708c8c5 2916 //
whismanoid 0:3edb3708c8c5 2917 //
whismanoid 0:3edb3708c8c5 2918 //------------------------------------------------------------
whismanoid 0:3edb3708c8c5 2919 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 2920 g_MAX5715_device.VRef = 2.500; // 12-bit LSB = 0.0006105006105006105V
whismanoid 0:3edb3708c8c5 2921 SelfTest_print_Vref(cmdLine);
whismanoid 0:3edb3708c8c5 2922 //~ cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 2923 // tinyTester.FunctionCall_Expect replaces SelfTest_DACCodeOfVoltage_Expect
whismanoid 0:3edb3708c8c5 2924 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 10.0, 0x0FFF); // overrange FS
whismanoid 0:3edb3708c8c5 2925 //
whismanoid 0:3edb3708c8c5 2926 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.5000, 0x0FFF);
whismanoid 0:3edb3708c8c5 2927 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4999, 0x0FFF);
whismanoid 0:3edb3708c8c5 2928 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4998, 0x0FFF);
whismanoid 0:3edb3708c8c5 2929 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4997, 0x0FFF);
whismanoid 0:3edb3708c8c5 2930 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4996, 0x0FFF);
whismanoid 0:3edb3708c8c5 2931 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4995, 0x0FFF);
whismanoid 0:3edb3708c8c5 2932 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4994, 0x0FFF);
whismanoid 0:3edb3708c8c5 2933 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4993, 0x0FFF);
whismanoid 0:3edb3708c8c5 2934 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4992, 0x0FFF);
whismanoid 0:3edb3708c8c5 2935 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4991, 0x0FFF);
whismanoid 0:3edb3708c8c5 2936 //
whismanoid 0:3edb3708c8c5 2937 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4990, 0x0FFE); // search for code transitions
whismanoid 0:3edb3708c8c5 2938 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4989, 0x0FFE);
whismanoid 0:3edb3708c8c5 2939 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4988, 0x0FFE);
whismanoid 0:3edb3708c8c5 2940 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4987, 0x0FFE);
whismanoid 0:3edb3708c8c5 2941 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4986, 0x0FFE);
whismanoid 0:3edb3708c8c5 2942 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4985, 0x0FFE);
whismanoid 0:3edb3708c8c5 2943 //
whismanoid 0:3edb3708c8c5 2944 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4984, 0x0FFD);
whismanoid 0:3edb3708c8c5 2945 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4983, 0x0FFD);
whismanoid 0:3edb3708c8c5 2946 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4982, 0x0FFD);
whismanoid 0:3edb3708c8c5 2947 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4981, 0x0FFD);
whismanoid 0:3edb3708c8c5 2948 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4980, 0x0FFD);
whismanoid 0:3edb3708c8c5 2949 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4979, 0x0FFD);
whismanoid 0:3edb3708c8c5 2950 //
whismanoid 0:3edb3708c8c5 2951 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4978, 0x0FFC);
whismanoid 0:3edb3708c8c5 2952 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4977, 0x0FFC);
whismanoid 0:3edb3708c8c5 2953 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4976, 0x0FFC);
whismanoid 0:3edb3708c8c5 2954 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4975, 0x0FFC);
whismanoid 0:3edb3708c8c5 2955 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4974, 0x0FFC);
whismanoid 0:3edb3708c8c5 2956 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4973, 0x0FFC);
whismanoid 0:3edb3708c8c5 2957 //
whismanoid 0:3edb3708c8c5 2958 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4972, 0x0FFB);
whismanoid 0:3edb3708c8c5 2959 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4971, 0x0FFB);
whismanoid 0:3edb3708c8c5 2960 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 2.4970, 0x0FFB);
whismanoid 0:3edb3708c8c5 2961 //
whismanoid 0:3edb3708c8c5 2962 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.2500, 0x0800);
whismanoid 0:3edb3708c8c5 2963 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.2494, 0x07FF);
whismanoid 0:3edb3708c8c5 2964 //
whismanoid 0:3edb3708c8c5 2965 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 1.0000, 0x0666); // 1.0 volt
whismanoid 0:3edb3708c8c5 2966 //
whismanoid 0:3edb3708c8c5 2967 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0019, 0x0003); // search for code transitions
whismanoid 0:3edb3708c8c5 2968 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0018, 0x0003);
whismanoid 0:3edb3708c8c5 2969 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0017, 0x0003);
whismanoid 0:3edb3708c8c5 2970 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0016, 0x0003);
whismanoid 0:3edb3708c8c5 2971 //
whismanoid 0:3edb3708c8c5 2972 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0015, 0x0002);
whismanoid 0:3edb3708c8c5 2973 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0014, 0x0002);
whismanoid 0:3edb3708c8c5 2974 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0013, 0x0002);
whismanoid 0:3edb3708c8c5 2975 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0012, 0x0002);
whismanoid 0:3edb3708c8c5 2976 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0011, 0x0002);
whismanoid 0:3edb3708c8c5 2977 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0010, 0x0002);
whismanoid 0:3edb3708c8c5 2978 //
whismanoid 0:3edb3708c8c5 2979 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0009, 0x0001);
whismanoid 0:3edb3708c8c5 2980 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0008, 0x0001);
whismanoid 0:3edb3708c8c5 2981 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0007, 0x0001);
whismanoid 0:3edb3708c8c5 2982 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0006, 0x0001);
whismanoid 0:3edb3708c8c5 2983 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0005, 0x0001);
whismanoid 0:3edb3708c8c5 2984 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0004, 0x0001);
whismanoid 0:3edb3708c8c5 2985 //
whismanoid 0:3edb3708c8c5 2986 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0003, 0x0000);
whismanoid 0:3edb3708c8c5 2987 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0002, 0x0000);
whismanoid 0:3edb3708c8c5 2988 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0001, 0x0000);
whismanoid 0:3edb3708c8c5 2989 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, 0.0000, 0x0000);
whismanoid 0:3edb3708c8c5 2990 //
whismanoid 0:3edb3708c8c5 2991 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -0.0001, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2992 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -0.0002, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2993 tinyTester.FunctionCall_Expect("MAX5715.DACCodeOfVoltage", fn_MAX5715_DACCodeOfVoltage, -1.0, 0x0000); // overrange ZS
whismanoid 0:3edb3708c8c5 2994 // tinyTester.FunctionCall_Expect replaces SelfTest_VoltageOfCode_Expect
whismanoid 0:3edb3708c8c5 2995 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFF, 2.5000);
whismanoid 0:3edb3708c8c5 2996 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFE, 2.4988);
whismanoid 0:3edb3708c8c5 2997 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0FFD, 2.4976);
whismanoid 0:3edb3708c8c5 2998 //
whismanoid 0:3edb3708c8c5 2999 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0800, 1.2500);
whismanoid 0:3edb3708c8c5 3000 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x07FF, 1.2494);
whismanoid 0:3edb3708c8c5 3001 //
whismanoid 0:3edb3708c8c5 3002 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0667, 1.0000); // 1.0 volt
whismanoid 0:3edb3708c8c5 3003 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0666, 1.0000); // 1.0 volt
whismanoid 0:3edb3708c8c5 3004 //
whismanoid 0:3edb3708c8c5 3005 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0002, 0.0012);
whismanoid 0:3edb3708c8c5 3006 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0001, 0.0006);
whismanoid 0:3edb3708c8c5 3007 tinyTester.FunctionCall_Expect("MAX5715.VoltageOfCode", fn_MAX5715_VoltageOfCode, 0x0000, 0.0000);
whismanoid 0:3edb3708c8c5 3008 //
whismanoid 0:3edb3708c8c5 3009 //
whismanoid 0:3edb3708c8c5 3010 // Device Testing: DAC commands, verify using on-board ADC inputs
whismanoid 0:3edb3708c8c5 3011 //
whismanoid 0:3edb3708c8c5 3012 cmdLine.serial().printf("\r\n MAX5715.Init()");
whismanoid 0:3edb3708c8c5 3013 g_MAX5715_device.Init();
whismanoid 0:3edb3708c8c5 3014 //
whismanoid 0:3edb3708c8c5 3015 uint16_t ch = 0;
whismanoid 0:3edb3708c8c5 3016 uint16_t code = 0xfff;
whismanoid 0:3edb3708c8c5 3017 double voltageV = 0.5;
whismanoid 0:3edb3708c8c5 3018 //
whismanoid 0:3edb3708c8c5 3019 // full-scale output on ch0, test MAX5715 internal REF options
whismanoid 0:3edb3708c8c5 3020 ch = 0;
whismanoid 0:3edb3708c8c5 3021 cmdLine.serial().printf("\r\n MAX5715.CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 3022 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 3023 //
whismanoid 0:3edb3708c8c5 3024 cmdLine.serial().printf("\r\n MAX5715.REF(MAX5715::REF_AlwaysOn_2V048)");
whismanoid 0:3edb3708c8c5 3025 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_2V048);
whismanoid 5:82037e281451 3026 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3027 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3028 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3029 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3030 tinyTester.AnalogIn0_Read_Expect_voltageV(2.048);
whismanoid 0:3edb3708c8c5 3031 //
whismanoid 0:3edb3708c8c5 3032 cmdLine.serial().printf("\r\n MAX5715.REF(MAX5715::REF_AlwaysOn_4V096)");
whismanoid 0:3edb3708c8c5 3033 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_4V096);
whismanoid 0:3edb3708c8c5 3034 // MAX32625MBED 4.096V may be as low as 3.3V supply
whismanoid 5:82037e281451 3035 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3036 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3037 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3038 tinyTester.err_threshold = 0.50; // 30mV
whismanoid 0:3edb3708c8c5 3039 tinyTester.AnalogIn0_Read_Expect_voltageV(3.750); // accept 3.25V to 4.25V
whismanoid 0:3edb3708c8c5 3040 //
whismanoid 0:3edb3708c8c5 3041 cmdLine.serial().printf("\r\n MAX5715.REF(MAX5715::REF_AlwaysOn_2V500)");
whismanoid 0:3edb3708c8c5 3042 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_2V500);
whismanoid 5:82037e281451 3043 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3044 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3045 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3046 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3047 tinyTester.AnalogIn0_Read_Expect_voltageV(2.500);
whismanoid 0:3edb3708c8c5 3048 //
whismanoid 0:3edb3708c8c5 3049 // test the individual channel outputs
whismanoid 0:3edb3708c8c5 3050 ch = 0;
whismanoid 0:3edb3708c8c5 3051 voltageV = 0.5;
whismanoid 0:3edb3708c8c5 3052 code = g_MAX5715_device.DACCodeOfVoltage(voltageV);
whismanoid 0:3edb3708c8c5 3053 cmdLine.serial().printf("\r\n MAX5715.CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 3054 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 5:82037e281451 3055 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3056 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3057 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3058 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3059 tinyTester.AnalogIn0_Read_Expect_voltageV(voltageV);
whismanoid 0:3edb3708c8c5 3060 //
whismanoid 0:3edb3708c8c5 3061 ch = 1;
whismanoid 0:3edb3708c8c5 3062 voltageV = 0.2;
whismanoid 0:3edb3708c8c5 3063 code = g_MAX5715_device.DACCodeOfVoltage(voltageV);
whismanoid 0:3edb3708c8c5 3064 cmdLine.serial().printf("\r\n MAX5715.CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 3065 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 5:82037e281451 3066 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3067 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3068 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3069 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3070 tinyTester.AnalogIn1_Read_Expect_voltageV(voltageV);
whismanoid 0:3edb3708c8c5 3071 //
whismanoid 0:3edb3708c8c5 3072 ch = 2;
whismanoid 0:3edb3708c8c5 3073 voltageV = 0.4;
whismanoid 0:3edb3708c8c5 3074 code = g_MAX5715_device.DACCodeOfVoltage(voltageV);
whismanoid 0:3edb3708c8c5 3075 cmdLine.serial().printf("\r\n MAX5715.CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 3076 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 5:82037e281451 3077 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3078 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3079 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3080 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3081 tinyTester.AnalogIn2_Read_Expect_voltageV(voltageV);
whismanoid 0:3edb3708c8c5 3082 //
whismanoid 0:3edb3708c8c5 3083 ch = 3;
whismanoid 0:3edb3708c8c5 3084 voltageV = 0.25;
whismanoid 0:3edb3708c8c5 3085 code = g_MAX5715_device.DACCodeOfVoltage(voltageV);
whismanoid 0:3edb3708c8c5 3086 cmdLine.serial().printf("\r\n MAX5715.CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 3087 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 5:82037e281451 3088 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3089 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3090 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3091 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3092 tinyTester.AnalogIn3_Read_Expect_voltageV(voltageV);
whismanoid 0:3edb3708c8c5 3093 //
whismanoid 0:3edb3708c8c5 3094 // test that the channels are independent
whismanoid 0:3edb3708c8c5 3095 tinyTester.AnalogIn0_Read_Expect_voltageV(g_MAX5715_device.VoltageOfCode(g_MAX5715_device.CODE[0]));
whismanoid 0:3edb3708c8c5 3096 tinyTester.AnalogIn1_Read_Expect_voltageV(g_MAX5715_device.VoltageOfCode(g_MAX5715_device.CODE[1]));
whismanoid 0:3edb3708c8c5 3097 tinyTester.AnalogIn2_Read_Expect_voltageV(g_MAX5715_device.VoltageOfCode(g_MAX5715_device.CODE[2]));
whismanoid 0:3edb3708c8c5 3098 tinyTester.AnalogIn3_Read_Expect_voltageV(g_MAX5715_device.VoltageOfCode(g_MAX5715_device.CODE[3]));
whismanoid 0:3edb3708c8c5 3099 //
whismanoid 0:3edb3708c8c5 3100 #elif APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 3101 //
whismanoid 0:3edb3708c8c5 3102 // MAX11131BOB self-test functions
whismanoid 0:3edb3708c8c5 3103 //~ SelfTest_FAIL(cmdLine);
whismanoid 0:3edb3708c8c5 3104 //~ cmdLine.serial().printf("test program not implemented yet");
whismanoid 0:3edb3708c8c5 3105 int16_t value_u12;
whismanoid 0:3edb3708c8c5 3106 int channelId;
whismanoid 0:3edb3708c8c5 3107 double voltageV = 0.5;
whismanoid 0:3edb3708c8c5 3108 //
whismanoid 0:3edb3708c8c5 3109 //cmdLine.serial().printf("\r\n 0.0: MAX11131.Init()");
whismanoid 0:3edb3708c8c5 3110 //g_MAX11131_device.Init();
whismanoid 0:3edb3708c8c5 3111 //
whismanoid 0:3edb3708c8c5 3112 // Device Testing: ADC commands, verify with on-board ADC and SPI framing
whismanoid 0:3edb3708c8c5 3113 //
whismanoid 0:3edb3708c8c5 3114 // MAX11131 SelfTest: MAX11131 SPI connections (Power Supply and GND, SCLK, MOSI, MISO, CS)
whismanoid 0:3edb3708c8c5 3115 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 3116 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 3117 "\r\n 1.0: Test SCAN_0100_StandardExt -- verify SPI (VDD, GND, SCLK, MOSI, MISO, CS)");
whismanoid 0:3edb3708c8c5 3118 cmdLine.serial().printf("\r\n MAX11131.Init()");
whismanoid 0:3edb3708c8c5 3119 g_MAX11131_device.Init();
whismanoid 0:3edb3708c8c5 3120 // Send MOSI data Expect MISO data Description
whismanoid 0:3edb3708c8c5 3121 // 1000_0000_0000_0000 xxxx_xxxx_xxxx_xxxx ADC_CONFIGURATION REFSEL=0 SPM[1:0]=0 ECHO=0
whismanoid 0:3edb3708c8c5 3122 // 0010_0111_1010_0100 xxxx_xxxx_xxxx_xxxx ADC_MODE_CONTROL SCAN_0100_StandardExt CHSEL=15 RESET=1 CHANID=1
whismanoid 0:3edb3708c8c5 3123 // 0000_0000_0000_0000 0000_xxxx_xxxx_xxxx Channel ID tag = AIN0 expect high nybble 0
whismanoid 0:3edb3708c8c5 3124 // 0000_0000_0000_0000 0001_xxxx_xxxx_xxxx Channel ID tag = AIN1 expect high nybble 1
whismanoid 0:3edb3708c8c5 3125 // 0000_0000_0000_0000 0010_xxxx_xxxx_xxxx Channel ID tag = AIN2 expect high nybble 2
whismanoid 0:3edb3708c8c5 3126 // 0000_0000_0000_0000 0011_xxxx_xxxx_xxxx Channel ID tag = AIN3 expect high nybble 3
whismanoid 0:3edb3708c8c5 3127 //
whismanoid 0:3edb3708c8c5 3128 cmdLine.serial().printf("\r\n MOSI <-- 1000_0000_0000_0000 ADC_CONFIGURATION REFSEL=0 SPM[1:0]=0 ECHO=0");
whismanoid 0:3edb3708c8c5 3129 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3130 g_MAX11131_device.SPIwrite16bits(0x8000);
whismanoid 0:3edb3708c8c5 3131 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 0:3edb3708c8c5 3132 //
whismanoid 0:3edb3708c8c5 3133 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 3134 "\r\n MOSI <-- 0010_0111_1010_0100 ADC_MODE_CONTROL SCAN_0100_StandardExt CHSEL=15 RESET=1 CHANID=1");
whismanoid 0:3edb3708c8c5 3135 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3136 g_MAX11131_device.SPIwrite16bits(0x27a4);
whismanoid 0:3edb3708c8c5 3137 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 0:3edb3708c8c5 3138 //
whismanoid 0:3edb3708c8c5 3139 for (int channelIndex = 0; channelIndex < 16; channelIndex++) {
whismanoid 0:3edb3708c8c5 3140 //~ cmdLine.serial().printf("\r\n MISO --> expect 0000_xxxx_xxxx_xxxx");
whismanoid 0:3edb3708c8c5 3141 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3142 g_MAX11131_device.RAW_misoData16[channelIndex] = g_MAX11131_device.SPIread16bits();
whismanoid 0:3edb3708c8c5 3143 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 0:3edb3708c8c5 3144 int expect_channelId = channelIndex;
whismanoid 0:3edb3708c8c5 3145 int actual_channelId = (g_MAX11131_device.RAW_misoData16[channelIndex] >> 12) & 0x000F;
whismanoid 0:3edb3708c8c5 3146 if (actual_channelId != expect_channelId)
whismanoid 0:3edb3708c8c5 3147 {
whismanoid 3:8913cb4a8b9f 3148 tinyTester.FAIL();
whismanoid 0:3edb3708c8c5 3149 cmdLine.serial().printf("MISO --> 0x%4.4x", (g_MAX11131_device.RAW_misoData16[channelIndex] & 0xFFFF));
whismanoid 0:3edb3708c8c5 3150 cmdLine.serial().printf(" expect 0x%1.1xxxx (channel ID %d)", expect_channelId, expect_channelId);
whismanoid 0:3edb3708c8c5 3151 cmdLine.serial().printf(" but got 0x%1.1xxxx", actual_channelId);
whismanoid 0:3edb3708c8c5 3152 }
whismanoid 0:3edb3708c8c5 3153 else
whismanoid 0:3edb3708c8c5 3154 {
whismanoid 3:8913cb4a8b9f 3155 tinyTester.PASS();
whismanoid 0:3edb3708c8c5 3156 cmdLine.serial().printf("MISO --> 0x%4.4x", (g_MAX11131_device.RAW_misoData16[channelIndex] & 0xFFFF));
whismanoid 0:3edb3708c8c5 3157 cmdLine.serial().printf(" expect 0x%1.1xxxx (channel ID %d)", expect_channelId, expect_channelId);
whismanoid 0:3edb3708c8c5 3158 }
whismanoid 0:3edb3708c8c5 3159 }
whismanoid 0:3edb3708c8c5 3160 //
whismanoid 5:82037e281451 3161 // MAX11131 SelfTest: MAX11131 Supports Internal Clock Modes (CNVST, EOC)
whismanoid 0:3edb3708c8c5 3162 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 3163 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 3164 "\r\n 1.1: Test SCAN_0011_StandardInt -- verify Internal Clock signals (CNVST, EOC)");
whismanoid 0:3edb3708c8c5 3165 cmdLine.serial().printf("\r\n MAX11131.Init()");
whismanoid 0:3edb3708c8c5 3166 g_MAX11131_device.Init();
whismanoid 0:3edb3708c8c5 3167 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3168 g_MAX11131_device.RAW_misoData16[0] = g_MAX11131_device.SPIread16bits();
whismanoid 0:3edb3708c8c5 3169 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 3:8913cb4a8b9f 3170 //
whismanoid 5:82037e281451 3171 // tinyTester.DigitalIn_Read_Expect_WarnOnly replaces SelfTest_MAX11131_EOC_expect
whismanoid 3:8913cb4a8b9f 3172 tinyTester.DigitalIn_Read_Expect_WarnOnly(EOCb_pin, "EOC", 1, "initial value before sending commands");
whismanoid 3:8913cb4a8b9f 3173 //
whismanoid 0:3edb3708c8c5 3174 // Send MOSI data Expect MISO data Description
whismanoid 0:3edb3708c8c5 3175 // 1000_0000_0000_0000 xxxx_xxxx_xxxx_xxxx ADC_CONFIGURATION REFSEL=0 SPM[1:0]=0 ECHO=0 No Averaging
whismanoid 0:3edb3708c8c5 3176 // 0001_1001_1010_0000 xxxx_xxxx_xxxx_xxxx ADC_MODE_CONTROL SCAN_0011_StandardInt CHSEL=3 RESET=1 SWCNV=0
whismanoid 0:3edb3708c8c5 3177 // 0000_0000_0000_0000 0000_xxxx_xxxx_xxxx Channel ID tag = AIN0 expect high nybble 0
whismanoid 0:3edb3708c8c5 3178 // 0000_0000_0000_0000 0001_xxxx_xxxx_xxxx Channel ID tag = AIN1 expect high nybble 1
whismanoid 0:3edb3708c8c5 3179 // 0000_0000_0000_0000 0010_xxxx_xxxx_xxxx Channel ID tag = AIN2 expect high nybble 2
whismanoid 0:3edb3708c8c5 3180 // 0000_0000_0000_0000 0011_xxxx_xxxx_xxxx Channel ID tag = AIN3 expect high nybble 3
whismanoid 0:3edb3708c8c5 3181 //
whismanoid 0:3edb3708c8c5 3182 cmdLine.serial().printf("\r\n MOSI <-- 1000_0000_0000_0000 ADC_CONFIGURATION REFSEL=0 SPM[1:0]=0 ECHO=0");
whismanoid 0:3edb3708c8c5 3183 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3184 g_MAX11131_device.SPIwrite16bits(0x8000);
whismanoid 0:3edb3708c8c5 3185 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 0:3edb3708c8c5 3186 //
whismanoid 0:3edb3708c8c5 3187 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 3188 "\r\n MOSI <-- 0001_1001_1010_0000 ADC_MODE_CONTROL SCAN_0011_StandardInt CHSEL=3 RESET=1 SWCNV=0");
whismanoid 0:3edb3708c8c5 3189 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3190 g_MAX11131_device.SPIwrite16bits(0x19a0);
whismanoid 0:3edb3708c8c5 3191 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 0:3edb3708c8c5 3192 //
whismanoid 0:3edb3708c8c5 3193 for (int channelIndex = 0; channelIndex < 4; channelIndex++) {
whismanoid 0:3edb3708c8c5 3194 //~ cmdLine.serial().printf("\r\n MISO --> expect 0000_xxxx_xxxx_xxxx");
whismanoid 0:3edb3708c8c5 3195 //~ wait_ms(200); // delay
whismanoid 0:3edb3708c8c5 3196 g_MAX11131_device.CNVSToutputPulseLow();
whismanoid 0:3edb3708c8c5 3197 //~ g_MAX11131_device.CNVSToutputValue(0);
whismanoid 0:3edb3708c8c5 3198 //~ wait_ms(100); // delay
whismanoid 0:3edb3708c8c5 3199 //~ g_MAX11131_device.CNVSToutputValue(1);
whismanoid 0:3edb3708c8c5 3200 // g_MAX11131_device.EOCinputWaitUntilLow(); // infinite wait hazard, need to fail if timeout exceeded
whismanoid 5:82037e281451 3201 // tinyTester.DigitalIn_Read_Expect_WarnOnly replaces SelfTest_MAX11131_EOC_expect
whismanoid 3:8913cb4a8b9f 3202 tinyTester.DigitalIn_Read_Expect_WarnOnly(EOCb_pin, "EOC", 0, "after CNVST pulse");
whismanoid 0:3edb3708c8c5 3203 g_MAX11131_device.SPIoutputCS(0); // drive CS low
whismanoid 0:3edb3708c8c5 3204 g_MAX11131_device.RAW_misoData16[channelIndex] = g_MAX11131_device.SPIread16bits();
whismanoid 0:3edb3708c8c5 3205 g_MAX11131_device.SPIoutputCS(1); // drive CS high
whismanoid 5:82037e281451 3206 // tinyTester.DigitalIn_Read_Expect_WarnOnly replaces SelfTest_MAX11131_EOC_expect
whismanoid 3:8913cb4a8b9f 3207 tinyTester.DigitalIn_Read_Expect_WarnOnly(EOCb_pin, "EOC", 1, "after SPI read");
whismanoid 0:3edb3708c8c5 3208 int expect_channelId = channelIndex;
whismanoid 0:3edb3708c8c5 3209 int actual_channelId = (g_MAX11131_device.RAW_misoData16[channelIndex] >> 12) & 0x000F;
whismanoid 0:3edb3708c8c5 3210 if (actual_channelId != expect_channelId)
whismanoid 0:3edb3708c8c5 3211 {
whismanoid 3:8913cb4a8b9f 3212 tinyTester.FAIL();
whismanoid 0:3edb3708c8c5 3213 cmdLine.serial().printf("MISO --> 0x%4.4x", (g_MAX11131_device.RAW_misoData16[channelIndex] & 0xFFFF));
whismanoid 0:3edb3708c8c5 3214 cmdLine.serial().printf(" expect 0x%1.1xxxx (channel ID %d)", expect_channelId, expect_channelId);
whismanoid 0:3edb3708c8c5 3215 cmdLine.serial().printf(" but got 0x%1.1xxxx", actual_channelId);
whismanoid 0:3edb3708c8c5 3216 }
whismanoid 0:3edb3708c8c5 3217 else
whismanoid 0:3edb3708c8c5 3218 {
whismanoid 3:8913cb4a8b9f 3219 tinyTester.PASS();
whismanoid 0:3edb3708c8c5 3220 cmdLine.serial().printf("MISO --> 0x%4.4x", (g_MAX11131_device.RAW_misoData16[channelIndex] & 0xFFFF));
whismanoid 0:3edb3708c8c5 3221 cmdLine.serial().printf(" expect 0x%1.1xxxx (channel ID %d)", expect_channelId, expect_channelId);
whismanoid 0:3edb3708c8c5 3222 }
whismanoid 0:3edb3708c8c5 3223 }
whismanoid 0:3edb3708c8c5 3224 //
whismanoid 5:82037e281451 3225 // MAX11131 SelfTest: Test Fixture: MAX541ACPA+ to MAX32625MBED.AIN0/AIN4
whismanoid 0:3edb3708c8c5 3226 // Test Fixture: MAX541 connected to spi2
whismanoid 0:3edb3708c8c5 3227 // SPI spi2_max541(SPI2_MOSI, SPI2_MISO, SPI2_SCK); // mosi, miso, sclk spi2 TARGET_MAX32635MBED: P2_5 P2_6 P2_4 Arduino 2x3-pin header; microSD
whismanoid 0:3edb3708c8c5 3228 // DigitalOut spi2_max541_cs(SPI2_SS); // TARGET_MAX32635MBED: P2_7 Arduino 2x3-pin header
whismanoid 0:3edb3708c8c5 3229 // Test Fixture: MAX541 spi2 init
whismanoid 0:3edb3708c8c5 3230 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 3231 cmdLine.serial().printf("\r\n 2.0: Test Fixture: MAX541 connected to spi2 (P2.4 P2.5 P2.7)?");
whismanoid 0:3edb3708c8c5 3232 bool SelfTest_has_max541 = false;
whismanoid 0:3edb3708c8c5 3233 // Check actual MAX541 reference voltage
whismanoid 0:3edb3708c8c5 3234 cmdLine.serial().printf("\r\n Test Fixture: MAX541 midscale voltage measure with MAX32625MBED AIN0/4");
whismanoid 0:3edb3708c8c5 3235 max541.Set_Code(0x8000); // we don't know the fullscale voltage yet, so set code to midscale
whismanoid 5:82037e281451 3236 tinyTester.Wait_Output_Settling(); // wait for MAX541 to settle
whismanoid 5:82037e281451 3237 //
whismanoid 0:3edb3708c8c5 3238 double max541_midscale_V = analogInPin_fullScaleVoltage[4] * analogIn4.read(); // TARGET_MAX32630 J1.5 AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 3239 const int average_count = 100;
whismanoid 0:3edb3708c8c5 3240 const double average_K = 0.25;
whismanoid 0:3edb3708c8c5 3241 for (int count = 0; count < average_count; count++) {
whismanoid 0:3edb3708c8c5 3242 double measurement_V = analogInPin_fullScaleVoltage[4] * analogIn4.read(); // TARGET_MAX32630 J1.5 AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 3243 max541_midscale_V = ((1 - average_K) * max541_midscale_V) + (average_K * measurement_V);
whismanoid 0:3edb3708c8c5 3244 }
whismanoid 0:3edb3708c8c5 3245 if (max541_midscale_V > 1.0f) {
whismanoid 0:3edb3708c8c5 3246 max541.VRef = 2.0 * max541_midscale_V;
whismanoid 0:3edb3708c8c5 3247 cmdLine.serial().printf("\r\n Test Fixture: MAX541 midscale = %1.3fV, so fullscale = %1.3fV",
whismanoid 0:3edb3708c8c5 3248 max541_midscale_V, max541.VRef);
whismanoid 0:3edb3708c8c5 3249 // Detect whether MAX541 is really connected to MAX32625MBED.AIN0/AIN4
whismanoid 0:3edb3708c8c5 3250 voltageV = 1.0f;
whismanoid 0:3edb3708c8c5 3251 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3252 }
whismanoid 0:3edb3708c8c5 3253 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3254 voltageV = 0.0f;
whismanoid 0:3edb3708c8c5 3255 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3256 }
whismanoid 0:3edb3708c8c5 3257 if (SelfTest_has_max541) {
whismanoid 5:82037e281451 3258 voltageV = 2.7f;
whismanoid 0:3edb3708c8c5 3259 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3260 }
whismanoid 0:3edb3708c8c5 3261 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3262 voltageV = 1.65f;
whismanoid 0:3edb3708c8c5 3263 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3264 }
whismanoid 0:3edb3708c8c5 3265 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3266 voltageV = 2.0f;
whismanoid 0:3edb3708c8c5 3267 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3268 }
whismanoid 0:3edb3708c8c5 3269 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3270 voltageV = 0.25f;
whismanoid 0:3edb3708c8c5 3271 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3272 }
whismanoid 0:3edb3708c8c5 3273 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3274 voltageV = 0.5f;
whismanoid 0:3edb3708c8c5 3275 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3276 }
whismanoid 0:3edb3708c8c5 3277 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3278 voltageV = 1.0f;
whismanoid 0:3edb3708c8c5 3279 SelfTest_has_max541 = SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3280 }
whismanoid 0:3edb3708c8c5 3281 if (SelfTest_has_max541 == false) {
whismanoid 0:3edb3708c8c5 3282 // don't fail just because we're missing the test fixture...
whismanoid 0:3edb3708c8c5 3283 cmdLine.serial().printf("\r\n Test Fixture: MAX541 not present");
whismanoid 0:3edb3708c8c5 3284 //~ g_SelfTest_nFail--;
whismanoid 0:3edb3708c8c5 3285 }
whismanoid 0:3edb3708c8c5 3286 //
whismanoid 0:3edb3708c8c5 3287 // TODO1: MAX11131 SelfTest: if Test Fixture: drive MAX541, compare MAX32625MBED.AIN0/AIN4 and MAX11131 AIN0
whismanoid 0:3edb3708c8c5 3288 // indirectly verify the reference voltage by reading a known input voltage
whismanoid 0:3edb3708c8c5 3289 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3290 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 3291 cmdLine.serial().printf("\r\n 2.1: TODO1: Check MAX11131 reference voltage using SCAN_0001_Manual");
whismanoid 0:3edb3708c8c5 3292 voltageV = 1.0f;
whismanoid 0:3edb3708c8c5 3293 SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3294 cmdLine.serial().printf("\r\n MAX11131.Init()");
whismanoid 0:3edb3708c8c5 3295 g_MAX11131_device.Init();
whismanoid 0:3edb3708c8c5 3296 // 1 ScanManual ch=0 pm=0 id=1
whismanoid 0:3edb3708c8c5 3297 g_MAX11131_device.channelNumber_0_15 = 0;
whismanoid 0:3edb3708c8c5 3298 g_MAX11131_device.PowerManagement_0_2 = 0;
whismanoid 0:3edb3708c8c5 3299 g_MAX11131_device.chan_id_0_1 = 1;
whismanoid 0:3edb3708c8c5 3300 cmdLine.serial().printf("\r\n MAX11131.channelNumber_0_15=%d", g_MAX11131_device.channelNumber_0_15);
whismanoid 0:3edb3708c8c5 3301 cmdLine.serial().printf("\r\n MAX11131.PowerManagement_0_2=%d", g_MAX11131_device.PowerManagement_0_2);
whismanoid 0:3edb3708c8c5 3302 cmdLine.serial().printf("\r\n MAX11131.chan_id_0_1=%d", g_MAX11131_device.chan_id_0_1);
whismanoid 0:3edb3708c8c5 3303 g_MAX11131_device.NumWords = g_MAX11131_device.ScanManual();
whismanoid 0:3edb3708c8c5 3304 cmdLine.serial().printf("\r\n MAX11131.ScanManual -- NumWords = %d",
whismanoid 0:3edb3708c8c5 3305 g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3306 g_MAX11131_device.NumWords = g_MAX11131_device.ScanManual();
whismanoid 0:3edb3708c8c5 3307 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 3308 cmdLine.serial().printf("\r\n MAX11131.ReadAINcode");
whismanoid 0:3edb3708c8c5 3309 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3310 //
whismanoid 0:3edb3708c8c5 3311 // 2.1: TODO1: Check MAX11131 reference voltage -- why we read 0xffff 2.4999V here?
whismanoid 0:3edb3708c8c5 3312 //
whismanoid 0:3edb3708c8c5 3313 cmdLine.serial().printf("\r\n MAX11131.ScanManual -- NumWords = %d",
whismanoid 0:3edb3708c8c5 3314 g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3315 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 3316 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 3317 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 3318 cmdLine.serial().printf("\r\n MAX11131.ReadAINcode");
whismanoid 0:3edb3708c8c5 3319 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3320 //
whismanoid 0:3edb3708c8c5 3321 // 2.1: TODO1: Check MAX11131 reference voltage -- why we read 0xffff 2.4999V here?
whismanoid 0:3edb3708c8c5 3322 //
whismanoid 0:3edb3708c8c5 3323 // compare with mbed/Arduino AIN0-AIN3
whismanoid 0:3edb3708c8c5 3324 // MAX32625MBED.AIN4 = MAX11131.AIN0
whismanoid 0:3edb3708c8c5 3325 channelId = 0;
whismanoid 0:3edb3708c8c5 3326 value_u12 = g_MAX11131_device.AINcode[channelId];
whismanoid 0:3edb3708c8c5 3327 voltageV = g_MAX11131_device.VoltageOfCode(value_u12, channelId);
whismanoid 3:8913cb4a8b9f 3328 //
whismanoid 5:82037e281451 3329 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 3:8913cb4a8b9f 3330 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3331 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 3:8913cb4a8b9f 3332 tinyTester.err_threshold = 0.100;
whismanoid 3:8913cb4a8b9f 3333 tinyTester.AnalogIn0_Read_Expect_voltageV(voltageV);
whismanoid 3:8913cb4a8b9f 3334 //
whismanoid 0:3edb3708c8c5 3335 }
whismanoid 0:3edb3708c8c5 3336 //
whismanoid 0:3edb3708c8c5 3337 if (SelfTest_has_max541) {
whismanoid 0:3edb3708c8c5 3338 voltageV = 1.0f;
whismanoid 0:3edb3708c8c5 3339 SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 3340 }
whismanoid 0:3edb3708c8c5 3341 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 3342 cmdLine.serial().printf("\r\n 3.1: Test SCAN_0001_Manual");
whismanoid 0:3edb3708c8c5 3343 cmdLine.serial().printf("\r\n MAX11131.Init()");
whismanoid 0:3edb3708c8c5 3344 g_MAX11131_device.Init();
whismanoid 0:3edb3708c8c5 3345 // 1 ScanManual ch=0 pm=0 id=1
whismanoid 0:3edb3708c8c5 3346 g_MAX11131_device.channelNumber_0_15 = 0;
whismanoid 0:3edb3708c8c5 3347 g_MAX11131_device.PowerManagement_0_2 = 0;
whismanoid 0:3edb3708c8c5 3348 g_MAX11131_device.chan_id_0_1 = 1;
whismanoid 0:3edb3708c8c5 3349 cmdLine.serial().printf("\r\n MAX11131.channelNumber_0_15=%d", g_MAX11131_device.channelNumber_0_15);
whismanoid 0:3edb3708c8c5 3350 cmdLine.serial().printf("\r\n MAX11131.PowerManagement_0_2=%d", g_MAX11131_device.PowerManagement_0_2);
whismanoid 0:3edb3708c8c5 3351 cmdLine.serial().printf("\r\n MAX11131.chan_id_0_1=%d", g_MAX11131_device.chan_id_0_1);
whismanoid 0:3edb3708c8c5 3352 g_MAX11131_device.NumWords = g_MAX11131_device.ScanManual();
whismanoid 0:3edb3708c8c5 3353 cmdLine.serial().printf("\r\n MAX11131.ScanManual -- NumWords = %d",
whismanoid 0:3edb3708c8c5 3354 g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3355 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 3356 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 3357 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 3358 cmdLine.serial().printf("\r\n MAX11131.ReadAINcode");
whismanoid 0:3edb3708c8c5 3359 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3360 // compare with mbed/Arduino AIN0-AIN3
whismanoid 0:3edb3708c8c5 3361 // MAX32625MBED.AIN4 = MAX11131.AIN0
whismanoid 0:3edb3708c8c5 3362 channelId = 0;
whismanoid 0:3edb3708c8c5 3363 value_u12 = g_MAX11131_device.AINcode[channelId];
whismanoid 0:3edb3708c8c5 3364 voltageV = g_MAX11131_device.VoltageOfCode(value_u12, channelId);
whismanoid 3:8913cb4a8b9f 3365 //
whismanoid 5:82037e281451 3366 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 3:8913cb4a8b9f 3367 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3368 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 3:8913cb4a8b9f 3369 tinyTester.err_threshold = 0.100;
whismanoid 3:8913cb4a8b9f 3370 tinyTester.AnalogIn0_Read_Expect_voltageV(voltageV);
whismanoid 3:8913cb4a8b9f 3371 //
whismanoid 0:3edb3708c8c5 3372 //
whismanoid 0:3edb3708c8c5 3373 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 3374 cmdLine.serial().printf("\r\n 3.4: Test SCAN_0100_StandardExternalClock");
whismanoid 0:3edb3708c8c5 3375 cmdLine.serial().printf("\r\n MAX11131.Init()");
whismanoid 0:3edb3708c8c5 3376 g_MAX11131_device.Init();
whismanoid 0:3edb3708c8c5 3377 // MAX11131 > 4
whismanoid 0:3edb3708c8c5 3378 // ScanStandardExternalClock ch=9 pm=0 id=1
whismanoid 0:3edb3708c8c5 3379 // ScanRead_nWords_chanID nWords=10
whismanoid 0:3edb3708c8c5 3380 // ch=0 xu=2964 = 0x0b94 = 1.8091V
whismanoid 0:3edb3708c8c5 3381 // ch=1 xu=2227 = 0x08b3 = 1.3593V
whismanoid 0:3edb3708c8c5 3382 // ch=2 xu=1570 = 0x0622 = 0.9583V
whismanoid 0:3edb3708c8c5 3383 // ch=3 xu=865 = 0x0361 = 0.5280V
whismanoid 0:3edb3708c8c5 3384 // ch=4 xu=630 = 0x0276 = 0.3845V
whismanoid 0:3edb3708c8c5 3385 // ch=5 xu=594 = 0x0252 = 0.3625V
whismanoid 0:3edb3708c8c5 3386 // ch=6 xu=461 = 0x01cd = 0.2814V
whismanoid 0:3edb3708c8c5 3387 // ch=7 xu=364 = 0x016c = 0.2222V
whismanoid 0:3edb3708c8c5 3388 // ch=8 xu=480 = 0x01e0 = 0.2930V
whismanoid 0:3edb3708c8c5 3389 // ch=9 xu=616 = 0x0268 = 0.3760V
whismanoid 0:3edb3708c8c5 3390 g_MAX11131_device.channelNumber_0_15 = 9;
whismanoid 0:3edb3708c8c5 3391 g_MAX11131_device.PowerManagement_0_2 = 0;
whismanoid 0:3edb3708c8c5 3392 g_MAX11131_device.chan_id_0_1 = 1;
whismanoid 0:3edb3708c8c5 3393 cmdLine.serial().printf("\r\n MAX11131.channelNumber_0_15=%d", g_MAX11131_device.channelNumber_0_15);
whismanoid 0:3edb3708c8c5 3394 cmdLine.serial().printf("\r\n MAX11131.PowerManagement_0_2=%d", g_MAX11131_device.PowerManagement_0_2);
whismanoid 0:3edb3708c8c5 3395 cmdLine.serial().printf("\r\n MAX11131.chan_id_0_1=%d", g_MAX11131_device.chan_id_0_1);
whismanoid 0:3edb3708c8c5 3396 g_MAX11131_device.NumWords = g_MAX11131_device.ScanStandardExternalClock();
whismanoid 0:3edb3708c8c5 3397 cmdLine.serial().printf("\r\n MAX11131.ScanStandardExternalClock -- NumWords = %d",
whismanoid 0:3edb3708c8c5 3398 g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 3399 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 3400 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 3401 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 3402 cmdLine.serial().printf("\r\n MAX11131.ReadAINcode");
whismanoid 0:3edb3708c8c5 3403 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 3404 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 5:82037e281451 3405 // expect g_MAX11131_device.NumWords == g_MAX11131_device.channelNumber_0_15 + 1;
whismanoid 5:82037e281451 3406 // expect RAW_misoData16[index] msnybble 0,1,2,3,...
whismanoid 0:3edb3708c8c5 3407 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 5:82037e281451 3408 // compare with mbed/Arduino AIN0-AIN3
whismanoid 0:3edb3708c8c5 3409 // MAX32625MBED.AIN4 = MAX11131.AIN0
whismanoid 0:3edb3708c8c5 3410 channelId = 0;
whismanoid 0:3edb3708c8c5 3411 value_u12 = g_MAX11131_device.AINcode[channelId];
whismanoid 0:3edb3708c8c5 3412 voltageV = g_MAX11131_device.VoltageOfCode(value_u12, channelId);
whismanoid 5:82037e281451 3413 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 3:8913cb4a8b9f 3414 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3415 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 3:8913cb4a8b9f 3416 tinyTester.err_threshold = 0.100;
whismanoid 3:8913cb4a8b9f 3417 tinyTester.AnalogIn0_Read_Expect_voltageV(voltageV);
whismanoid 5:82037e281451 3418 // compare MAX32625MBED.AIN5 = MAX11131.AIN1
whismanoid 0:3edb3708c8c5 3419 //channelId = 1;
whismanoid 0:3edb3708c8c5 3420 //value_u12 = g_MAX11131_device.AINcode[channelId];
whismanoid 0:3edb3708c8c5 3421 //voltageV = g_MAX11131_device.VoltageOfCode(value_u12, channelId);
whismanoid 0:3edb3708c8c5 3422 //SelfTest_AnalogInput_Expect_ch_V(cmdLine, 5, voltageV, 0.100);
whismanoid 0:3edb3708c8c5 3423 //
whismanoid 0:3edb3708c8c5 3424 #elif APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 3425
whismanoid 5:82037e281451 3426 // tinyTester.FunctionCall_Expect replaces SelfTest_DACCodeOfVoltage_Expect
whismanoid 0:3edb3708c8c5 3427 //
whismanoid 1:40369075c365 3428 // Note: ide.mbed.com does not support C++11 Lambda Expressions
whismanoid 1:40369075c365 3429 // -- see https://os.mbed.com/questions/82580/Is-there-solution-for-defining-of-interr/
whismanoid 0:3edb3708c8c5 3430 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 3431 // uint8_t MAX5171::Init(void)
whismanoid 2:b3a8a0ca0a94 3432 //uint8_t (*fn_MAX5171_Init)() = [](){ return g_MAX5171_device.Init(); };
whismanoid 0:3edb3708c8c5 3433 //
whismanoid 0:3edb3708c8c5 3434 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 3435 // uint16_t MAX5171::DACCodeOfVoltage(double voltageV)
whismanoid 2:b3a8a0ca0a94 3436 //uint16_t (*fn_MAX5171_DACCodeOfVoltage)(double) = [](double voltageV){ return g_MAX5171_device.DACCodeOfVoltage(voltageV); };
whismanoid 0:3edb3708c8c5 3437 //
whismanoid 0:3edb3708c8c5 3438 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 3439 // double MAX5171::VoltageOfCode(uint16_t value_u14)
whismanoid 2:b3a8a0ca0a94 3440 //double (*fn_MAX5171_VoltageOfCode)(uint16_t) = [](uint16_t value_u14){ return g_MAX5171_device.VoltageOfCode(value_u14); };
whismanoid 0:3edb3708c8c5 3441 //
whismanoid 0:3edb3708c8c5 3442 // define function under test using C++11 lambda expression [](){}
whismanoid 0:3edb3708c8c5 3443 // uint8_t MAX5171::CODE_LOAD(uint16_t dacCodeLsbs)
whismanoid 2:b3a8a0ca0a94 3444 //uint8_t (*fn_MAX5171_CODE_LOAD)(uint16_t dacCodeLsbs) = [](uint16_t dacCodeLsbs){ return g_MAX5171_device.CODE_LOAD(dacCodeLsbs); };
whismanoid 0:3edb3708c8c5 3445 //
whismanoid 0:3edb3708c8c5 3446 //double one_LSB = (g_MAX5171_device.VRef / 16383); // 14-bit DAC FS
whismanoid 5:82037e281451 3447 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3448 tinyTester.settle_time_msec = 250;
whismanoid 0:3edb3708c8c5 3449
whismanoid 0:3edb3708c8c5 3450 g_MAX5171_device.VRef = 2.500; // MAX5171 14-bit LSB = 0.00015V
whismanoid 0:3edb3708c8c5 3451 SelfTest_print_Vref(cmdLine);
whismanoid 8:6bdfb1376fed 3452 tinyTester.err_threshold = (g_MAX5171_device.VRef / 16383); // 14-bit DAC FS
whismanoid 0:3edb3708c8c5 3453 //
whismanoid 5:82037e281451 3454 // tinyTester.FunctionCall_Expect replaces SelfTest_DACCodeOfVoltage_Expect
whismanoid 0:3edb3708c8c5 3455 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 2.499847412109375, 0x3FFF);
whismanoid 0:3edb3708c8c5 3456 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 2.49969482421875, 0x3FFE);
whismanoid 0:3edb3708c8c5 3457 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 2.499542236328125, 0x3FFD);
whismanoid 0:3edb3708c8c5 3458 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 2.4993896484375, 0x3FFC);
whismanoid 0:3edb3708c8c5 3459 //
whismanoid 0:3edb3708c8c5 3460 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 1.250152587890625, 0x2001);
whismanoid 0:3edb3708c8c5 3461 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 1.25, 0x2000);
whismanoid 0:3edb3708c8c5 3462 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 1.249847412109375, 0x1FFF);
whismanoid 0:3edb3708c8c5 3463 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 1.24969482421875, 0x1FFE);
whismanoid 0:3edb3708c8c5 3464 //
whismanoid 0:3edb3708c8c5 3465 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 0.000457763671875, 0x0003);
whismanoid 0:3edb3708c8c5 3466 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 0.00030517578125, 0x0002);
whismanoid 0:3edb3708c8c5 3467 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 0.000152587890625, 0x0001);
whismanoid 0:3edb3708c8c5 3468 tinyTester.FunctionCall_Expect("MAX5171.DACCodeOfVoltage", fn_MAX5171_DACCodeOfVoltage, 0.00000, 0x0000);
whismanoid 0:3edb3708c8c5 3469 //
whismanoid 5:82037e281451 3470 // tinyTester.FunctionCall_Expect replaces SelfTest_VoltageOfCode_Expect
whismanoid 0:3edb3708c8c5 3471 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x3FFF, 2.499847412109375);
whismanoid 0:3edb3708c8c5 3472 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x3FFE, 2.49969482421875);
whismanoid 0:3edb3708c8c5 3473 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x3FFD, 2.499542236328125);
whismanoid 0:3edb3708c8c5 3474 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x3FFC, 2.4993896484375);
whismanoid 0:3edb3708c8c5 3475 //
whismanoid 0:3edb3708c8c5 3476 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x2001, 1.250152587890625);
whismanoid 0:3edb3708c8c5 3477 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x2000, 1.25);
whismanoid 0:3edb3708c8c5 3478 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x1FFF, 1.249847412109375);
whismanoid 0:3edb3708c8c5 3479 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x1FFE, 1.24969482421875);
whismanoid 0:3edb3708c8c5 3480 //
whismanoid 0:3edb3708c8c5 3481 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x0003, 0.000457763671875);
whismanoid 0:3edb3708c8c5 3482 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x0002, 0.00030517578125);
whismanoid 0:3edb3708c8c5 3483 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x0001, 0.000152587890625);
whismanoid 0:3edb3708c8c5 3484 tinyTester.FunctionCall_Expect("MAX5171.VoltageOfCode", fn_MAX5171_VoltageOfCode, 0x0000, 0.00000);
whismanoid 0:3edb3708c8c5 3485 //
whismanoid 0:3edb3708c8c5 3486 // Device Testing: DAC commands, verify using on-board ADC inputs
whismanoid 0:3edb3708c8c5 3487 //
whismanoid 0:3edb3708c8c5 3488 cmdLine.serial().printf("\r\n MAX5171.Init()");
whismanoid 0:3edb3708c8c5 3489 g_MAX5171_device.Init();
whismanoid 0:3edb3708c8c5 3490 //
whismanoid 0:3edb3708c8c5 3491 tinyTester.err_threshold = 0.030; // 30mV
whismanoid 0:3edb3708c8c5 3492 uint16_t code = 0x3FFF;
whismanoid 0:3edb3708c8c5 3493 //~ double voltageV = 0.5;
whismanoid 0:3edb3708c8c5 3494 //
whismanoid 0:3edb3708c8c5 3495 cmdLine.serial().printf("\r\n MAX5171.CODE_LOAD code=%d", code);
whismanoid 0:3edb3708c8c5 3496 g_MAX5171_device.CODE_LOAD(code);
whismanoid 5:82037e281451 3497 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3498 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3499 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3500 tinyTester.AnalogIn0_Read_Expect_voltageV(2.500);
whismanoid 0:3edb3708c8c5 3501 //
whismanoid 0:3edb3708c8c5 3502 code = 0x0000;
whismanoid 0:3edb3708c8c5 3503 cmdLine.serial().printf("\r\n MAX5171.CODE_LOAD code=%d", code);
whismanoid 0:3edb3708c8c5 3504 g_MAX5171_device.CODE_LOAD(code);
whismanoid 5:82037e281451 3505 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3506 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3507 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3508 tinyTester.AnalogIn0_Read_Expect_voltageV(0.0000);
whismanoid 0:3edb3708c8c5 3509 //
whismanoid 0:3edb3708c8c5 3510 code = 0x1FFF;
whismanoid 0:3edb3708c8c5 3511 cmdLine.serial().printf("\r\n MAX5171.CODE_LOAD code=%d", code);
whismanoid 0:3edb3708c8c5 3512 g_MAX5171_device.CODE_LOAD(code);
whismanoid 5:82037e281451 3513 // tinyTester.Wait_Output_Settling replaces wait_ms
whismanoid 0:3edb3708c8c5 3514 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3515 // tinyTester.AnalogIn0_Read_Expect_voltageV replaces SelfTest_AnalogInput_Expect_ch_V
whismanoid 0:3edb3708c8c5 3516 tinyTester.AnalogIn0_Read_Expect_voltageV(1.2500);
whismanoid 0:3edb3708c8c5 3517 //
whismanoid 0:3edb3708c8c5 3518 // test UPO User Programmable Output, verify using digital input D2
whismanoid 0:3edb3708c8c5 3519 //
whismanoid 0:3edb3708c8c5 3520 cmdLine.serial().printf("\r\n MAX5171.UPO_HIGH");
whismanoid 0:3edb3708c8c5 3521 g_MAX5171_device.UPO_HIGH();
whismanoid 0:3edb3708c8c5 3522 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3523 // tinyTester.DigitalIn_Read_Expect_WarnOnly replaces SelfTest_Expect_Input_UPO_pin
whismanoid 0:3edb3708c8c5 3524 tinyTester.DigitalIn_Read_Expect_WarnOnly(UPO_pin, "UPO", 1, "UPO_pin is high after MAX5171 UPO_HIGH command");
whismanoid 0:3edb3708c8c5 3525 //
whismanoid 0:3edb3708c8c5 3526 cmdLine.serial().printf("\r\n MAX5171.UPO_LOW");
whismanoid 0:3edb3708c8c5 3527 g_MAX5171_device.UPO_LOW();
whismanoid 0:3edb3708c8c5 3528 tinyTester.Wait_Output_Settling();
whismanoid 5:82037e281451 3529 // tinyTester.DigitalIn_Read_Expect_WarnOnly replaces SelfTest_Expect_Input_UPO_pin
whismanoid 0:3edb3708c8c5 3530 tinyTester.DigitalIn_Read_Expect_WarnOnly(UPO_pin, "UPO", 0, "UPO_pin is low after MAX5171 UPO_LOW command");
whismanoid 0:3edb3708c8c5 3531 //
whismanoid 0:3edb3708c8c5 3532 cmdLine.serial().printf("\r\n MAX5171.UPO_HIGH");
whismanoid 0:3edb3708c8c5 3533 g_MAX5171_device.UPO_HIGH();
whismanoid 0:3edb3708c8c5 3534 tinyTester.Wait_Output_Settling(); // wait_ms(100); // delay
whismanoid 5:82037e281451 3535 // tinyTester.DigitalIn_Read_Expect_WarnOnly replaces SelfTest_Expect_Input_UPO_pin
whismanoid 0:3edb3708c8c5 3536 tinyTester.DigitalIn_Read_Expect_WarnOnly(UPO_pin, "UPO", 1, "UPO_pin is high after MAX5171 UPO_HIGH command");
whismanoid 0:3edb3708c8c5 3537 //
whismanoid 0:3edb3708c8c5 3538 #elif APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 3539 //
whismanoid 0:3edb3708c8c5 3540 // TODO: placeholder for self-test functions
whismanoid 0:3edb3708c8c5 3541 SelfTest_FAIL(cmdLine);
whismanoid 0:3edb3708c8c5 3542 cmdLine.serial().printf("test program not implemented yet");
whismanoid 0:3edb3708c8c5 3543 //
whismanoid 0:3edb3708c8c5 3544 #elif APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 3545 //
whismanoid 0:3edb3708c8c5 3546 // TODO: placeholder for self-test functions
whismanoid 0:3edb3708c8c5 3547 SelfTest_FAIL(cmdLine);
whismanoid 0:3edb3708c8c5 3548 cmdLine.serial().printf("test program not implemented yet");
whismanoid 0:3edb3708c8c5 3549 //
whismanoid 0:3edb3708c8c5 3550 #else // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 3551 // TODO: placeholder for self-test functions
whismanoid 0:3edb3708c8c5 3552 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 3553 //
whismanoid 8:6bdfb1376fed 3554 #if INJECT_SELFTEST_FAIL
whismanoid 0:3edb3708c8c5 3555 // Test of the pass/fail report mechanism
whismanoid 0:3edb3708c8c5 3556 SelfTest_FAIL(cmdLine);
whismanoid 0:3edb3708c8c5 3557 cmdLine.serial().printf("injecting one false failure for test reporting");
whismanoid 0:3edb3708c8c5 3558 #endif
whismanoid 0:3edb3708c8c5 3559 //
whismanoid 0:3edb3708c8c5 3560 // Report number of pass and number of fail test results
whismanoid 0:3edb3708c8c5 3561 tinyTester.Report_Summary();
whismanoid 0:3edb3708c8c5 3562 }
whismanoid 0:3edb3708c8c5 3563
whismanoid 0:3edb3708c8c5 3564
whismanoid 0:3edb3708c8c5 3565 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 3566 void main_menu_status(CmdLine & cmdLine)
whismanoid 0:3edb3708c8c5 3567 {
whismanoid 0:3edb3708c8c5 3568 cmdLine.serial().printf("\r\nMain menu");
whismanoid 0:3edb3708c8c5 3569 #if APPLICATION_MAX5715 // main_menu_status banner
whismanoid 0:3edb3708c8c5 3570 cmdLine.serial().printf(" MAX5715 12-bit 4-ch SPI VOUT DAC");
whismanoid 0:3edb3708c8c5 3571 #elif APPLICATION_MAX11131 // main_menu_status banner
whismanoid 0:3edb3708c8c5 3572 cmdLine.serial().printf(" MAX11131 12-bit 3MSps 16-ch ADC");
whismanoid 0:3edb3708c8c5 3573 #elif APPLICATION_MAX5171 // main_menu_status banner
whismanoid 0:3edb3708c8c5 3574 cmdLine.serial().printf(" MAX5171 14-bit Force/Sense VOUT DAC");
whismanoid 0:3edb3708c8c5 3575 #elif APPLICATION_MAX11410 // main_menu_status banner
whismanoid 0:3edb3708c8c5 3576 cmdLine.serial().printf(" MAX11410 24-bit 1.9ksps Delta-Sigma ADC");
whismanoid 0:3edb3708c8c5 3577 #elif APPLICATION_MAX12345 // main_menu_status banner
whismanoid 0:3edb3708c8c5 3578 cmdLine.serial().printf(" MAX12345");
whismanoid 0:3edb3708c8c5 3579 #else
whismanoid 0:3edb3708c8c5 3580 //cmdLine.serial().printf(" ");
whismanoid 0:3edb3708c8c5 3581 #endif
whismanoid 0:3edb3708c8c5 3582 cmdLine.serial().printf(" %s", TARGET_NAME);
whismanoid 0:3edb3708c8c5 3583 if (cmdLine.nameStr())
whismanoid 0:3edb3708c8c5 3584 {
whismanoid 0:3edb3708c8c5 3585 cmdLine.serial().printf(" [%s]", cmdLine.nameStr());
whismanoid 0:3edb3708c8c5 3586 }
whismanoid 0:3edb3708c8c5 3587 #if HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 3588 cmdLine.serial().printf(" [Button1=DemoConfig1]");
whismanoid 0:3edb3708c8c5 3589 #endif
whismanoid 0:3edb3708c8c5 3590 #if HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 3591 cmdLine.serial().printf(" [Button2=DemoConfig2]");
whismanoid 0:3edb3708c8c5 3592 #endif
whismanoid 0:3edb3708c8c5 3593 #if HAS_BUTTON1_DEMO
whismanoid 0:3edb3708c8c5 3594 // print BUTTON1 status
whismanoid 0:3edb3708c8c5 3595 cmdLine.serial().printf("\r\n BUTTON1 = %d", button1.read());
whismanoid 0:3edb3708c8c5 3596 #endif
whismanoid 0:3edb3708c8c5 3597 #if HAS_BUTTON2_DEMO
whismanoid 0:3edb3708c8c5 3598 // print BUTTON1 status
whismanoid 0:3edb3708c8c5 3599 cmdLine.serial().printf("\r\n BUTTON2 = %d", button2.read());
whismanoid 0:3edb3708c8c5 3600 #endif
whismanoid 0:3edb3708c8c5 3601 cmdLine.serial().printf("\r\n ? -- help");
whismanoid 0:3edb3708c8c5 3602 }
whismanoid 0:3edb3708c8c5 3603
whismanoid 0:3edb3708c8c5 3604 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 3605 void main_menu_help(CmdLine & cmdLine)
whismanoid 0:3edb3708c8c5 3606 {
whismanoid 0:3edb3708c8c5 3607 // ? -- help
whismanoid 0:3edb3708c8c5 3608 //~ cmdLine.serial().printf("\r\nMenu:");
whismanoid 0:3edb3708c8c5 3609 cmdLine.serial().printf("\r\n # -- lines beginning with # are comments");
whismanoid 0:3edb3708c8c5 3610 cmdLine.serial().printf("\r\n . -- SelfTest");
whismanoid 0:3edb3708c8c5 3611 //cmdLine.serial().printf("\r\n ! -- Initial Configuration");
whismanoid 0:3edb3708c8c5 3612 //
whismanoid 0:3edb3708c8c5 3613 // % standardize diagnostic commands
whismanoid 0:3edb3708c8c5 3614 // %Hpin -- digital output high
whismanoid 0:3edb3708c8c5 3615 // %Lpin -- digital output low
whismanoid 0:3edb3708c8c5 3616 // %?pin -- digital input
whismanoid 0:3edb3708c8c5 3617 // %A %Apin -- analog input
whismanoid 0:3edb3708c8c5 3618 // %Ppin df=xx -- pwm output
whismanoid 0:3edb3708c8c5 3619 // %Wpin -- measure high pulsewidth input in usec
whismanoid 0:3edb3708c8c5 3620 // %wpin -- measure low pulsewidth input in usec
whismanoid 0:3edb3708c8c5 3621 // %I... -- I2C diagnostics
whismanoid 0:3edb3708c8c5 3622 // %IP -- I2C probe
whismanoid 0:3edb3708c8c5 3623 // %IC scl=100khz ADDR=? -- I2C configure
whismanoid 0:3edb3708c8c5 3624 // %IW ADDR=? cmd=? data,data,data -- write
whismanoid 0:3edb3708c8c5 3625 // %IR ADDR=? RD=? -- read
whismanoid 0:3edb3708c8c5 3626 // %I^ cmd=? -- i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 3627 // %S... -- SPI diagnostics
whismanoid 0:3edb3708c8c5 3628 // %SC sclk=1Mhz -- SPI configure
whismanoid 0:3edb3708c8c5 3629 // %SW -- write (write and read)
whismanoid 0:3edb3708c8c5 3630 // %SR -- read (alias for %SW because SPI always write and read)
whismanoid 0:3edb3708c8c5 3631 // A-Z,a-z,0-9 reserved for application use
whismanoid 0:3edb3708c8c5 3632 //
whismanoid 0:3edb3708c8c5 3633 #if HAS_digitalInOuts
whismanoid 0:3edb3708c8c5 3634 // %Hpin -- digital output high
whismanoid 0:3edb3708c8c5 3635 // %Lpin -- digital output low
whismanoid 0:3edb3708c8c5 3636 // %?pin -- digital input
whismanoid 0:3edb3708c8c5 3637 cmdLine.serial().printf("\r\n %%Hn {pin:");
whismanoid 0:3edb3708c8c5 3638 list_digitalInOutPins(cmdLine.serial());
whismanoid 0:3edb3708c8c5 3639 cmdLine.serial().printf("} -- High Output");
whismanoid 0:3edb3708c8c5 3640 cmdLine.serial().printf("\r\n %%Ln {pin:");
whismanoid 0:3edb3708c8c5 3641 list_digitalInOutPins(cmdLine.serial());
whismanoid 0:3edb3708c8c5 3642 cmdLine.serial().printf("} -- Low Output");
whismanoid 0:3edb3708c8c5 3643 cmdLine.serial().printf("\r\n %%?n {pin:");
whismanoid 0:3edb3708c8c5 3644 list_digitalInOutPins(cmdLine.serial());
whismanoid 0:3edb3708c8c5 3645 cmdLine.serial().printf("} -- Input");
whismanoid 0:3edb3708c8c5 3646 #endif
whismanoid 0:3edb3708c8c5 3647
whismanoid 0:3edb3708c8c5 3648 #if HAS_analogIns
whismanoid 0:3edb3708c8c5 3649 // Menu A) analogRead A0..7
whismanoid 0:3edb3708c8c5 3650 // %A %Apin -- analog input
whismanoid 0:3edb3708c8c5 3651 // analogRead(pinIndex) // analog input pins A0, A1, A2, A3, A4, A5; float voltage = analogRead(A0) * (5.0 / 1023.0)
whismanoid 0:3edb3708c8c5 3652 cmdLine.serial().printf("\r\n %%A -- analogRead");
whismanoid 0:3edb3708c8c5 3653 #endif
whismanoid 0:3edb3708c8c5 3654
whismanoid 0:3edb3708c8c5 3655 #if HAS_SPI2_MAX541
whismanoid 0:3edb3708c8c5 3656 // TODO1: MAX541 max541(spi2_max541, spi2_max541_cs);
whismanoid 0:3edb3708c8c5 3657 cmdLine.serial().printf("\r\n %%D -- DAC output MAX541 (SPI2)");
whismanoid 0:3edb3708c8c5 3658 #endif
whismanoid 0:3edb3708c8c5 3659
whismanoid 0:3edb3708c8c5 3660 #if HAS_I2C // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 3661 // TODO: support I2C HAS_I2C // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 3662 // VERIFY: I2C utility commands SUPPORT_I2C
whismanoid 0:3edb3708c8c5 3663 // VERIFY: report g_I2C_SCL_Hz = (F_CPU / ((TWBR * 2) + 16)) from last Wire_Sr.setClock(I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 3664 // %I... -- I2C diagnostics
whismanoid 0:3edb3708c8c5 3665 // %IP -- I2C probe
whismanoid 0:3edb3708c8c5 3666 // %IC scl=100khz ADDR=? -- I2C configure
whismanoid 0:3edb3708c8c5 3667 // %IW byte byte ... byte RD=? ADDR=0x -- write
whismanoid 0:3edb3708c8c5 3668 // %IR ADDR=? RD=? -- read
whismanoid 0:3edb3708c8c5 3669 // %I^ cmd=? -- i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 3670 //g_I2C_SCL_Hz = (F_CPU / ((TWBR * 2) + 16)); // 'F_CPU' 'TWBR' not declared in this scope
whismanoid 0:3edb3708c8c5 3671 cmdLine.serial().printf("\r\n %%IC ADDR=0x%2.2x=(0x%2.2x>>1) SCL=%d=%1.3fkHz -- I2C config",
whismanoid 0:3edb3708c8c5 3672 g_I2C_deviceAddress7, (g_I2C_deviceAddress7 << 1), g_I2C_SCL_Hz,
whismanoid 0:3edb3708c8c5 3673 (g_I2C_SCL_Hz / 1000.));
whismanoid 0:3edb3708c8c5 3674 cmdLine.serial().printf("\r\n %%IW byte byte ... byte RD=? ADDR=0x%2.2x -- I2C write/read",
whismanoid 0:3edb3708c8c5 3675 g_I2C_deviceAddress7);
whismanoid 0:3edb3708c8c5 3676 //
whismanoid 0:3edb3708c8c5 3677 #if SUPPORT_I2C
whismanoid 0:3edb3708c8c5 3678 // Menu ^ cmd=?) i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 3679 cmdLine.serial().printf("\r\n %%I^ cmd=? -- i2c_smbus_read_word_data");
whismanoid 0:3edb3708c8c5 3680 // test low-level I2C i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 3681 #endif // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 3682 //cmdLine.serial().printf(" H) Hunt for attached I2C devices");
whismanoid 0:3edb3708c8c5 3683 cmdLine.serial().printf("\r\n %%IP -- I2C Probe for attached devices");
whismanoid 0:3edb3708c8c5 3684 // cmdLine.serial().printf(" s) search i2c address");
whismanoid 0:3edb3708c8c5 3685 #endif // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 3686
whismanoid 0:3edb3708c8c5 3687 #if HAS_SPI // SUPPORT_SPI
whismanoid 0:3edb3708c8c5 3688 // TODO: support SPI HAS_SPI // SUPPORT_SPI
whismanoid 0:3edb3708c8c5 3689 // SPI test command S (mosiData)+
whismanoid 0:3edb3708c8c5 3690 // %S... -- SPI diagnostics
whismanoid 0:3edb3708c8c5 3691 // %SC sclk=1Mhz -- SPI configure
whismanoid 0:3edb3708c8c5 3692 // %SW -- write (write and read)
whismanoid 0:3edb3708c8c5 3693 // %SR -- read (alias for %SW because SPI always write and read)
whismanoid 0:3edb3708c8c5 3694 // spi.format(8,0); // int bits_must_be_8, int mode=0_3 CPOL=0,CPHA=0 rising edge (initial default)
whismanoid 0:3edb3708c8c5 3695 // spi.format(8,1); // int bits_must_be_8, int mode=0_3 CPOL=0,CPHA=1 falling edge (initial default)
whismanoid 0:3edb3708c8c5 3696 // spi.format(8,2); // int bits_must_be_8, int mode=0_3 CPOL=1,CPHA=0 falling edge (initial default)
whismanoid 0:3edb3708c8c5 3697 // spi.format(8,3); // int bits_must_be_8, int mode=0_3 CPOL=1,CPHA=1 rising edge (initial default)
whismanoid 0:3edb3708c8c5 3698 // spi.frequency(1000000); // int SCLK_Hz=1000000 = 1MHz (initial default)
whismanoid 0:3edb3708c8c5 3699 // mode | POL PHA
whismanoid 0:3edb3708c8c5 3700 // -----+--------
whismanoid 0:3edb3708c8c5 3701 // 0 | 0 0
whismanoid 0:3edb3708c8c5 3702 // 1 | 0 1
whismanoid 0:3edb3708c8c5 3703 // 2 | 1 0
whismanoid 0:3edb3708c8c5 3704 // 3 | 1 1
whismanoid 0:3edb3708c8c5 3705 //cmdLine.serial().printf(" S) SPI mosi,mosi,...mosi hex bytes SCLK=1000000 CPOL=0 CPHA=0");
whismanoid 0:3edb3708c8c5 3706 // fixed: mbed-os-5.11: [Warning] format '%d' expects argument of type 'int', but argument 3 has type 'uint32_t {aka long unsigned int}' [-Wformat=]
whismanoid 0:3edb3708c8c5 3707 cmdLine.serial().printf("\r\n %%SC SCLK=%ld=%1.3fMHz CPOL=%d CPHA=%d -- SPI config",
whismanoid 0:3edb3708c8c5 3708 g_SPI_SCLK_Hz, (g_SPI_SCLK_Hz / 1000000.),
whismanoid 0:3edb3708c8c5 3709 ((g_SPI_dataMode & SPI_MODE2) ? 1 : 0),
whismanoid 0:3edb3708c8c5 3710 ((g_SPI_dataMode & SPI_MODE1) ? 1 : 0));
whismanoid 0:3edb3708c8c5 3711 cmdLine.serial().printf("\r\n %%SW mosi,mosi,...mosi -- SPI write hex bytes");
whismanoid 0:3edb3708c8c5 3712 // VERIFY: parse new SPI settings parse_strCommandArgs() SCLK=1000000 CPOL=0 CPHA=0
whismanoid 0:3edb3708c8c5 3713 #endif // SUPPORT_SPI
whismanoid 0:3edb3708c8c5 3714 //
whismanoid 0:3edb3708c8c5 3715 // Application-specific commands (help text) here
whismanoid 0:3edb3708c8c5 3716 //
whismanoid 0:3edb3708c8c5 3717 #if APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 3718 # if APPLICATION_MAX5715 // main_menu_help
whismanoid 0:3edb3708c8c5 3719 # elif APPLICATION_MAX11131 // main_menu_help
whismanoid 0:3edb3708c8c5 3720 # elif APPLICATION_MAX5171 // main_menu_help
whismanoid 0:3edb3708c8c5 3721 # elif APPLICATION_MAX11410 // main_menu_help
whismanoid 0:3edb3708c8c5 3722 # elif APPLICATION_MAX12345 // main_menu_help
whismanoid 0:3edb3708c8c5 3723 # else
whismanoid 0:3edb3708c8c5 3724 cmdLine.serial().printf("\r\n A-Z,a-z,0-9 -- reserved for application use"); // ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 3725 # endif
whismanoid 0:3edb3708c8c5 3726 #endif // APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 3727 //
whismanoid 0:3edb3708c8c5 3728 #if APPLICATION_MAX5715 // main_menu_help
whismanoid 0:3edb3708c8c5 3729 cmdLine.serial().printf("\r\n 0 ch=? code=? -- CODEn");
whismanoid 0:3edb3708c8c5 3730 cmdLine.serial().printf("\r\n 1 ch=? -- LOADn");
whismanoid 0:3edb3708c8c5 3731 cmdLine.serial().printf("\r\n 2 ch=? code=? -- CODEnLOADall");
whismanoid 0:3edb3708c8c5 3732 cmdLine.serial().printf("\r\n 3 ch=? code=? -- CODEnLOADn");
whismanoid 0:3edb3708c8c5 3733 cmdLine.serial().printf("\r\n 40 ch=? -- POWERn_Normal");
whismanoid 0:3edb3708c8c5 3734 cmdLine.serial().printf("\r\n 41 ch=? -- POWERn_PD1k");
whismanoid 0:3edb3708c8c5 3735 cmdLine.serial().printf("\r\n 42 ch=? -- POWERn_PD100k");
whismanoid 0:3edb3708c8c5 3736 cmdLine.serial().printf("\r\n 43 ch=? -- POWERn_PDHiZ");
whismanoid 0:3edb3708c8c5 3737 cmdLine.serial().printf("\r\n 50 -- SW_CLEAR");
whismanoid 0:3edb3708c8c5 3738 cmdLine.serial().printf("\r\n 51 -- SW_RESET");
whismanoid 0:3edb3708c8c5 3739 cmdLine.serial().printf("\r\n 60 ch=? -- CONFIGn_LATCHED");
whismanoid 0:3edb3708c8c5 3740 cmdLine.serial().printf("\r\n 61 ch=? -- CONFIGn_TRANSPARENT");
whismanoid 0:3edb3708c8c5 3741 cmdLine.serial().printf("\r\n 68 -- CONFIGall_LATCHED");
whismanoid 0:3edb3708c8c5 3742 cmdLine.serial().printf("\r\n 69 -- CONFIGall_TRANSPARENT");
whismanoid 0:3edb3708c8c5 3743 cmdLine.serial().printf("\r\n 70 -- REF_EXT");
whismanoid 0:3edb3708c8c5 3744 cmdLine.serial().printf("\r\n 71 -- REF_2V500");
whismanoid 0:3edb3708c8c5 3745 cmdLine.serial().printf("\r\n 72 -- REF_2V048");
whismanoid 0:3edb3708c8c5 3746 cmdLine.serial().printf("\r\n 73 -- REF_4V096");
whismanoid 0:3edb3708c8c5 3747 cmdLine.serial().printf("\r\n 74 -- REF_AlwaysOn_EXT");
whismanoid 0:3edb3708c8c5 3748 cmdLine.serial().printf("\r\n 75 -- REF_AlwaysOn_2V500");
whismanoid 0:3edb3708c8c5 3749 cmdLine.serial().printf("\r\n 76 -- REF_AlwaysOn_2V048");
whismanoid 0:3edb3708c8c5 3750 cmdLine.serial().printf("\r\n 77 -- REF_AlwaysOn_4V096");
whismanoid 0:3edb3708c8c5 3751 cmdLine.serial().printf("\r\n 80 code=? -- CODEall");
whismanoid 0:3edb3708c8c5 3752 cmdLine.serial().printf("\r\n 81 -- LOADall");
whismanoid 0:3edb3708c8c5 3753 cmdLine.serial().printf("\r\n 82 code=? -- CODEallLOADall");
whismanoid 0:3edb3708c8c5 3754 //cmdLine.serial().printf("\r\n 83 code=? -- CODEallLOADall");
whismanoid 0:3edb3708c8c5 3755 //
whismanoid 0:3edb3708c8c5 3756 // Menu @ -- print device configuration
whismanoid 0:3edb3708c8c5 3757 cmdLine.serial().printf("\r\n @ -- print MAX5715 configuration");
whismanoid 0:3edb3708c8c5 3758 //
whismanoid 0:3edb3708c8c5 3759 // MAX5717 menu function to drive MAX5717_LDACb_Pin LDAC#
whismanoid 0:3edb3708c8c5 3760 // Note: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 3761 cmdLine.serial().printf("\r\n L -- LDAC# pulse LH high LL low");
whismanoid 0:3edb3708c8c5 3762 // MAX5717 menu function to drive MAX5717_CLRb_Pin CLR#
whismanoid 0:3edb3708c8c5 3763 cmdLine.serial().printf("\r\n C -- CLR# pulse CH high CL low");
whismanoid 0:3edb3708c8c5 3764 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 3765 //
whismanoid 0:3edb3708c8c5 3766 #if APPLICATION_MAX11131 // main_menu_help
whismanoid 0:3edb3708c8c5 3767 // VERIFY: console menu command 0 int16_t MAX11131_ScanRead(void);
whismanoid 0:3edb3708c8c5 3768 cmdLine.serial().printf("\r\n 0 n=? -- MAX11131_ScanRead");
whismanoid 0:3edb3708c8c5 3769 // VERIFY: console menu command 1 MAX11131_ScanManual(int channelNumber_0_15, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 3770 cmdLine.serial().printf("\r\n 1 ch=? pm=? id=? -- MAX11131_ScanManual");
whismanoid 0:3edb3708c8c5 3771 // VERIFY: console menu command 2 int MAX11131_ScanRepeat(uint8_t channelNumber_0_15, uint8_t average_0_4_8_16_32, uint8_t nscan_4_8_12_16, uint8_t PowerManagement_0_2, uint8_t swcnv_0_1);
whismanoid 0:3edb3708c8c5 3772 cmdLine.serial().printf("\r\n 2 ch=? av=? n=? pm=? swcnv=? -- MAX11131_ScanRepeat");
whismanoid 0:3edb3708c8c5 3773 // VERIFY: console menu command 3 MAX11131_ScanStandardInternalClock(int channelNumber_0_15, int average_0_4_8_16_32, int PowerManagement_0_2, int swcnv_0_1);
whismanoid 0:3edb3708c8c5 3774 cmdLine.serial().printf("\r\n 3 ch=? av=? pm=? swcnv=? -- MAX11131_ScanStandardIntClock");
whismanoid 0:3edb3708c8c5 3775 // VERIFY: console menu command 4 MAX11131_ScanStandardExternalClock(int channelNumber_0_15, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 3776 cmdLine.serial().printf("\r\n 4 ch=? pm=? id=? -- MAX11131_ScanStandardExtClock");
whismanoid 0:3edb3708c8c5 3777 // VERIFY: console menu command 5 MAX11131_ScanUpperInternalClock(int channelNumber_0_15, int average_0_4_8_16_32, int PowerManagement_0_2, int swcnv_0_1);
whismanoid 0:3edb3708c8c5 3778 cmdLine.serial().printf("\r\n 5 ch=? av=? pm=? swcnv=? -- MAX11131_ScanUpperIntClock");
whismanoid 0:3edb3708c8c5 3779 // VERIFY: console menu command 6 MAX11131_ScanUpperExternalClock(int channelNumber_0_15, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 3780 cmdLine.serial().printf("\r\n 6 ch=? pm=? id=? -- MAX11131_ScanUpperExtClock");
whismanoid 0:3edb3708c8c5 3781 // VERIFY: console menu command 7 MAX11131_ScanCustomInternalClock(int16_t enabledChannelsMask, int average_0_4_8_16_32, int PowerManagement_0_2, int swcnv_0_1);
whismanoid 0:3edb3708c8c5 3782 cmdLine.serial().printf("\r\n 7 enableMask=0xffff av=? pm=? swcnv=? -- MAX11131_ScanCustomIntClock");
whismanoid 0:3edb3708c8c5 3783 // VERIFY: console menu command 8 MAX11131_ScanCustomExternalClock(int16_t enabledChannelsMask, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 3784 cmdLine.serial().printf("\r\n 8 enableMask=0xffff pm=0 id=1 -- MAX11131_ScanCustomExtClock");
whismanoid 0:3edb3708c8c5 3785 // VERIFY: console menu command 9 MAX11131_ScanSampleSetExternalClock(uint8_t enabledChannelsPatternLength_1_256, int16_t enabledChannelsPattern[], int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 3786 cmdLine.serial().printf("\r\n 9 channelsPattern... pm=? id=? | len=? -- MAX11131_ScanSampleSetExtClock");
whismanoid 0:3edb3708c8c5 3787 cmdLine.serial().printf("\r\n @ -- print MAX11131 configuration");
whismanoid 0:3edb3708c8c5 3788 cmdLine.serial().printf("\r\n ISc) IUc) IBc) IRc) reconfigure channel single-ended/unipolar/bipolar/range");
whismanoid 0:3edb3708c8c5 3789 // cmdLine.serial().printf("\r\n & -- MAX11131_Example_ScanManual");
whismanoid 0:3edb3708c8c5 3790 // Note: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 3791 #endif // APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 3792 //
whismanoid 0:3edb3708c8c5 3793 #if APPLICATION_MAX5171 // main_menu_help
whismanoid 0:3edb3708c8c5 3794 // TODO1: MAX5171 main_menu_help
whismanoid 0:3edb3708c8c5 3795 cmdLine.serial().printf("\r\n 0 code=? -- CODE");
whismanoid 0:3edb3708c8c5 3796 cmdLine.serial().printf("\r\n 4 code=? -- CODE_LOAD");
whismanoid 0:3edb3708c8c5 3797 cmdLine.serial().printf("\r\n 8 -- LOAD");
whismanoid 0:3edb3708c8c5 3798 cmdLine.serial().printf("\r\n c -- NOP");
whismanoid 0:3edb3708c8c5 3799 cmdLine.serial().printf("\r\n d -- SHUTDOWN");
whismanoid 0:3edb3708c8c5 3800 cmdLine.serial().printf("\r\n e0 -- UPO_LOW");
whismanoid 0:3edb3708c8c5 3801 cmdLine.serial().printf("\r\n e8 -- UPO_HIGH");
whismanoid 0:3edb3708c8c5 3802 cmdLine.serial().printf("\r\n f0 -- MODE1_DOUT_SCLK_RISING_EDGE");
whismanoid 0:3edb3708c8c5 3803 cmdLine.serial().printf("\r\n f8 -- MODE0_DOUT_SCLK_FALLING_EDGE");
whismanoid 0:3edb3708c8c5 3804 // Note: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 3805 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 3806 //
whismanoid 0:3edb3708c8c5 3807 #if APPLICATION_MAX11410 // main_menu_help
whismanoid 0:3edb3708c8c5 3808 // TODO1: MAX11410 main_menu_help
whismanoid 0:3edb3708c8c5 3809 cmdLine.serial().printf("\r\n w reg=? data=? -- write register");
whismanoid 0:3edb3708c8c5 3810 cmdLine.serial().printf("\r\n r reg=? -- read register");
whismanoid 0:3edb3708c8c5 3811 cmdLine.serial().printf("\r\n TC -- thermocouple config");
whismanoid 0:3edb3708c8c5 3812 cmdLine.serial().printf("\r\n T -- RTD measurement");
whismanoid 0:3edb3708c8c5 3813 cmdLine.serial().printf("\r\n RC -- thermocouple config");
whismanoid 0:3edb3708c8c5 3814 cmdLine.serial().printf("\r\n R -- RTD measurement");
whismanoid 0:3edb3708c8c5 3815 // Note: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 3816 #endif // APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 3817 //
whismanoid 0:3edb3708c8c5 3818 #if APPLICATION_MAX12345 // main_menu_help
whismanoid 0:3edb3708c8c5 3819 cmdLine.serial().printf("\r\n 0 -- something");
whismanoid 0:3edb3708c8c5 3820 cmdLine.serial().printf("\r\n 1 -- something");
whismanoid 0:3edb3708c8c5 3821 cmdLine.serial().printf("\r\n 2 -- something");
whismanoid 0:3edb3708c8c5 3822 cmdLine.serial().printf("\r\n A -- something");
whismanoid 0:3edb3708c8c5 3823 cmdLine.serial().printf("\r\n B -- something");
whismanoid 0:3edb3708c8c5 3824 cmdLine.serial().printf("\r\n C -- something");
whismanoid 0:3edb3708c8c5 3825 // Note: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 3826 #endif // APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 3827 //
whismanoid 0:3edb3708c8c5 3828 }
whismanoid 0:3edb3708c8c5 3829
whismanoid 0:3edb3708c8c5 3830 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 3831 // main menu command-line parser
whismanoid 0:3edb3708c8c5 3832 // invoked by CmdLine::append(char ch) or CmdLine::idleAppendIfReadable()
whismanoid 0:3edb3708c8c5 3833 void main_menu_onEOLcommandParser(CmdLine & cmdLine)
whismanoid 0:3edb3708c8c5 3834 {
whismanoid 0:3edb3708c8c5 3835 // DIAGNOSTIC: print line buffer
whismanoid 0:3edb3708c8c5 3836 //~ cmdLine.serial().printf("\r\nmain_menu_onEOLcommandParser: ~%s~\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 3837 //
whismanoid 0:3edb3708c8c5 3838 switch (cmdLine[0])
whismanoid 0:3edb3708c8c5 3839 {
whismanoid 0:3edb3708c8c5 3840 case '?':
whismanoid 0:3edb3708c8c5 3841 main_menu_status(cmdLine);
whismanoid 0:3edb3708c8c5 3842 main_menu_help(cmdLine);
whismanoid 0:3edb3708c8c5 3843 // print command prompt
whismanoid 0:3edb3708c8c5 3844 //cmdLine.serial().printf("\r\n>");
whismanoid 0:3edb3708c8c5 3845 break;
whismanoid 0:3edb3708c8c5 3846 case '\r': case '\n': // ignore blank line
whismanoid 0:3edb3708c8c5 3847 case '\0': // ignore empty line
whismanoid 0:3edb3708c8c5 3848 case '#': // ignore comment line
whismanoid 0:3edb3708c8c5 3849 // # -- lines beginning with # are comments
whismanoid 0:3edb3708c8c5 3850 main_menu_status(cmdLine);
whismanoid 0:3edb3708c8c5 3851 //~ main_menu_help(cmdLine);
whismanoid 0:3edb3708c8c5 3852 // print command prompt
whismanoid 0:3edb3708c8c5 3853 //cmdLine.serial().printf("\r\n>");
whismanoid 0:3edb3708c8c5 3854 break;
whismanoid 0:3edb3708c8c5 3855 #if ECHO_EOF_ON_EOL
whismanoid 0:3edb3708c8c5 3856 case '\x04': // Unicode (U+0004) EOT END OF TRANSMISSION = CTRL+D as EOF end of file
whismanoid 0:3edb3708c8c5 3857 cmdLine.serial().printf("\x04"); // immediately echo EOF for test scripting
whismanoid 0:3edb3708c8c5 3858 diagnostic_led_EOF();
whismanoid 0:3edb3708c8c5 3859 break;
whismanoid 0:3edb3708c8c5 3860 case '\x1a': // Unicode (U+001A) SUB SUBSTITUTE = CTRL+Z as EOF end of file
whismanoid 0:3edb3708c8c5 3861 cmdLine.serial().printf("\x1a"); // immediately echo EOF for test scripting
whismanoid 0:3edb3708c8c5 3862 diagnostic_led_EOF();
whismanoid 0:3edb3708c8c5 3863 break;
whismanoid 0:3edb3708c8c5 3864 #endif
whismanoid 0:3edb3708c8c5 3865 #if APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 3866 case '.':
whismanoid 0:3edb3708c8c5 3867 {
whismanoid 0:3edb3708c8c5 3868 // . -- SelfTest
whismanoid 0:3edb3708c8c5 3869 cmdLine.serial().printf("SelfTest()");
whismanoid 0:3edb3708c8c5 3870 SelfTest(cmdLine);
whismanoid 0:3edb3708c8c5 3871 }
whismanoid 0:3edb3708c8c5 3872 break;
whismanoid 0:3edb3708c8c5 3873 case '%':
whismanoid 0:3edb3708c8c5 3874 {
whismanoid 0:3edb3708c8c5 3875 // TODO: consolidate "Arduino Pins Monitor" under '%' submenu -- APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 3876 // % standardize diagnostic commands
whismanoid 0:3edb3708c8c5 3877 // %Hpin -- digital output high
whismanoid 0:3edb3708c8c5 3878 // %Lpin -- digital output low
whismanoid 0:3edb3708c8c5 3879 // %?pin -- digital input
whismanoid 0:3edb3708c8c5 3880 // %A %Apin -- analog input
whismanoid 0:3edb3708c8c5 3881 // %Ppin df=xx -- pwm output
whismanoid 0:3edb3708c8c5 3882 // %Wpin -- measure high pulsewidth input in usec
whismanoid 0:3edb3708c8c5 3883 // %wpin -- measure low pulsewidth input in usec
whismanoid 0:3edb3708c8c5 3884 // %I... -- I2C diagnostics
whismanoid 0:3edb3708c8c5 3885 // %IP -- I2C probe
whismanoid 0:3edb3708c8c5 3886 // %IC scl=100khz ADDR=? -- I2C configure
whismanoid 0:3edb3708c8c5 3887 // %IW byte byte ... byte RD=? ADDR=0x -- write
whismanoid 0:3edb3708c8c5 3888 // %IR ADDR=? RD=? -- read
whismanoid 0:3edb3708c8c5 3889 // %I^ cmd=? -- i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 3890 // %S... -- SPI diagnostics
whismanoid 0:3edb3708c8c5 3891 // %SC sclk=1Mhz -- SPI configure
whismanoid 0:3edb3708c8c5 3892 // %SW -- write (write and read)
whismanoid 0:3edb3708c8c5 3893 // %SR -- read (alias for %SW because SPI always write and read)
whismanoid 0:3edb3708c8c5 3894 // A-Z,a-z,0-9 reserved for application use
whismanoid 0:3edb3708c8c5 3895 //
whismanoid 0:3edb3708c8c5 3896 // get pinIndex from cmdLine[2]
whismanoid 0:3edb3708c8c5 3897 //int pinIndex = cmdLine[2];
whismanoid 0:3edb3708c8c5 3898 // *** warning: pointer of type 'void *' used in arithmetic [-Wpointer-arith]
whismanoid 0:3edb3708c8c5 3899 //int pinIndex = strtoul((char *)((void *)(cmdLine.str()) + 2), NULL, 10); // strtol(str, NULL, 10): get decimal value
whismanoid 0:3edb3708c8c5 3900 // ^
whismanoid 0:3edb3708c8c5 3901 char strPinIndex[3];
whismanoid 0:3edb3708c8c5 3902 strPinIndex[0] = cmdLine[2];
whismanoid 0:3edb3708c8c5 3903 strPinIndex[1] = cmdLine[3];
whismanoid 0:3edb3708c8c5 3904 strPinIndex[2] = '\0';
whismanoid 0:3edb3708c8c5 3905 int pinIndex = strtoul(strPinIndex, NULL, 10); // strtol(str, NULL, 10): get decimal value
whismanoid 0:3edb3708c8c5 3906 //cmdLine.serial().printf(" pinIndex=%d ", pinIndex);
whismanoid 0:3edb3708c8c5 3907 //
whismanoid 0:3edb3708c8c5 3908 // get next character
whismanoid 0:3edb3708c8c5 3909 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 3910 {
whismanoid 0:3edb3708c8c5 3911 #if HAS_digitalInOuts
whismanoid 0:3edb3708c8c5 3912 case 'H': case 'h':
whismanoid 0:3edb3708c8c5 3913 {
whismanoid 0:3edb3708c8c5 3914 // %Hpin -- digital output high
whismanoid 0:3edb3708c8c5 3915 #if ARDUINO_STYLE
whismanoid 0:3edb3708c8c5 3916 pinMode(pinIndex, OUTPUT); // digital pins 0, 1, 2, .. 13, analog input pins A0, A1, .. A5
whismanoid 0:3edb3708c8c5 3917 digitalWrite(pinIndex, HIGH); // digital pins 0, 1, 2, .. 13, analog input pins A0, A1, .. A5
whismanoid 0:3edb3708c8c5 3918 #else
whismanoid 0:3edb3708c8c5 3919 DigitalInOut& digitalInOutPin = find_digitalInOutPin(pinIndex);
whismanoid 0:3edb3708c8c5 3920 digitalInOutPin.output();
whismanoid 0:3edb3708c8c5 3921 digitalInOutPin.write(1);
whismanoid 0:3edb3708c8c5 3922 #endif
whismanoid 0:3edb3708c8c5 3923 cmdLine.serial().printf(" digitalInOutPin %d Output High ", pinIndex);
whismanoid 0:3edb3708c8c5 3924 }
whismanoid 0:3edb3708c8c5 3925 break;
whismanoid 0:3edb3708c8c5 3926 case 'L': case 'l':
whismanoid 0:3edb3708c8c5 3927 {
whismanoid 0:3edb3708c8c5 3928 // %Lpin -- digital output low
whismanoid 0:3edb3708c8c5 3929 #if ARDUINO_STYLE
whismanoid 0:3edb3708c8c5 3930 pinMode(pinIndex, OUTPUT); // digital pins 0, 1, 2, .. 13, analog input pins A0, A1, .. A5
whismanoid 0:3edb3708c8c5 3931 digitalWrite(pinIndex, LOW); // digital pins 0, 1, 2, .. 13, analog input pins A0, A1, .. A5
whismanoid 0:3edb3708c8c5 3932 #else
whismanoid 0:3edb3708c8c5 3933 DigitalInOut& digitalInOutPin = find_digitalInOutPin(pinIndex);
whismanoid 0:3edb3708c8c5 3934 digitalInOutPin.output();
whismanoid 0:3edb3708c8c5 3935 digitalInOutPin.write(0);
whismanoid 0:3edb3708c8c5 3936 #endif
whismanoid 0:3edb3708c8c5 3937 cmdLine.serial().printf(" digitalInOutPin %d Output Low ", pinIndex);
whismanoid 0:3edb3708c8c5 3938 }
whismanoid 0:3edb3708c8c5 3939 break;
whismanoid 0:3edb3708c8c5 3940 case '?':
whismanoid 0:3edb3708c8c5 3941 {
whismanoid 0:3edb3708c8c5 3942 // %?pin -- digital input
whismanoid 0:3edb3708c8c5 3943 #if ARDUINO_STYLE
whismanoid 0:3edb3708c8c5 3944 pinMode(pinIndex, INPUT); // digital pins 0, 1, 2, .. 13, analog input pins A0, A1, .. A5
whismanoid 0:3edb3708c8c5 3945 #else
whismanoid 0:3edb3708c8c5 3946 DigitalInOut& digitalInOutPin = find_digitalInOutPin(pinIndex);
whismanoid 0:3edb3708c8c5 3947 digitalInOutPin.input();
whismanoid 0:3edb3708c8c5 3948 #endif
whismanoid 7:bf501f8cb637 3949 serial.printf(" digitalInOutPin %d Input ", pinIndex);
whismanoid 0:3edb3708c8c5 3950 #if ARDUINO_STYLE
whismanoid 0:3edb3708c8c5 3951 int value = digitalRead(pinIndex);
whismanoid 0:3edb3708c8c5 3952 #else
whismanoid 0:3edb3708c8c5 3953 int value = digitalInOutPin.read();
whismanoid 0:3edb3708c8c5 3954 #endif
whismanoid 0:3edb3708c8c5 3955 cmdLine.serial().printf("%d ", value);
whismanoid 0:3edb3708c8c5 3956 }
whismanoid 0:3edb3708c8c5 3957 break;
whismanoid 0:3edb3708c8c5 3958 #endif
whismanoid 0:3edb3708c8c5 3959 //
whismanoid 0:3edb3708c8c5 3960 #if HAS_analogIns
whismanoid 0:3edb3708c8c5 3961 case 'A': case 'a':
whismanoid 0:3edb3708c8c5 3962 {
whismanoid 0:3edb3708c8c5 3963 // %A %Apin -- analog input
whismanoid 0:3edb3708c8c5 3964 #if analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 3965 // Platform board uses AIN4,AIN5,.. as high range of AIN0,AIN1,..
whismanoid 0:3edb3708c8c5 3966 for (int pinIndex = 0; pinIndex < 2; pinIndex++)
whismanoid 0:3edb3708c8c5 3967 {
whismanoid 0:3edb3708c8c5 3968 int cPinIndex = '0' + pinIndex;
whismanoid 0:3edb3708c8c5 3969 AnalogIn& analogInPin = find_analogInPin(cPinIndex);
whismanoid 0:3edb3708c8c5 3970 float adc_full_scale_voltage = analogInPin_fullScaleVoltage[pinIndex];
whismanoid 0:3edb3708c8c5 3971 float normValue_0_1 = analogInPin.read();
whismanoid 0:3edb3708c8c5 3972 //
whismanoid 0:3edb3708c8c5 3973 int pinIndexH = pinIndex + 4;
whismanoid 0:3edb3708c8c5 3974 int cPinIndexH = '0' + pinIndexH;
whismanoid 0:3edb3708c8c5 3975 AnalogIn& analogInPinH = find_analogInPin(cPinIndexH);
whismanoid 0:3edb3708c8c5 3976 float adc_full_scale_voltageH = analogInPin_fullScaleVoltage[pinIndexH];
whismanoid 0:3edb3708c8c5 3977 float normValueH_0_1 = analogInPinH.read();
whismanoid 0:3edb3708c8c5 3978 //
whismanoid 0:3edb3708c8c5 3979 cmdLine.serial().printf("AIN%c = %7.3f%% = %1.3fV AIN%c = %7.3f%% = %1.3fV \r\n",
whismanoid 0:3edb3708c8c5 3980 cPinIndex,
whismanoid 0:3edb3708c8c5 3981 normValue_0_1 * 100.0,
whismanoid 0:3edb3708c8c5 3982 normValue_0_1 * adc_full_scale_voltage,
whismanoid 0:3edb3708c8c5 3983 cPinIndexH,
whismanoid 0:3edb3708c8c5 3984 normValueH_0_1 * 100.0,
whismanoid 0:3edb3708c8c5 3985 normValueH_0_1 * adc_full_scale_voltageH
whismanoid 0:3edb3708c8c5 3986 );
whismanoid 0:3edb3708c8c5 3987 }
whismanoid 0:3edb3708c8c5 3988 for (int pinIndex = 2; pinIndex < 4; pinIndex++)
whismanoid 0:3edb3708c8c5 3989 {
whismanoid 0:3edb3708c8c5 3990 int cPinIndex = '0' + pinIndex;
whismanoid 0:3edb3708c8c5 3991 AnalogIn& analogInPin = find_analogInPin(cPinIndex);
whismanoid 0:3edb3708c8c5 3992 float adc_full_scale_voltage = analogInPin_fullScaleVoltage[pinIndex];
whismanoid 0:3edb3708c8c5 3993 float normValue_0_1 = analogInPin.read();
whismanoid 0:3edb3708c8c5 3994 //
whismanoid 0:3edb3708c8c5 3995 cmdLine.serial().printf("AIN%c = %7.3f%% = %1.3fV\r\n",
whismanoid 0:3edb3708c8c5 3996 cPinIndex,
whismanoid 0:3edb3708c8c5 3997 normValue_0_1 * 100.0,
whismanoid 0:3edb3708c8c5 3998 normValue_0_1 * adc_full_scale_voltage
whismanoid 0:3edb3708c8c5 3999 );
whismanoid 0:3edb3708c8c5 4000 }
whismanoid 0:3edb3708c8c5 4001 #else // analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 4002 // Platform board uses simple analog inputs
whismanoid 0:3edb3708c8c5 4003 // assume standard Arduino analog inputs A0-A5
whismanoid 0:3edb3708c8c5 4004 for (int pinIndex = 0; pinIndex < 6; pinIndex++)
whismanoid 0:3edb3708c8c5 4005 {
whismanoid 0:3edb3708c8c5 4006 int cPinIndex = '0' + pinIndex;
whismanoid 0:3edb3708c8c5 4007 AnalogIn& analogInPin = find_analogInPin(cPinIndex);
whismanoid 0:3edb3708c8c5 4008 float adc_full_scale_voltage = analogInPin_fullScaleVoltage[pinIndex];
whismanoid 0:3edb3708c8c5 4009 float normValue_0_1 = analogInPin.read();
whismanoid 0:3edb3708c8c5 4010 //
whismanoid 0:3edb3708c8c5 4011 cmdLine.serial().printf("AIN%c = %7.3f%% = %1.3fV\r\n",
whismanoid 0:3edb3708c8c5 4012 cPinIndex,
whismanoid 0:3edb3708c8c5 4013 normValue_0_1 * 100.0,
whismanoid 0:3edb3708c8c5 4014 normValue_0_1 * adc_full_scale_voltage
whismanoid 0:3edb3708c8c5 4015 );
whismanoid 0:3edb3708c8c5 4016 }
whismanoid 0:3edb3708c8c5 4017 #endif // analogIn4_IS_HIGH_RANGE_OF_analogIn0
whismanoid 0:3edb3708c8c5 4018 }
whismanoid 0:3edb3708c8c5 4019 break;
whismanoid 0:3edb3708c8c5 4020 #endif
whismanoid 0:3edb3708c8c5 4021 //
whismanoid 0:3edb3708c8c5 4022 #if HAS_SPI2_MAX541
whismanoid 0:3edb3708c8c5 4023 case 'D': case 'd':
whismanoid 0:3edb3708c8c5 4024 {
whismanoid 0:3edb3708c8c5 4025 // %D -- DAC output MAX541 (SPI2) -- need cmdLine.parse_float(voltageV)
whismanoid 0:3edb3708c8c5 4026 // MAX541 max541(spi2_max541, spi2_max541_cs);
whismanoid 0:3edb3708c8c5 4027 float voltageV = max541.Get_Voltage();
whismanoid 0:3edb3708c8c5 4028 // if (cmdLine[2] == '+') {
whismanoid 0:3edb3708c8c5 4029 // // %D+
whismanoid 0:3edb3708c8c5 4030 // voltageV = voltageV * 1.25f;
whismanoid 0:3edb3708c8c5 4031 // if (voltageV >= max541.VRef) voltageV = max541.VRef;
whismanoid 0:3edb3708c8c5 4032 // SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 4033 // }
whismanoid 0:3edb3708c8c5 4034 // else if (cmdLine[2] == '-') {
whismanoid 0:3edb3708c8c5 4035 // // %D-
whismanoid 0:3edb3708c8c5 4036 // voltageV = voltageV * 0.75f;
whismanoid 0:3edb3708c8c5 4037 // if (voltageV < 0.1f) voltageV = 0.1f;
whismanoid 0:3edb3708c8c5 4038 // SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 4039 // }
whismanoid 0:3edb3708c8c5 4040 if (cmdLine.parse_float("V", voltageV))
whismanoid 0:3edb3708c8c5 4041 {
whismanoid 0:3edb3708c8c5 4042 // %D V=1.234 -- set voltage
whismanoid 0:3edb3708c8c5 4043 max541.Set_Voltage(voltageV);
whismanoid 0:3edb3708c8c5 4044 }
whismanoid 0:3edb3708c8c5 4045 else if (cmdLine.parse_float("TEST", voltageV))
whismanoid 0:3edb3708c8c5 4046 {
whismanoid 0:3edb3708c8c5 4047 // %D TEST=1.234 -- set voltage and compare with AIN0
whismanoid 0:3edb3708c8c5 4048 SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 4049 }
whismanoid 0:3edb3708c8c5 4050 else if (cmdLine.parse_float("CAL", voltageV))
whismanoid 0:3edb3708c8c5 4051 {
whismanoid 0:3edb3708c8c5 4052 // %D CAL=1.234 -- calibrate VRef and compare with AIN0
whismanoid 0:3edb3708c8c5 4053
whismanoid 0:3edb3708c8c5 4054 max541.Set_Code(0x8000); // we don't know the fullscale voltage yet, so set code to midscale
whismanoid 0:3edb3708c8c5 4055 double max541_midscale_V = analogInPin_fullScaleVoltage[4] * analogIn4.read(); // TARGET_MAX32630 J1.5 AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 4056 const int average_count = 100;
whismanoid 0:3edb3708c8c5 4057 const double average_K = 0.25;
whismanoid 0:3edb3708c8c5 4058 for (int count = 0; count < average_count; count++) {
whismanoid 0:3edb3708c8c5 4059 double measurement_V = analogInPin_fullScaleVoltage[4] * analogIn4.read(); // TARGET_MAX32630 J1.5 AIN_4 = AIN0 / 5.0 fullscale is 6.0V
whismanoid 0:3edb3708c8c5 4060 max541_midscale_V = ((1 - average_K) * max541_midscale_V) + (average_K * measurement_V);
whismanoid 0:3edb3708c8c5 4061 }
whismanoid 0:3edb3708c8c5 4062 max541.VRef = 2.0 * max541_midscale_V;
whismanoid 0:3edb3708c8c5 4063 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4064 "\r\n MAX541 midscale = %1.3fV, so fullscale = %1.3fV",
whismanoid 0:3edb3708c8c5 4065 max541_midscale_V, max541.VRef);
whismanoid 0:3edb3708c8c5 4066 // Detect whether MAX541 is really connected to MAX32625MBED.AIN0/AIN4
whismanoid 0:3edb3708c8c5 4067 voltageV = 1.0f;
whismanoid 0:3edb3708c8c5 4068 SelfTest_MAX541_Voltage(cmdLine, max541, voltageV);
whismanoid 0:3edb3708c8c5 4069 }
whismanoid 0:3edb3708c8c5 4070 else {
whismanoid 0:3edb3708c8c5 4071 // %D -- print MAX541 DAC status
whismanoid 0:3edb3708c8c5 4072 cmdLine.serial().printf("MAX541 code=0x%4.4x = %1.3fV VRef=%1.3fV\r\n",
whismanoid 0:3edb3708c8c5 4073 max541.Get_Code(), max541.Get_Voltage(), max541.VRef);
whismanoid 0:3edb3708c8c5 4074 }
whismanoid 0:3edb3708c8c5 4075 }
whismanoid 0:3edb3708c8c5 4076 break;
whismanoid 0:3edb3708c8c5 4077 #endif
whismanoid 0:3edb3708c8c5 4078
whismanoid 0:3edb3708c8c5 4079 //
whismanoid 0:3edb3708c8c5 4080 #if HAS_I2C // SUPPORT_I2C
whismanoid 0:3edb3708c8c5 4081 case 'I': case 'i':
whismanoid 0:3edb3708c8c5 4082 // %I... -- I2C diagnostics
whismanoid 0:3edb3708c8c5 4083 // %IP -- I2C probe
whismanoid 0:3edb3708c8c5 4084 // %IC scl=100khz ADDR=? -- I2C configure
whismanoid 0:3edb3708c8c5 4085 // %IW byte byte ... byte RD=? ADDR=0x -- write
whismanoid 0:3edb3708c8c5 4086 // %IR ADDR=? RD=? -- read
whismanoid 0:3edb3708c8c5 4087 // %I^ cmd=? -- i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 4088 // get next character
whismanoid 0:3edb3708c8c5 4089 // TODO: parse cmdLine arg (ADDR=\d+)? --> g_I2C_deviceAddress7
whismanoid 0:3edb3708c8c5 4090 cmdLine.parse_byte_hex("ADDR", g_I2C_deviceAddress7);
whismanoid 0:3edb3708c8c5 4091 // TODO: parse cmdLine arg (RD=\d)? --> g_I2C_read_count
whismanoid 0:3edb3708c8c5 4092 g_I2C_read_count = 0; // read count must be reset every command
whismanoid 0:3edb3708c8c5 4093 cmdLine.parse_byte_dec("RD", g_I2C_read_count);
whismanoid 0:3edb3708c8c5 4094 // TODO: parse cmdLine arg (CMD=\d)? --> g_I2C_command_regAddress
whismanoid 0:3edb3708c8c5 4095 cmdLine.parse_byte_hex("CMD", g_I2C_command_regAddress);
whismanoid 0:3edb3708c8c5 4096 switch (cmdLine[2])
whismanoid 0:3edb3708c8c5 4097 {
whismanoid 0:3edb3708c8c5 4098 case 'P': case 'p':
whismanoid 0:3edb3708c8c5 4099 {
whismanoid 0:3edb3708c8c5 4100 // %IP -- I2C probe
whismanoid 0:3edb3708c8c5 4101 HuntAttachedI2CDevices(cmdLine, 0x03, 0x77);
whismanoid 0:3edb3708c8c5 4102 }
whismanoid 0:3edb3708c8c5 4103 break;
whismanoid 0:3edb3708c8c5 4104 case 'C': case 'c':
whismanoid 0:3edb3708c8c5 4105 {
whismanoid 0:3edb3708c8c5 4106 bool isUpdatedI2CConfig = false;
whismanoid 0:3edb3708c8c5 4107 // %IC scl=100khz ADDR=? -- I2C configure
whismanoid 0:3edb3708c8c5 4108 // parse cmdLine arg (SCL=\d+(kHZ|MHZ)?)? --> g_I2C_SCL_Hz
whismanoid 0:3edb3708c8c5 4109 if (cmdLine.parse_frequency_Hz("SCL", g_I2C_SCL_Hz))
whismanoid 0:3edb3708c8c5 4110 {
whismanoid 0:3edb3708c8c5 4111 isUpdatedI2CConfig = true;
whismanoid 0:3edb3708c8c5 4112 // TODO1: validate g_I2C_SCL_Hz against system clock frequency F_CPU
whismanoid 0:3edb3708c8c5 4113 if (g_I2C_SCL_Hz > limit_max_I2C_SCL_Hz)
whismanoid 0:3edb3708c8c5 4114 {
whismanoid 0:3edb3708c8c5 4115 g_I2C_SCL_Hz = limit_max_I2C_SCL_Hz;
whismanoid 0:3edb3708c8c5 4116 }
whismanoid 0:3edb3708c8c5 4117 if (g_I2C_SCL_Hz < limit_min_I2C_SCL_Hz)
whismanoid 0:3edb3708c8c5 4118 {
whismanoid 0:3edb3708c8c5 4119 g_I2C_SCL_Hz = limit_min_I2C_SCL_Hz;
whismanoid 0:3edb3708c8c5 4120 }
whismanoid 0:3edb3708c8c5 4121 }
whismanoid 0:3edb3708c8c5 4122 if (isUpdatedI2CConfig)
whismanoid 0:3edb3708c8c5 4123 {
whismanoid 0:3edb3708c8c5 4124 // declare in narrower scope: MAX32625MBED I2C i2cMaster(...)
whismanoid 0:3edb3708c8c5 4125 I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 4126 i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 4127 i2cMaster.start();
whismanoid 0:3edb3708c8c5 4128 i2cMaster.stop();
whismanoid 0:3edb3708c8c5 4129 i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 4130 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4131 "\r\n %%IC ADDR=0x%2.2x=(0x%2.2x>>1) SCL=%d=%1.3fkHz -- I2C config",
whismanoid 0:3edb3708c8c5 4132 g_I2C_deviceAddress7, (g_I2C_deviceAddress7 << 1), g_I2C_SCL_Hz,
whismanoid 0:3edb3708c8c5 4133 (g_I2C_SCL_Hz / 1000.));
whismanoid 0:3edb3708c8c5 4134 i2cMaster.start();
whismanoid 0:3edb3708c8c5 4135 i2cMaster.stop();
whismanoid 0:3edb3708c8c5 4136 }
whismanoid 0:3edb3708c8c5 4137 }
whismanoid 0:3edb3708c8c5 4138 break;
whismanoid 0:3edb3708c8c5 4139 case 'W': case 'w':
whismanoid 0:3edb3708c8c5 4140 {
whismanoid 0:3edb3708c8c5 4141 // declare in narrower scope: MAX32625MBED I2C i2cMaster(...)
whismanoid 0:3edb3708c8c5 4142 I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 4143 i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 4144 // %IW byte byte ... byte RD=? ADDR=0x -- write
whismanoid 0:3edb3708c8c5 4145 // parse cmdLine byte list --> int byteCount; int mosiData[MAX_SPI_BYTE_COUNT];
whismanoid 0:3edb3708c8c5 4146 #define MAX_I2C_BYTE_COUNT 32
whismanoid 0:3edb3708c8c5 4147 size_t byteCount = byteCount;
whismanoid 0:3edb3708c8c5 4148 static char mosiData[MAX_I2C_BYTE_COUNT];
whismanoid 0:3edb3708c8c5 4149 static char misoData[MAX_I2C_BYTE_COUNT];
whismanoid 0:3edb3708c8c5 4150 if (cmdLine.parse_byteCount_byteList_hex(byteCount, mosiData,
whismanoid 0:3edb3708c8c5 4151 MAX_I2C_BYTE_COUNT))
whismanoid 0:3edb3708c8c5 4152 {
whismanoid 0:3edb3708c8c5 4153 // hex dump mosiData[0..byteCount-1]
whismanoid 0:3edb3708c8c5 4154 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4155 "\r\nADDR=0x%2.2x=(0x%2.2x>>1) byteCount:%d RD=%d\r\nI2C MOSI->",
whismanoid 0:3edb3708c8c5 4156 g_I2C_deviceAddress7,
whismanoid 0:3edb3708c8c5 4157 (g_I2C_deviceAddress7 << 1), byteCount, g_I2C_read_count);
whismanoid 0:3edb3708c8c5 4158 for (unsigned int byteIndex = 0; byteIndex < byteCount; byteIndex++)
whismanoid 0:3edb3708c8c5 4159 {
whismanoid 0:3edb3708c8c5 4160 cmdLine.serial().printf(" 0x%2.2X", mosiData[byteIndex]);
whismanoid 0:3edb3708c8c5 4161 }
whismanoid 0:3edb3708c8c5 4162 //
whismanoid 0:3edb3708c8c5 4163 // TODO: i2c transfer
whismanoid 0:3edb3708c8c5 4164 //const int addr7bit = 0x48; // 7 bit I2C address
whismanoid 0:3edb3708c8c5 4165 //const int addr8bit = 0x48 << 1; // 8bit I2C address, 0x90
whismanoid 0:3edb3708c8c5 4166 // /* int */ i2cMaster.read (int addr8bit, char *data, int length, bool repeated=false) // Read from an I2C slave.
whismanoid 0:3edb3708c8c5 4167 // /* int */ i2cMaster.read (int ack) // Read a single byte from the I2C bus.
whismanoid 0:3edb3708c8c5 4168 // /* int */ i2cMaster.write (int addr8bit, const char *data, int length, bool repeated=false) // Write to an I2C slave.
whismanoid 0:3edb3708c8c5 4169 // /* int */ i2cMaster.write (int data) // Write single byte out on the I2C bus.
whismanoid 0:3edb3708c8c5 4170 // /* void */ i2cMaster.start (void) // Creates a start condition on the I2C bus.
whismanoid 0:3edb3708c8c5 4171 // /* void */ i2cMaster.stop (void) // Creates a stop condition on the I2C bus.
whismanoid 0:3edb3708c8c5 4172 // /* int */ i2cMaster.transfer (int addr8bit, const char *tx_buffer, int tx_length, char *rx_buffer, int rx_length, const event_callback_t &callback, int event=I2C_EVENT_TRANSFER_COMPLETE, bool repeated=false) // Start nonblocking I2C transfer. More...
whismanoid 0:3edb3708c8c5 4173 // /* void */ i2cMaster.abort_transfer () // Abort the ongoing I2C transfer. More...
whismanoid 0:3edb3708c8c5 4174 const int addr8bit = g_I2C_deviceAddress7 << 1; // 8bit I2C address, 0x90
whismanoid 0:3edb3708c8c5 4175 unsigned int misoLength = 0;
whismanoid 0:3edb3708c8c5 4176 bool repeated = (g_I2C_read_count > 0);
whismanoid 0:3edb3708c8c5 4177 //
whismanoid 0:3edb3708c8c5 4178 int writeStatus = i2cMaster.write (addr8bit, mosiData, byteCount, repeated);
whismanoid 0:3edb3708c8c5 4179 switch (writeStatus)
whismanoid 0:3edb3708c8c5 4180 {
whismanoid 0:3edb3708c8c5 4181 case 0: cmdLine.serial().printf(" ack "); break;
whismanoid 0:3edb3708c8c5 4182 case 1: cmdLine.serial().printf(" nack "); break;
whismanoid 0:3edb3708c8c5 4183 default: cmdLine.serial().printf(" {writeStatus 0x%2.2X} ",
whismanoid 0:3edb3708c8c5 4184 writeStatus);
whismanoid 0:3edb3708c8c5 4185 }
whismanoid 0:3edb3708c8c5 4186 if (repeated)
whismanoid 0:3edb3708c8c5 4187 {
whismanoid 0:3edb3708c8c5 4188 int readStatus =
whismanoid 0:3edb3708c8c5 4189 i2cMaster.read (addr8bit, misoData, g_I2C_read_count, false);
whismanoid 0:3edb3708c8c5 4190 switch (readStatus)
whismanoid 0:3edb3708c8c5 4191 {
whismanoid 0:3edb3708c8c5 4192 case 1: cmdLine.serial().printf(" nack "); break;
whismanoid 0:3edb3708c8c5 4193 case 0: cmdLine.serial().printf(" ack "); break;
whismanoid 0:3edb3708c8c5 4194 default: cmdLine.serial().printf(" {readStatus 0x%2.2X} ",
whismanoid 0:3edb3708c8c5 4195 readStatus);
whismanoid 0:3edb3708c8c5 4196 }
whismanoid 0:3edb3708c8c5 4197 }
whismanoid 0:3edb3708c8c5 4198 //
whismanoid 0:3edb3708c8c5 4199 if (misoLength > 0)
whismanoid 0:3edb3708c8c5 4200 {
whismanoid 0:3edb3708c8c5 4201 // hex dump misoData[0..byteCount-1]
whismanoid 0:3edb3708c8c5 4202 cmdLine.serial().printf(" MISO<-");
whismanoid 0:3edb3708c8c5 4203 for (unsigned int byteIndex = 0; byteIndex < g_I2C_read_count;
whismanoid 0:3edb3708c8c5 4204 byteIndex++)
whismanoid 0:3edb3708c8c5 4205 {
whismanoid 0:3edb3708c8c5 4206 cmdLine.serial().printf(" 0x%2.2X", misoData[byteIndex]);
whismanoid 0:3edb3708c8c5 4207 }
whismanoid 0:3edb3708c8c5 4208 }
whismanoid 0:3edb3708c8c5 4209 cmdLine.serial().printf(" ");
whismanoid 0:3edb3708c8c5 4210 }
whismanoid 0:3edb3708c8c5 4211 }
whismanoid 0:3edb3708c8c5 4212 break;
whismanoid 0:3edb3708c8c5 4213 case 'R': case 'r':
whismanoid 0:3edb3708c8c5 4214 {
whismanoid 0:3edb3708c8c5 4215 // declare in narrower scope: MAX32625MBED I2C i2cMaster(...)
whismanoid 0:3edb3708c8c5 4216 I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 4217 i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 4218 // %IR ADDR=? RD=? -- read
whismanoid 0:3edb3708c8c5 4219 // TODO: i2c transfer
whismanoid 0:3edb3708c8c5 4220 //const int addr7bit = 0x48; // 7 bit I2C address
whismanoid 0:3edb3708c8c5 4221 //const int addr8bit = 0x48 << 1; // 8bit I2C address, 0x90
whismanoid 0:3edb3708c8c5 4222 // /* int */ i2cMaster.read (int addr8bit, char *data, int length, bool repeated=false) // Read from an I2C slave.
whismanoid 0:3edb3708c8c5 4223 // /* int */ i2cMaster.read (int ack) // Read a single byte from the I2C bus.
whismanoid 0:3edb3708c8c5 4224 // /* int */ i2cMaster.write (int addr8bit, const char *data, int length, bool repeated=false) // Write to an I2C slave.
whismanoid 0:3edb3708c8c5 4225 // /* int */ i2cMaster.write (int data) // Write single byte out on the I2C bus.
whismanoid 0:3edb3708c8c5 4226 // /* void */ i2cMaster.start (void) // Creates a start condition on the I2C bus.
whismanoid 0:3edb3708c8c5 4227 // /* void */ i2cMaster.stop (void) // Creates a stop condition on the I2C bus.
whismanoid 0:3edb3708c8c5 4228 // /* int */ i2cMaster.transfer (int addr8bit, const char *tx_buffer, int tx_length, char *rx_buffer, int rx_length, const event_callback_t &callback, int event=I2C_EVENT_TRANSFER_COMPLETE, bool repeated=false) // Start nonblocking I2C transfer. More...
whismanoid 0:3edb3708c8c5 4229 // /* void */ i2cMaster.abort_transfer () // Abort the ongoing I2C transfer. More...
whismanoid 0:3edb3708c8c5 4230 }
whismanoid 0:3edb3708c8c5 4231 break;
whismanoid 0:3edb3708c8c5 4232 case '^':
whismanoid 0:3edb3708c8c5 4233 {
whismanoid 0:3edb3708c8c5 4234 // declare in narrower scope: MAX32625MBED I2C i2cMaster(...)
whismanoid 0:3edb3708c8c5 4235 I2C i2cMaster(I2C0_SDA, I2C0_SCL); // sda scl TARGET_MAX32635MBED: P1_6, P1_7 Arduino 10-pin header
whismanoid 0:3edb3708c8c5 4236 i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 4237 // %I^ cmd=? -- i2c_smbus_read_word_data
whismanoid 0:3edb3708c8c5 4238 // TODO: i2c transfer
whismanoid 0:3edb3708c8c5 4239 //const int addr7bit = 0x48; // 7 bit I2C address
whismanoid 0:3edb3708c8c5 4240 //const int addr8bit = 0x48 << 1; // 8bit I2C address, 0x90
whismanoid 0:3edb3708c8c5 4241 // /* int */ i2cMaster.read (int addr8bit, char *data, int length, bool repeated=false) // Read from an I2C slave.
whismanoid 0:3edb3708c8c5 4242 // /* int */ i2cMaster.read (int ack) // Read a single byte from the I2C bus.
whismanoid 0:3edb3708c8c5 4243 // /* int */ i2cMaster.write (int addr8bit, const char *data, int length, bool repeated=false) // Write to an I2C slave.
whismanoid 0:3edb3708c8c5 4244 // /* int */ i2cMaster.write (int data) // Write single byte out on the I2C bus.
whismanoid 0:3edb3708c8c5 4245 // /* void */ i2cMaster.start (void) // Creates a start condition on the I2C bus.
whismanoid 0:3edb3708c8c5 4246 // /* void */ i2cMaster.stop (void) // Creates a stop condition on the I2C bus.
whismanoid 0:3edb3708c8c5 4247 // /* int */ i2cMaster.transfer (int addr8bit, const char *tx_buffer, int tx_length, char *rx_buffer, int rx_length, const event_callback_t &callback, int event=I2C_EVENT_TRANSFER_COMPLETE, bool repeated=false) // Start nonblocking I2C transfer. More...
whismanoid 0:3edb3708c8c5 4248 // /* void */ i2cMaster.abort_transfer () // Abort the ongoing I2C transfer. More...
whismanoid 0:3edb3708c8c5 4249 }
whismanoid 0:3edb3708c8c5 4250 break;
whismanoid 0:3edb3708c8c5 4251 } // switch(cmdLine[2])
whismanoid 0:3edb3708c8c5 4252 break;
whismanoid 0:3edb3708c8c5 4253 #endif
whismanoid 0:3edb3708c8c5 4254 //
whismanoid 0:3edb3708c8c5 4255 #if HAS_SPI // SUPPORT_SPI
whismanoid 0:3edb3708c8c5 4256 case 'S': case 's':
whismanoid 0:3edb3708c8c5 4257 {
whismanoid 0:3edb3708c8c5 4258 // %S... -- SPI diagnostics
whismanoid 0:3edb3708c8c5 4259 // %SC sclk=1Mhz -- SPI configure
whismanoid 0:3edb3708c8c5 4260 // %SW -- write (write and read)
whismanoid 0:3edb3708c8c5 4261 // %SR -- read (alias for %SW because SPI always write and read)
whismanoid 0:3edb3708c8c5 4262 //
whismanoid 0:3edb3708c8c5 4263 // Process arguments SCLK=\d+(kHZ|MHZ) CPOL=\d CPHA=\d
whismanoid 0:3edb3708c8c5 4264 bool isUpdatedSPIConfig = false;
whismanoid 0:3edb3708c8c5 4265 // parse cmdLine arg (CPOL=\d)? --> g_SPI_dataMode | SPI_MODE2
whismanoid 0:3edb3708c8c5 4266 // parse cmdLine arg (CPHA=\d)? --> g_SPI_dataMode | SPI_MODE1
whismanoid 0:3edb3708c8c5 4267 if (cmdLine.parse_flag("CPOL", g_SPI_dataMode, SPI_MODE2))
whismanoid 0:3edb3708c8c5 4268 {
whismanoid 0:3edb3708c8c5 4269 isUpdatedSPIConfig = true;
whismanoid 0:3edb3708c8c5 4270 }
whismanoid 0:3edb3708c8c5 4271 if (cmdLine.parse_flag("CPHA", g_SPI_dataMode, SPI_MODE1))
whismanoid 0:3edb3708c8c5 4272 {
whismanoid 0:3edb3708c8c5 4273 isUpdatedSPIConfig = true;
whismanoid 0:3edb3708c8c5 4274 }
whismanoid 0:3edb3708c8c5 4275 if (cmdLine.parse_flag("CS", g_SPI_cs_state, 1))
whismanoid 0:3edb3708c8c5 4276 {
whismanoid 0:3edb3708c8c5 4277 isUpdatedSPIConfig = true;
whismanoid 0:3edb3708c8c5 4278 }
whismanoid 0:3edb3708c8c5 4279 // parse cmdLine arg (SCLK=\d+(kHZ|MHZ)?)? --> g_SPI_SCLK_Hz
whismanoid 0:3edb3708c8c5 4280 if (cmdLine.parse_frequency_Hz("SCLK", g_SPI_SCLK_Hz))
whismanoid 0:3edb3708c8c5 4281 {
whismanoid 0:3edb3708c8c5 4282 isUpdatedSPIConfig = true;
whismanoid 0:3edb3708c8c5 4283 // TODO1: validate g_SPI_SCLK_Hz against system clock frequency F_CPU
whismanoid 0:3edb3708c8c5 4284 if (g_SPI_SCLK_Hz > limit_max_SPI_SCLK_Hz)
whismanoid 0:3edb3708c8c5 4285 {
whismanoid 0:3edb3708c8c5 4286 g_SPI_SCLK_Hz = limit_max_SPI_SCLK_Hz;
whismanoid 0:3edb3708c8c5 4287 }
whismanoid 0:3edb3708c8c5 4288 if (g_SPI_SCLK_Hz < limit_min_SPI_SCLK_Hz)
whismanoid 0:3edb3708c8c5 4289 {
whismanoid 0:3edb3708c8c5 4290 g_SPI_SCLK_Hz = limit_min_SPI_SCLK_Hz;
whismanoid 0:3edb3708c8c5 4291 }
whismanoid 0:3edb3708c8c5 4292 }
whismanoid 0:3edb3708c8c5 4293 // Update SPI configuration
whismanoid 0:3edb3708c8c5 4294 if (isUpdatedSPIConfig)
whismanoid 0:3edb3708c8c5 4295 {
whismanoid 0:3edb3708c8c5 4296 // %SC sclk=1Mhz -- SPI configure
whismanoid 0:3edb3708c8c5 4297 spi_cs = g_SPI_cs_state;
whismanoid 0:3edb3708c8c5 4298 spi.format(8,g_SPI_dataMode); // int bits_must_be_8, int mode=0_3 CPOL=0,CPHA=0
whismanoid 0:3edb3708c8c5 4299 #if APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 4300 g_MAX5715_device.spi_frequency(g_SPI_SCLK_Hz);
whismanoid 0:3edb3708c8c5 4301 #elif APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 4302 g_MAX11131_device.spi_frequency(g_SPI_SCLK_Hz);
whismanoid 0:3edb3708c8c5 4303 #elif APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 4304 g_MAX5171_device.spi_frequency(g_SPI_SCLK_Hz);
whismanoid 0:3edb3708c8c5 4305 #elif APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 4306 g_MAX11410_device.spi_frequency(g_SPI_SCLK_Hz);
whismanoid 0:3edb3708c8c5 4307 #elif APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 4308 g_MAX12345_device.spi_frequency(g_SPI_SCLK_Hz);
whismanoid 0:3edb3708c8c5 4309 #else
whismanoid 0:3edb3708c8c5 4310 spi.frequency(g_SPI_SCLK_Hz); // int SCLK_Hz=1000000 = 1MHz (initial default)
whismanoid 0:3edb3708c8c5 4311 #endif
whismanoid 0:3edb3708c8c5 4312 //
whismanoid 0:3edb3708c8c5 4313 double ideal_divisor = ((double)SystemCoreClock) / g_SPI_SCLK_Hz;
whismanoid 0:3edb3708c8c5 4314 int actual_divisor = (int)(ideal_divisor + 0.0); // frequency divisor truncate
whismanoid 0:3edb3708c8c5 4315 double actual_SCLK_Hz = SystemCoreClock / actual_divisor;
whismanoid 0:3edb3708c8c5 4316 //
whismanoid 0:3edb3708c8c5 4317 // fixed: mbed-os-5.11: [Warning] format '%d' expects argument of type 'int', but argument 6 has type 'uint32_t {aka long unsigned int}' [-Wformat=]
whismanoid 0:3edb3708c8c5 4318 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4319 "\r\n %%SC CPOL=%d CPHA=%d CS=%d SCLK=%ld=%1.3fMHz (%1.1fMHz/%1.2f = actual %1.3fMHz) -- SPI config",
whismanoid 0:3edb3708c8c5 4320 ((g_SPI_dataMode & SPI_MODE2) ? 1 : 0),
whismanoid 0:3edb3708c8c5 4321 ((g_SPI_dataMode & SPI_MODE1) ? 1 : 0),
whismanoid 0:3edb3708c8c5 4322 g_SPI_cs_state,
whismanoid 0:3edb3708c8c5 4323 g_SPI_SCLK_Hz,
whismanoid 0:3edb3708c8c5 4324 (g_SPI_SCLK_Hz / 1000000.),
whismanoid 0:3edb3708c8c5 4325 ((double)(SystemCoreClock / 1000000.)),
whismanoid 0:3edb3708c8c5 4326 ideal_divisor,
whismanoid 0:3edb3708c8c5 4327 (actual_SCLK_Hz / 1000000.)
whismanoid 0:3edb3708c8c5 4328 );
whismanoid 0:3edb3708c8c5 4329 }
whismanoid 0:3edb3708c8c5 4330 // get next character
whismanoid 0:3edb3708c8c5 4331 switch (cmdLine[2])
whismanoid 0:3edb3708c8c5 4332 {
whismanoid 0:3edb3708c8c5 4333 case 'C': case 's':
whismanoid 0:3edb3708c8c5 4334 // %SC sclk=1Mhz -- SPI configure
whismanoid 0:3edb3708c8c5 4335 break;
whismanoid 0:3edb3708c8c5 4336 case 'W': case 'R': case 'w': case 'r':
whismanoid 0:3edb3708c8c5 4337 {
whismanoid 0:3edb3708c8c5 4338 // %SW -- write (write and read)
whismanoid 0:3edb3708c8c5 4339 // %SR -- read (alias for %SW because SPI always write and read)
whismanoid 0:3edb3708c8c5 4340 // parse cmdLine byte list --> int byteCount; int mosiData[MAX_SPI_BYTE_COUNT];
whismanoid 0:3edb3708c8c5 4341 #define MAX_SPI_BYTE_COUNT 32
whismanoid 0:3edb3708c8c5 4342 size_t byteCount = byteCount;
whismanoid 0:3edb3708c8c5 4343 static char mosiData[MAX_SPI_BYTE_COUNT];
whismanoid 0:3edb3708c8c5 4344 static char misoData[MAX_SPI_BYTE_COUNT];
whismanoid 0:3edb3708c8c5 4345 if (cmdLine.parse_byteCount_byteList_hex(byteCount, mosiData,
whismanoid 0:3edb3708c8c5 4346 MAX_SPI_BYTE_COUNT))
whismanoid 0:3edb3708c8c5 4347 {
whismanoid 0:3edb3708c8c5 4348 // hex dump mosiData[0..byteCount-1]
whismanoid 0:3edb3708c8c5 4349 cmdLine.serial().printf("\r\nSPI");
whismanoid 0:3edb3708c8c5 4350 if (byteCount > 7) {
whismanoid 0:3edb3708c8c5 4351 cmdLine.serial().printf(" byteCount:%d", byteCount);
whismanoid 0:3edb3708c8c5 4352 }
whismanoid 0:3edb3708c8c5 4353 cmdLine.serial().printf(" MOSI->");
whismanoid 0:3edb3708c8c5 4354 for (unsigned int byteIndex = 0; byteIndex < byteCount; byteIndex++)
whismanoid 0:3edb3708c8c5 4355 {
whismanoid 0:3edb3708c8c5 4356 cmdLine.serial().printf(" 0x%2.2X", mosiData[byteIndex]);
whismanoid 0:3edb3708c8c5 4357 }
whismanoid 0:3edb3708c8c5 4358 spi_cs = 0;
whismanoid 0:3edb3708c8c5 4359 unsigned int numBytesTransferred =
whismanoid 0:3edb3708c8c5 4360 spi.write(mosiData, byteCount, misoData, byteCount);
whismanoid 0:3edb3708c8c5 4361 spi_cs = 1;
whismanoid 0:3edb3708c8c5 4362 // hex dump misoData[0..byteCount-1]
whismanoid 0:3edb3708c8c5 4363 cmdLine.serial().printf(" MISO<-");
whismanoid 0:3edb3708c8c5 4364 for (unsigned int byteIndex = 0; byteIndex < numBytesTransferred;
whismanoid 0:3edb3708c8c5 4365 byteIndex++)
whismanoid 0:3edb3708c8c5 4366 {
whismanoid 0:3edb3708c8c5 4367 cmdLine.serial().printf(" 0x%2.2X", misoData[byteIndex]);
whismanoid 0:3edb3708c8c5 4368 }
whismanoid 0:3edb3708c8c5 4369 cmdLine.serial().printf(" ");
whismanoid 0:3edb3708c8c5 4370 }
whismanoid 0:3edb3708c8c5 4371 }
whismanoid 0:3edb3708c8c5 4372 break;
whismanoid 0:3edb3708c8c5 4373 } // switch(cmdLine[2])
whismanoid 0:3edb3708c8c5 4374 } // case 'S': // %S... -- SPI diagnostics
whismanoid 0:3edb3708c8c5 4375 break;
whismanoid 0:3edb3708c8c5 4376 #endif
whismanoid 0:3edb3708c8c5 4377 //
whismanoid 0:3edb3708c8c5 4378 // A-Z,a-z,0-9 reserved for application use
whismanoid 0:3edb3708c8c5 4379 } // switch(cmdLine[1])
whismanoid 0:3edb3708c8c5 4380 }
whismanoid 0:3edb3708c8c5 4381 break; // case '%'
whismanoid 0:3edb3708c8c5 4382 #endif // APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 4383 //
whismanoid 0:3edb3708c8c5 4384 // Application-specific commands here
whismanoid 0:3edb3708c8c5 4385 // alphanumeric command codes A-Z,a-z,0-9 reserved for application use
whismanoid 0:3edb3708c8c5 4386 //
whismanoid 0:3edb3708c8c5 4387 #if APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 4388 #endif // APPLICATION_ArduinoPinsMonitor
whismanoid 0:3edb3708c8c5 4389
whismanoid 0:3edb3708c8c5 4390 #if APPLICATION_MAX5715 // main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 4391 case '0':
whismanoid 0:3edb3708c8c5 4392 {
whismanoid 0:3edb3708c8c5 4393 // recommended for hex command codes 00..0F
whismanoid 0:3edb3708c8c5 4394 // TODO: cmdLine.serial().printf("\r\n 0 ch=? code=? -- CODEn");
whismanoid 0:3edb3708c8c5 4395 // Menu 0 ch=? code=?) CODEn
whismanoid 0:3edb3708c8c5 4396 // MAX5715_CODEn(uint8_t channel, uint16_t dacCodeLsbs);
whismanoid 0:3edb3708c8c5 4397 // VERIFY: parse strCommandArgs for additional arguments including key=value pairs
whismanoid 0:3edb3708c8c5 4398 // TODO: parse command arguments ~ parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 4399 uint16_t ch = g_MAX5715_device.channelNumber_0_3;
whismanoid 0:3edb3708c8c5 4400 if (cmdLine.parse_uint16_dec("ch", ch))
whismanoid 0:3edb3708c8c5 4401 {
whismanoid 0:3edb3708c8c5 4402 }
whismanoid 0:3edb3708c8c5 4403 uint16_t code = g_MAX5715_device.CODE[ch];
whismanoid 0:3edb3708c8c5 4404 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 4405 {
whismanoid 0:3edb3708c8c5 4406 }
whismanoid 0:3edb3708c8c5 4407 cmdLine.serial().printf("CODEn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 4408 g_MAX5715_device.CODEn(ch, code);
whismanoid 0:3edb3708c8c5 4409 }
whismanoid 0:3edb3708c8c5 4410 break;
whismanoid 0:3edb3708c8c5 4411 case '1':
whismanoid 0:3edb3708c8c5 4412 {
whismanoid 0:3edb3708c8c5 4413 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 4414 // TODO: cmdLine.serial().printf("\r\n 1 ch=? -- LOADn");
whismanoid 0:3edb3708c8c5 4415 // TODO: parse command arguments ~ parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 4416 uint16_t ch = g_MAX5715_device.channelNumber_0_3;
whismanoid 0:3edb3708c8c5 4417 if (cmdLine.parse_uint16_dec("ch", ch))
whismanoid 0:3edb3708c8c5 4418 {
whismanoid 0:3edb3708c8c5 4419 }
whismanoid 0:3edb3708c8c5 4420 cmdLine.serial().printf("LOADn ch=%d", ch);
whismanoid 0:3edb3708c8c5 4421 g_MAX5715_device.LOADn(ch);
whismanoid 0:3edb3708c8c5 4422 }
whismanoid 0:3edb3708c8c5 4423 break;
whismanoid 0:3edb3708c8c5 4424 case '2':
whismanoid 0:3edb3708c8c5 4425 {
whismanoid 0:3edb3708c8c5 4426 // recommended for hex command codes 20..2F
whismanoid 0:3edb3708c8c5 4427 // TODO: cmdLine.serial().printf("\r\n 2 ch=? code=? -- CODEnLOADall");
whismanoid 0:3edb3708c8c5 4428 // TODO: parse command arguments ~ parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 4429 uint16_t ch = g_MAX5715_device.channelNumber_0_3;
whismanoid 0:3edb3708c8c5 4430 if (cmdLine.parse_uint16_dec("ch", ch))
whismanoid 0:3edb3708c8c5 4431 {
whismanoid 0:3edb3708c8c5 4432 }
whismanoid 0:3edb3708c8c5 4433 uint16_t code = g_MAX5715_device.CODE[ch];
whismanoid 0:3edb3708c8c5 4434 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 4435 {
whismanoid 0:3edb3708c8c5 4436 }
whismanoid 0:3edb3708c8c5 4437 cmdLine.serial().printf("CODEnLOADall ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 4438 g_MAX5715_device.CODEnLOADall(ch, code);
whismanoid 0:3edb3708c8c5 4439 }
whismanoid 0:3edb3708c8c5 4440 break;
whismanoid 0:3edb3708c8c5 4441 case '3':
whismanoid 0:3edb3708c8c5 4442 {
whismanoid 0:3edb3708c8c5 4443 // recommended for hex command codes 30..3F
whismanoid 0:3edb3708c8c5 4444 // TODO: cmdLine.serial().printf("\r\n 3 ch=? code=? -- CODEnLOADn");
whismanoid 0:3edb3708c8c5 4445 // TODO: parse command arguments ~ parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 4446 uint16_t ch = g_MAX5715_device.channelNumber_0_3;
whismanoid 0:3edb3708c8c5 4447 uint16_t code;
whismanoid 0:3edb3708c8c5 4448 if (cmdLine.parse_uint16_dec("ch", ch))
whismanoid 0:3edb3708c8c5 4449 {
whismanoid 0:3edb3708c8c5 4450 }
whismanoid 0:3edb3708c8c5 4451 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 4452 {
whismanoid 0:3edb3708c8c5 4453 }
whismanoid 0:3edb3708c8c5 4454 cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 4455 g_MAX5715_device.CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 4456 }
whismanoid 0:3edb3708c8c5 4457 break;
whismanoid 0:3edb3708c8c5 4458 case '4':
whismanoid 0:3edb3708c8c5 4459 {
whismanoid 0:3edb3708c8c5 4460 // recommended for hex command codes 40..4F
whismanoid 0:3edb3708c8c5 4461 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4462 {
whismanoid 0:3edb3708c8c5 4463 case '0':
whismanoid 0:3edb3708c8c5 4464 {
whismanoid 0:3edb3708c8c5 4465 // cmdLine.serial().printf("\r\n 40 ch=? -- POWERn_Normal");
whismanoid 0:3edb3708c8c5 4466 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4467 "channel_dcba=%d, POWERn_Normal)",
whismanoid 0:3edb3708c8c5 4468 g_MAX5715_device.channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4469 g_MAX5715_device.POWER(g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4470 channels_bitmask_DCBA,
whismanoid 0:3edb3708c8c5 4471 MAX5715::POWERn_Normal);
whismanoid 0:3edb3708c8c5 4472 }
whismanoid 0:3edb3708c8c5 4473 break;
whismanoid 0:3edb3708c8c5 4474 case '1':
whismanoid 0:3edb3708c8c5 4475 {
whismanoid 0:3edb3708c8c5 4476 // cmdLine.serial().printf("\r\n 41 ch=? -- POWERn_PD1k");
whismanoid 0:3edb3708c8c5 4477 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4478 "channel_dcba=%d, POWERn_PD1k)",
whismanoid 0:3edb3708c8c5 4479 g_MAX5715_device.channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4480 g_MAX5715_device.POWER(g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4481 channels_bitmask_DCBA,
whismanoid 0:3edb3708c8c5 4482 MAX5715::POWERn_PD1k);
whismanoid 0:3edb3708c8c5 4483 }
whismanoid 0:3edb3708c8c5 4484 break;
whismanoid 0:3edb3708c8c5 4485 case '2':
whismanoid 0:3edb3708c8c5 4486 {
whismanoid 0:3edb3708c8c5 4487 // cmdLine.serial().printf("\r\n 42 ch=? -- POWERn_PD100k");
whismanoid 0:3edb3708c8c5 4488 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4489 "channel_dcba=%d, POWERn_PD100k)",
whismanoid 0:3edb3708c8c5 4490 g_MAX5715_device.channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4491 g_MAX5715_device.POWER(g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4492 channels_bitmask_DCBA,
whismanoid 0:3edb3708c8c5 4493 MAX5715::POWERn_PD100k);
whismanoid 0:3edb3708c8c5 4494 }
whismanoid 0:3edb3708c8c5 4495 break;
whismanoid 0:3edb3708c8c5 4496 case '3':
whismanoid 0:3edb3708c8c5 4497 {
whismanoid 0:3edb3708c8c5 4498 // cmdLine.serial().printf("\r\n 43 ch=? -- POWERn_PDHiZ");
whismanoid 0:3edb3708c8c5 4499 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4500 "channel_dcba=%d, POWERn_PDHiZ)",
whismanoid 0:3edb3708c8c5 4501 g_MAX5715_device.channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4502 g_MAX5715_device.POWER(g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4503 channels_bitmask_DCBA,
whismanoid 0:3edb3708c8c5 4504 MAX5715::POWERn_PDHiZ);
whismanoid 0:3edb3708c8c5 4505 }
whismanoid 0:3edb3708c8c5 4506 break;
whismanoid 0:3edb3708c8c5 4507 }
whismanoid 0:3edb3708c8c5 4508 break;
whismanoid 0:3edb3708c8c5 4509 }
whismanoid 0:3edb3708c8c5 4510 break;
whismanoid 0:3edb3708c8c5 4511 case '5':
whismanoid 0:3edb3708c8c5 4512 {
whismanoid 0:3edb3708c8c5 4513 // recommended for hex command codes 50..5F
whismanoid 0:3edb3708c8c5 4514 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4515 {
whismanoid 0:3edb3708c8c5 4516 case '0':
whismanoid 0:3edb3708c8c5 4517 {
whismanoid 0:3edb3708c8c5 4518 // cmdLine.serial().printf("\r\n 50 -- SW_CLEAR");
whismanoid 0:3edb3708c8c5 4519 cmdLine.serial().printf("SW_CLEAR");
whismanoid 0:3edb3708c8c5 4520 g_MAX5715_device.SW_CLEAR();
whismanoid 0:3edb3708c8c5 4521 }
whismanoid 0:3edb3708c8c5 4522 break;
whismanoid 0:3edb3708c8c5 4523 case '1':
whismanoid 0:3edb3708c8c5 4524 {
whismanoid 0:3edb3708c8c5 4525 // cmdLine.serial().printf("\r\n 51 -- SW_RESET");
whismanoid 0:3edb3708c8c5 4526 cmdLine.serial().printf("SW_RESET");
whismanoid 0:3edb3708c8c5 4527 g_MAX5715_device.SW_RESET();
whismanoid 0:3edb3708c8c5 4528 }
whismanoid 0:3edb3708c8c5 4529 break;
whismanoid 0:3edb3708c8c5 4530 }
whismanoid 0:3edb3708c8c5 4531 }
whismanoid 0:3edb3708c8c5 4532 break;
whismanoid 0:3edb3708c8c5 4533 case '6':
whismanoid 0:3edb3708c8c5 4534 {
whismanoid 0:3edb3708c8c5 4535 // recommended for hex command codes 60..6F
whismanoid 0:3edb3708c8c5 4536 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4537 {
whismanoid 0:3edb3708c8c5 4538 case '0':
whismanoid 0:3edb3708c8c5 4539 {
whismanoid 0:3edb3708c8c5 4540 // cmdLine.serial().printf("\r\n 60 ch=? -- CONFIGn_LATCHED");
whismanoid 0:3edb3708c8c5 4541 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4542 "MAX5715_CONFIGn_LATCHED(channel_dcba=%d)",
whismanoid 0:3edb3708c8c5 4543 g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4544 channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4545 g_MAX5715_device.CONFIGn_LATCHED(g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4546 channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4547 }
whismanoid 0:3edb3708c8c5 4548 break;
whismanoid 0:3edb3708c8c5 4549 case '1':
whismanoid 0:3edb3708c8c5 4550 {
whismanoid 0:3edb3708c8c5 4551 // cmdLine.serial().printf("\r\n 61 ch=? -- CONFIGn_TRANSPARENT");
whismanoid 0:3edb3708c8c5 4552 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4553 "MAX5715_CONFIGn_TRANSPARENT(channel_dcba=%d)",
whismanoid 0:3edb3708c8c5 4554 g_MAX5715_device.
whismanoid 0:3edb3708c8c5 4555 channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4556 g_MAX5715_device.CONFIGn_TRANSPARENT(
whismanoid 0:3edb3708c8c5 4557 g_MAX5715_device.channels_bitmask_DCBA);
whismanoid 0:3edb3708c8c5 4558 }
whismanoid 0:3edb3708c8c5 4559 break;
whismanoid 0:3edb3708c8c5 4560 case '8':
whismanoid 0:3edb3708c8c5 4561 {
whismanoid 0:3edb3708c8c5 4562 // cmdLine.serial().printf("\r\n 68 -- CONFIGall_LATCHED");
whismanoid 0:3edb3708c8c5 4563 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4564 "MAX5715_CONFIGall_LATCHED()");
whismanoid 0:3edb3708c8c5 4565 g_MAX5715_device.CONFIGall_LATCHED();
whismanoid 0:3edb3708c8c5 4566 }
whismanoid 0:3edb3708c8c5 4567 break;
whismanoid 0:3edb3708c8c5 4568 case '9':
whismanoid 0:3edb3708c8c5 4569 {
whismanoid 0:3edb3708c8c5 4570 // cmdLine.serial().printf("\r\n 69 -- CONFIGall_TRANSPARENT");
whismanoid 0:3edb3708c8c5 4571 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4572 "MAX5715_CONFIGall_TRANSPARENT()");
whismanoid 0:3edb3708c8c5 4573 g_MAX5715_device.CONFIGall_TRANSPARENT();
whismanoid 0:3edb3708c8c5 4574 }
whismanoid 0:3edb3708c8c5 4575 break;
whismanoid 0:3edb3708c8c5 4576 }
whismanoid 0:3edb3708c8c5 4577 }
whismanoid 0:3edb3708c8c5 4578 break;
whismanoid 0:3edb3708c8c5 4579 case '7':
whismanoid 0:3edb3708c8c5 4580 {
whismanoid 0:3edb3708c8c5 4581 // recommended for hex command codes 70..7F
whismanoid 0:3edb3708c8c5 4582 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4583 {
whismanoid 0:3edb3708c8c5 4584 case '0':
whismanoid 0:3edb3708c8c5 4585 {
whismanoid 0:3edb3708c8c5 4586 // cmdLine.serial().printf("\r\n 70 -- REF_EXT");
whismanoid 0:3edb3708c8c5 4587 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4588 "MAX5715_REF(REF_EXT)");
whismanoid 0:3edb3708c8c5 4589 g_MAX5715_device.REF(MAX5715::REF_EXT);
whismanoid 0:3edb3708c8c5 4590 }
whismanoid 0:3edb3708c8c5 4591 break;
whismanoid 0:3edb3708c8c5 4592 case '1':
whismanoid 0:3edb3708c8c5 4593 {
whismanoid 0:3edb3708c8c5 4594 // cmdLine.serial().printf("\r\n 71 -- REF_2V500");
whismanoid 0:3edb3708c8c5 4595 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4596 "MAX5715_REF(REF_2V500)");
whismanoid 0:3edb3708c8c5 4597 g_MAX5715_device.REF(MAX5715::REF_2V500);
whismanoid 0:3edb3708c8c5 4598 }
whismanoid 0:3edb3708c8c5 4599 break;
whismanoid 0:3edb3708c8c5 4600 case '2':
whismanoid 0:3edb3708c8c5 4601 {
whismanoid 0:3edb3708c8c5 4602 // cmdLine.serial().printf("\r\n 72 -- REF_2V048");
whismanoid 0:3edb3708c8c5 4603 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4604 "MAX5715_REF(REF_2V048)");
whismanoid 0:3edb3708c8c5 4605 g_MAX5715_device.REF(MAX5715::REF_2V048);
whismanoid 0:3edb3708c8c5 4606 }
whismanoid 0:3edb3708c8c5 4607 break;
whismanoid 0:3edb3708c8c5 4608 case '3':
whismanoid 0:3edb3708c8c5 4609 {
whismanoid 0:3edb3708c8c5 4610 // cmdLine.serial().printf("\r\n 73 -- REF_4V096");
whismanoid 0:3edb3708c8c5 4611 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4612 "MAX5715_REF(REF_4V096)");
whismanoid 0:3edb3708c8c5 4613 g_MAX5715_device.REF(MAX5715::REF_4V096);
whismanoid 0:3edb3708c8c5 4614 }
whismanoid 0:3edb3708c8c5 4615 break;
whismanoid 0:3edb3708c8c5 4616 case '4':
whismanoid 0:3edb3708c8c5 4617 {
whismanoid 0:3edb3708c8c5 4618 // cmdLine.serial().printf("\r\n 74 -- REF_AlwaysOn_EXT");
whismanoid 0:3edb3708c8c5 4619 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4620 "MAX5715_REF(REF_AlwaysOn_EXT)");
whismanoid 0:3edb3708c8c5 4621 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_EXT);
whismanoid 0:3edb3708c8c5 4622 }
whismanoid 0:3edb3708c8c5 4623 break;
whismanoid 0:3edb3708c8c5 4624 case '5':
whismanoid 0:3edb3708c8c5 4625 {
whismanoid 0:3edb3708c8c5 4626 // cmdLine.serial().printf("\r\n 75 -- REF_AlwaysOn_2V500");
whismanoid 0:3edb3708c8c5 4627 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4628 "MAX5715_REF(REF_AlwaysOn_2V500)");
whismanoid 0:3edb3708c8c5 4629 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_2V500);
whismanoid 0:3edb3708c8c5 4630 }
whismanoid 0:3edb3708c8c5 4631 break;
whismanoid 0:3edb3708c8c5 4632 case '6':
whismanoid 0:3edb3708c8c5 4633 {
whismanoid 0:3edb3708c8c5 4634 // cmdLine.serial().printf("\r\n 76 -- REF_AlwaysOn_2V048");
whismanoid 0:3edb3708c8c5 4635 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4636 "MAX5715_REF(REF_AlwaysOn_2V048)");
whismanoid 0:3edb3708c8c5 4637 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_2V048);
whismanoid 0:3edb3708c8c5 4638 }
whismanoid 0:3edb3708c8c5 4639 break;
whismanoid 0:3edb3708c8c5 4640 case '7':
whismanoid 0:3edb3708c8c5 4641 {
whismanoid 0:3edb3708c8c5 4642 // cmdLine.serial().printf("\r\n 77 -- REF_AlwaysOn_4V096");
whismanoid 0:3edb3708c8c5 4643 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4644 "MAX5715_REF(REF_AlwaysOn_4V096)");
whismanoid 0:3edb3708c8c5 4645 g_MAX5715_device.REF(MAX5715::REF_AlwaysOn_4V096);
whismanoid 0:3edb3708c8c5 4646 }
whismanoid 0:3edb3708c8c5 4647 break;
whismanoid 0:3edb3708c8c5 4648 }
whismanoid 0:3edb3708c8c5 4649 }
whismanoid 0:3edb3708c8c5 4650 break;
whismanoid 0:3edb3708c8c5 4651 case '8':
whismanoid 0:3edb3708c8c5 4652 {
whismanoid 0:3edb3708c8c5 4653 // recommended for hex command codes 80..8F
whismanoid 0:3edb3708c8c5 4654 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4655 {
whismanoid 0:3edb3708c8c5 4656 case '0':
whismanoid 0:3edb3708c8c5 4657 {
whismanoid 0:3edb3708c8c5 4658 // TODO: cmdLine.serial().printf("\r\n 80 code=? -- CODEall");
whismanoid 0:3edb3708c8c5 4659 // TODO: parse command arguments ~ parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 4660 g_MAX5715_device.channels_bitmask_DCBA = 0xFF; // store g_MAX5715_device.CODE[allChannels]
whismanoid 0:3edb3708c8c5 4661 uint16_t code = g_MAX5715_device.CODE[0];
whismanoid 0:3edb3708c8c5 4662 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 4663 {
whismanoid 0:3edb3708c8c5 4664 }
whismanoid 0:3edb3708c8c5 4665 cmdLine.serial().printf("CODEall code=%d", code);
whismanoid 0:3edb3708c8c5 4666 g_MAX5715_device.CODEall(code);
whismanoid 0:3edb3708c8c5 4667 }
whismanoid 0:3edb3708c8c5 4668 break;
whismanoid 0:3edb3708c8c5 4669 case '1':
whismanoid 0:3edb3708c8c5 4670 {
whismanoid 0:3edb3708c8c5 4671 // TODO: cmdLine.serial().printf("\r\n 81 -- LOADall");
whismanoid 0:3edb3708c8c5 4672 cmdLine.serial().printf("LOADall");
whismanoid 0:3edb3708c8c5 4673 g_MAX5715_device.LOADall();
whismanoid 0:3edb3708c8c5 4674 }
whismanoid 0:3edb3708c8c5 4675 break;
whismanoid 0:3edb3708c8c5 4676 case '2':
whismanoid 0:3edb3708c8c5 4677 {
whismanoid 0:3edb3708c8c5 4678 // TODO: cmdLine.serial().printf("\r\n 82 code=? -- CODEallLOADall");
whismanoid 0:3edb3708c8c5 4679 uint16_t code = g_MAX5715_device.CODE[0];
whismanoid 0:3edb3708c8c5 4680 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 4681 {
whismanoid 0:3edb3708c8c5 4682 }
whismanoid 0:3edb3708c8c5 4683 cmdLine.serial().printf("CODEallLOADall code=%d", code);
whismanoid 0:3edb3708c8c5 4684 g_MAX5715_device.CODEallLOADall(code);
whismanoid 0:3edb3708c8c5 4685 }
whismanoid 0:3edb3708c8c5 4686 break;
whismanoid 0:3edb3708c8c5 4687 }
whismanoid 0:3edb3708c8c5 4688 }
whismanoid 0:3edb3708c8c5 4689 break;
whismanoid 0:3edb3708c8c5 4690 case '9':
whismanoid 0:3edb3708c8c5 4691 {
whismanoid 0:3edb3708c8c5 4692 // recommended for hex command codes 90..9F
whismanoid 0:3edb3708c8c5 4693 }
whismanoid 0:3edb3708c8c5 4694 break;
whismanoid 0:3edb3708c8c5 4695 case 'a': case 'A':
whismanoid 0:3edb3708c8c5 4696 {
whismanoid 0:3edb3708c8c5 4697 // recommended for hex command codes A0..AF
whismanoid 0:3edb3708c8c5 4698 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4699 {
whismanoid 0:3edb3708c8c5 4700 case 't': case 'T':
whismanoid 0:3edb3708c8c5 4701 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 4702 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 4703 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 4704 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 4705 // AT command: skip the prompt to avoid confusing modem detector
whismanoid 0:3edb3708c8c5 4706 return;
whismanoid 0:3edb3708c8c5 4707 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 4708 }
whismanoid 0:3edb3708c8c5 4709 }
whismanoid 0:3edb3708c8c5 4710 break;
whismanoid 0:3edb3708c8c5 4711 case 'b': case 'B':
whismanoid 0:3edb3708c8c5 4712 {
whismanoid 0:3edb3708c8c5 4713 // recommended for hex command codes B0..BF
whismanoid 0:3edb3708c8c5 4714 }
whismanoid 0:3edb3708c8c5 4715 break;
whismanoid 0:3edb3708c8c5 4716 case 'c': case 'C':
whismanoid 0:3edb3708c8c5 4717 {
whismanoid 0:3edb3708c8c5 4718 // recommended for hex command codes C0..CF
whismanoid 0:3edb3708c8c5 4719 // // MAX5717 menu function to drive MAX5717_CLRb_Pin CLR#
whismanoid 0:3edb3708c8c5 4720 // cmdLine.serial().printf("\r\n C -- CLR# pulse CH high CL low");
whismanoid 0:3edb3708c8c5 4721 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4722 {
whismanoid 0:3edb3708c8c5 4723 default:
whismanoid 0:3edb3708c8c5 4724 // g_MAX5715_device.CLRboutputPulseLow();
whismanoid 0:3edb3708c8c5 4725 g_MAX5715_device.CLRboutputValue(1);
whismanoid 0:3edb3708c8c5 4726 g_MAX5715_device.CLRboutputValue(0);
whismanoid 0:3edb3708c8c5 4727 g_MAX5715_device.CLRboutputValue(1);
whismanoid 0:3edb3708c8c5 4728 break;
whismanoid 0:3edb3708c8c5 4729 case 'H': case 'h': case '1':
whismanoid 0:3edb3708c8c5 4730 g_MAX5715_device.CLRboutputValue(1); // GPIOoutputCLRb(int isLogicHigh);
whismanoid 0:3edb3708c8c5 4731 break;
whismanoid 0:3edb3708c8c5 4732 case 'L': case 'l': case '0':
whismanoid 0:3edb3708c8c5 4733 g_MAX5715_device.CLRboutputValue(0); // GPIOoutputCLRb(int isLogicHigh);
whismanoid 0:3edb3708c8c5 4734 break;
whismanoid 0:3edb3708c8c5 4735 }
whismanoid 0:3edb3708c8c5 4736 }
whismanoid 0:3edb3708c8c5 4737 break;
whismanoid 0:3edb3708c8c5 4738 case 'd': case 'D':
whismanoid 0:3edb3708c8c5 4739 {
whismanoid 0:3edb3708c8c5 4740 // recommended for hex command codes D0..DF
whismanoid 0:3edb3708c8c5 4741 }
whismanoid 0:3edb3708c8c5 4742 break;
whismanoid 0:3edb3708c8c5 4743 case 'e': case 'E':
whismanoid 0:3edb3708c8c5 4744 {
whismanoid 0:3edb3708c8c5 4745 // recommended for hex command codes E0..EF
whismanoid 0:3edb3708c8c5 4746 }
whismanoid 0:3edb3708c8c5 4747 break;
whismanoid 0:3edb3708c8c5 4748 case 'f': case 'F':
whismanoid 0:3edb3708c8c5 4749 {
whismanoid 0:3edb3708c8c5 4750 // recommended for hex command codes F0..FF
whismanoid 0:3edb3708c8c5 4751 }
whismanoid 0:3edb3708c8c5 4752 break;
whismanoid 0:3edb3708c8c5 4753 case 'l': case 'L':
whismanoid 0:3edb3708c8c5 4754 {
whismanoid 0:3edb3708c8c5 4755 // // MAX5717 menu function to drive MAX5717_LDACb_Pin LDAC#
whismanoid 0:3edb3708c8c5 4756 // cmdLine.serial().printf("\r\n L -- LDAC# pulse LH high LL low");
whismanoid 0:3edb3708c8c5 4757 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4758 {
whismanoid 0:3edb3708c8c5 4759 default:
whismanoid 0:3edb3708c8c5 4760 // g_MAX5715_device.LDACboutputPulseLow();
whismanoid 0:3edb3708c8c5 4761 g_MAX5715_device.LDACboutputValue(1);
whismanoid 0:3edb3708c8c5 4762 g_MAX5715_device.LDACboutputValue(0);
whismanoid 0:3edb3708c8c5 4763 g_MAX5715_device.LDACboutputValue(1);
whismanoid 0:3edb3708c8c5 4764 break;
whismanoid 0:3edb3708c8c5 4765 case 'H': case 'h': case '1':
whismanoid 0:3edb3708c8c5 4766 g_MAX5715_device.LDACboutputValue(1); // GPIOoutputLDACb(int isLogicHigh);
whismanoid 0:3edb3708c8c5 4767 break;
whismanoid 0:3edb3708c8c5 4768 case 'L': case 'l': case '0':
whismanoid 0:3edb3708c8c5 4769 g_MAX5715_device.LDACboutputValue(0); // GPIOoutputLDACb(int isLogicHigh);
whismanoid 0:3edb3708c8c5 4770 break;
whismanoid 0:3edb3708c8c5 4771 }
whismanoid 0:3edb3708c8c5 4772 }
whismanoid 0:3edb3708c8c5 4773 break;
whismanoid 0:3edb3708c8c5 4774 case 'x': case 'X':
whismanoid 0:3edb3708c8c5 4775 {
whismanoid 0:3edb3708c8c5 4776 }
whismanoid 0:3edb3708c8c5 4777 break;
whismanoid 0:3edb3708c8c5 4778 case 'y': case 'Y':
whismanoid 0:3edb3708c8c5 4779 {
whismanoid 0:3edb3708c8c5 4780 }
whismanoid 0:3edb3708c8c5 4781 break;
whismanoid 0:3edb3708c8c5 4782 case 'z': case 'Z':
whismanoid 0:3edb3708c8c5 4783 {
whismanoid 0:3edb3708c8c5 4784 }
whismanoid 0:3edb3708c8c5 4785 break;
whismanoid 0:3edb3708c8c5 4786 case '~': // TODO: IGNORE_AT_COMMANDS -- ignore ~~~ modem command
whismanoid 0:3edb3708c8c5 4787 {
whismanoid 0:3edb3708c8c5 4788 // TODO: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 4789 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 4790 {
whismanoid 0:3edb3708c8c5 4791 default:
whismanoid 0:3edb3708c8c5 4792 {
whismanoid 0:3edb3708c8c5 4793 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 4794 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 4795 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n",
whismanoid 0:3edb3708c8c5 4796 cmdLine.str());
whismanoid 0:3edb3708c8c5 4797 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 4798 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 4799 }
whismanoid 0:3edb3708c8c5 4800 }
whismanoid 0:3edb3708c8c5 4801 }
whismanoid 0:3edb3708c8c5 4802 break;
whismanoid 0:3edb3708c8c5 4803 case '+': // TODO: IGNORE_AT_COMMANDS -- ignore +++ modem command
whismanoid 0:3edb3708c8c5 4804 {
whismanoid 0:3edb3708c8c5 4805 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 4806 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 4807 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 4808 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 4809 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 4810 }
whismanoid 0:3edb3708c8c5 4811 break;
whismanoid 0:3edb3708c8c5 4812 case '@':
whismanoid 0:3edb3708c8c5 4813 {
whismanoid 0:3edb3708c8c5 4814 // //
whismanoid 0:3edb3708c8c5 4815 // // Menu @ -- print device configuration
whismanoid 0:3edb3708c8c5 4816 // TODO: cmdLine.serial().printf("\r\n @ -- print MAX5715 configuration");
whismanoid 0:3edb3708c8c5 4817 // //
whismanoid 0:3edb3708c8c5 4818 // print shadow register configuration
whismanoid 0:3edb3708c8c5 4819 //
whismanoid 0:3edb3708c8c5 4820 // shadow of write-only register CODE dddd_dddd_dddd_0000
whismanoid 0:3edb3708c8c5 4821 //~ int16_t CMD_1000_CODE;
whismanoid 0:3edb3708c8c5 4822 int index = 0;
whismanoid 0:3edb3708c8c5 4823 for (index = 0; index < 4; index++)
whismanoid 0:3edb3708c8c5 4824 {
whismanoid 0:3edb3708c8c5 4825 cmdLine.serial().printf("CODE %c=0x%4.4x MAX5715_VoltageOfCode(%d)=%5.3fV\r\n",
whismanoid 0:3edb3708c8c5 4826 (char)('A' + index),
whismanoid 0:3edb3708c8c5 4827 (g_MAX5715_device.Shadow_0010_nnnn_CODE[index] & 0xFFFF),
whismanoid 0:3edb3708c8c5 4828 g_MAX5715_device.CODE[index],
whismanoid 0:3edb3708c8c5 4829 g_MAX5715_device.VoltageOfCode(g_MAX5715_device.CODE[index])
whismanoid 0:3edb3708c8c5 4830 );
whismanoid 0:3edb3708c8c5 4831 }
whismanoid 0:3edb3708c8c5 4832 //
whismanoid 0:3edb3708c8c5 4833 cmdLine.serial().printf("\r\n");
whismanoid 0:3edb3708c8c5 4834 //
whismanoid 0:3edb3708c8c5 4835 //
whismanoid 0:3edb3708c8c5 4836 // Menu @) print MAX5715 configuration AND g_MAX5715_device globals
whismanoid 0:3edb3708c8c5 4837 //
whismanoid 0:3edb3708c8c5 4838 #if 1 // SUPPORT_CHANNELS
whismanoid 0:3edb3708c8c5 4839 cmdLine.serial().printf("channelNumber_0_3=%d channels_bitmask_DCBA=%d\r\n",
whismanoid 0:3edb3708c8c5 4840 (g_MAX5715_device.channelNumber_0_3 & 0xFFFF),
whismanoid 0:3edb3708c8c5 4841 (g_MAX5715_device.channels_bitmask_DCBA & 0xFFFF));
whismanoid 0:3edb3708c8c5 4842 #endif // SUPPORT_CHANNELS
whismanoid 0:3edb3708c8c5 4843 //
whismanoid 0:3edb3708c8c5 4844 cmdLine.serial().printf("VRef=%5.3fV\r\n", g_MAX5715_device.VRef);
whismanoid 0:3edb3708c8c5 4845 // dtostrf width and precision: 3.3V / 1024 LSB = 0.00322265625 volts per LSB
whismanoid 0:3edb3708c8c5 4846 }
whismanoid 0:3edb3708c8c5 4847 break;
whismanoid 0:3edb3708c8c5 4848 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 4849
whismanoid 0:3edb3708c8c5 4850 #if APPLICATION_MAX11131 // main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 4851 case '0':
whismanoid 0:3edb3708c8c5 4852 {
whismanoid 0:3edb3708c8c5 4853 // recommended for hex command codes 00..0F
whismanoid 0:3edb3708c8c5 4854 // VERIFY: console menu command 0 int16_t MAX11131_ScanRead(void);
whismanoid 0:3edb3708c8c5 4855 // TODO: cmdLine.serial().printf("\r\n 0 n=? -- MAX11131_ScanRead");
whismanoid 0:3edb3708c8c5 4856 if (cmdLine.parse_uint16_dec("n", g_MAX11131_device.NumWords))
whismanoid 0:3edb3708c8c5 4857 {
whismanoid 0:3edb3708c8c5 4858 }
whismanoid 0:3edb3708c8c5 4859 cmdLine.serial().printf("ScanRead NumWords=%d", g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 4860 if (g_MAX11131_device.isExternalClock)
whismanoid 0:3edb3708c8c5 4861 {
whismanoid 0:3edb3708c8c5 4862 cmdLine.serial().printf(" External Clock");
whismanoid 0:3edb3708c8c5 4863 //
whismanoid 0:3edb3708c8c5 4864 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 4865 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 4866 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 4867 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 4868 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 4869 //
whismanoid 0:3edb3708c8c5 4870 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 4871 }
whismanoid 0:3edb3708c8c5 4872 else
whismanoid 0:3edb3708c8c5 4873 {
whismanoid 0:3edb3708c8c5 4874 cmdLine.serial().printf(" Internal Clock");
whismanoid 0:3edb3708c8c5 4875 //
whismanoid 0:3edb3708c8c5 4876 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 4877 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 4878 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 4879 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 4880 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 4881 //
whismanoid 0:3edb3708c8c5 4882 AINcode_print_value_chanID(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 4883 }
whismanoid 0:3edb3708c8c5 4884 }
whismanoid 0:3edb3708c8c5 4885 break;
whismanoid 0:3edb3708c8c5 4886 case '1':
whismanoid 0:3edb3708c8c5 4887 {
whismanoid 0:3edb3708c8c5 4888 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 4889 // VERIFY: console menu command 1 MAX11131_ScanManual(int channelNumber_0_15, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 4890 // TODO: cmdLine.serial().printf("\r\n 1 ch=? pm=? id=? -- MAX11131_ScanManual");
whismanoid 0:3edb3708c8c5 4891 if (cmdLine.parse_byte_dec("ch", g_MAX11131_device.channelNumber_0_15))
whismanoid 0:3edb3708c8c5 4892 {
whismanoid 0:3edb3708c8c5 4893 }
whismanoid 0:3edb3708c8c5 4894 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 4895 {
whismanoid 0:3edb3708c8c5 4896 }
whismanoid 0:3edb3708c8c5 4897 if (cmdLine.parse_byte_dec("id", g_MAX11131_device.chan_id_0_1))
whismanoid 0:3edb3708c8c5 4898 {
whismanoid 0:3edb3708c8c5 4899 }
whismanoid 0:3edb3708c8c5 4900 cmdLine.serial().printf("ScanManual ch=%d pm=%d id=%d\r\n",
whismanoid 0:3edb3708c8c5 4901 g_MAX11131_device.channelNumber_0_15,
whismanoid 0:3edb3708c8c5 4902 g_MAX11131_device.PowerManagement_0_2,
whismanoid 0:3edb3708c8c5 4903 g_MAX11131_device.chan_id_0_1);
whismanoid 0:3edb3708c8c5 4904 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 4905 // VERIFY: replace argument with driver global; g_MAX11131_device.chan_id_0_1 replaces chan_id_0_1
whismanoid 0:3edb3708c8c5 4906 // VERIFY: replace argument with driver global; g_MAX11131_device.channelNumber_0_15 replaces channelNumber_0_15
whismanoid 0:3edb3708c8c5 4907 g_MAX11131_device.NumWords = g_MAX11131_device.ScanManual();
whismanoid 0:3edb3708c8c5 4908 //
whismanoid 0:3edb3708c8c5 4909 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 4910 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 4911 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 4912 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 4913 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 4914 //
whismanoid 0:3edb3708c8c5 4915 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 4916 }
whismanoid 0:3edb3708c8c5 4917 break;
whismanoid 0:3edb3708c8c5 4918 case '2':
whismanoid 0:3edb3708c8c5 4919 {
whismanoid 0:3edb3708c8c5 4920 // recommended for hex command codes 20..2F
whismanoid 0:3edb3708c8c5 4921 // VERIFY: console menu command 2 int MAX11131_ScanRepeat(uint8_t channelNumber_0_15, uint8_t average_0_4_8_16_32, uint8_t nscan_4_8_12_16, uint8_t PowerManagement_0_2, uint8_t swcnv_0_1);
whismanoid 0:3edb3708c8c5 4922 // TODO: cmdLine.serial().printf("\r\n 2 ch=? av=? n=? pm=? swcnv=? -- MAX11131_ScanRepeat");
whismanoid 0:3edb3708c8c5 4923 // VERIFY: update value of g_MAX11131_device.channelNumber_0_15 from strCommandArgs
whismanoid 0:3edb3708c8c5 4924 // VERIFY: update value of g_MAX11131_device.average_0_4_8_16_32 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4925 // VERIFY: update value of g_MAX11131_device.nscan_4_8_12_16 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4926 // VERIFY: update value of g_MAX11131_device.swcnv_0_1 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4927 // VERIFY: update value of g_MAX11131_device.PowerManagement_0_2 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4928 // VERIFY: parse strCommandArgs for additional arguments including key=value pairs
whismanoid 0:3edb3708c8c5 4929 if (cmdLine.parse_byte_dec("ch", g_MAX11131_device.channelNumber_0_15))
whismanoid 0:3edb3708c8c5 4930 {
whismanoid 0:3edb3708c8c5 4931 }
whismanoid 0:3edb3708c8c5 4932 if (cmdLine.parse_byte_dec("av", g_MAX11131_device.average_0_4_8_16_32))
whismanoid 0:3edb3708c8c5 4933 {
whismanoid 0:3edb3708c8c5 4934 }
whismanoid 0:3edb3708c8c5 4935 if (cmdLine.parse_byte_dec("n", g_MAX11131_device.nscan_4_8_12_16))
whismanoid 0:3edb3708c8c5 4936 {
whismanoid 0:3edb3708c8c5 4937 }
whismanoid 0:3edb3708c8c5 4938 if (cmdLine.parse_byte_dec("swcnv", g_MAX11131_device.swcnv_0_1))
whismanoid 0:3edb3708c8c5 4939 {
whismanoid 0:3edb3708c8c5 4940 }
whismanoid 0:3edb3708c8c5 4941 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 4942 {
whismanoid 0:3edb3708c8c5 4943 }
whismanoid 0:3edb3708c8c5 4944 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 4945 "ScanRepeat ch=%d average_0_4_8_16_32:%d nscan_4_8_12_16:%d swcnv=%d pm=%d\r\n",
whismanoid 0:3edb3708c8c5 4946 g_MAX11131_device.channelNumber_0_15,
whismanoid 0:3edb3708c8c5 4947 g_MAX11131_device.average_0_4_8_16_32,
whismanoid 0:3edb3708c8c5 4948 g_MAX11131_device.nscan_4_8_12_16,
whismanoid 0:3edb3708c8c5 4949 g_MAX11131_device.swcnv_0_1,
whismanoid 0:3edb3708c8c5 4950 g_MAX11131_device.PowerManagement_0_2);
whismanoid 0:3edb3708c8c5 4951 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 4952 // VERIFY: replace argument with driver global; g_MAX11131_device.swcnv_0_1 replaces swcnv_0_1
whismanoid 0:3edb3708c8c5 4953 // VERIFY: replace argument with driver global; g_MAX11131_device.nscan_4_8_12_16 replaces nscan_4_8_12_16
whismanoid 0:3edb3708c8c5 4954 // VERIFY: replace argument with driver global; g_MAX11131_device.average_0_4_8_16_32 replaces average_0_4_8_16_32
whismanoid 0:3edb3708c8c5 4955 // VERIFY: replace argument with driver global; g_MAX11131_device.channelNumber_0_15 replaces channelNumber_0_15
whismanoid 0:3edb3708c8c5 4956 g_MAX11131_device.NumWords = g_MAX11131_device.ScanRepeat();
whismanoid 0:3edb3708c8c5 4957 //
whismanoid 0:3edb3708c8c5 4958 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 4959 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 4960 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 4961 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 4962 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 4963 //
whismanoid 0:3edb3708c8c5 4964 AINcode_print_value_chanID_mean(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 4965 }
whismanoid 0:3edb3708c8c5 4966 break;
whismanoid 0:3edb3708c8c5 4967 case '3':
whismanoid 0:3edb3708c8c5 4968 {
whismanoid 0:3edb3708c8c5 4969 // recommended for hex command codes 30..3F
whismanoid 0:3edb3708c8c5 4970 // VERIFY: console menu command 3 MAX11131_ScanStandardInternalClock(int channelNumber_0_15, int average_0_4_8_16_32, int PowerManagement_0_2, int swcnv_0_1);
whismanoid 0:3edb3708c8c5 4971 // TODO: cmdLine.serial().printf("\r\n 3 ch=? av=? pm=? swcnv=? -- MAX11131_ScanStandardIntClock");
whismanoid 0:3edb3708c8c5 4972 // VERIFY: update value of g_MAX11131_device.channelNumber_0_15 from strCommandArgs
whismanoid 0:3edb3708c8c5 4973 // VERIFY: update value of g_MAX11131_device.average_0_4_8_16_32 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4974 // VERIFY: update value of g_MAX11131_device.swcnv_0_1 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4975 // VERIFY: update value of g_MAX11131_device.PowerManagement_0_2 option from strCommandArgs
whismanoid 0:3edb3708c8c5 4976 if (cmdLine.parse_byte_dec("ch", g_MAX11131_device.channelNumber_0_15))
whismanoid 0:3edb3708c8c5 4977 {
whismanoid 0:3edb3708c8c5 4978 }
whismanoid 0:3edb3708c8c5 4979 if (cmdLine.parse_byte_dec("av", g_MAX11131_device.average_0_4_8_16_32))
whismanoid 0:3edb3708c8c5 4980 {
whismanoid 0:3edb3708c8c5 4981 }
whismanoid 0:3edb3708c8c5 4982 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 4983 {
whismanoid 0:3edb3708c8c5 4984 }
whismanoid 0:3edb3708c8c5 4985 if (cmdLine.parse_byte_dec("swcnv", g_MAX11131_device.swcnv_0_1))
whismanoid 0:3edb3708c8c5 4986 {
whismanoid 0:3edb3708c8c5 4987 }
whismanoid 0:3edb3708c8c5 4988 cmdLine.serial().printf("ScanStandardInternalClock ch=%d average_0_4_8_16_32:%d swcnv=%d pm=%d\r\n",
whismanoid 0:3edb3708c8c5 4989 g_MAX11131_device.channelNumber_0_15,
whismanoid 0:3edb3708c8c5 4990 g_MAX11131_device.average_0_4_8_16_32,
whismanoid 0:3edb3708c8c5 4991 g_MAX11131_device.swcnv_0_1,
whismanoid 0:3edb3708c8c5 4992 g_MAX11131_device.PowerManagement_0_2
whismanoid 0:3edb3708c8c5 4993 );
whismanoid 0:3edb3708c8c5 4994 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 4995 // VERIFY: replace argument with driver global; g_MAX11131_device.swcnv_0_1 replaces swcnv_0_1
whismanoid 0:3edb3708c8c5 4996 // VERIFY: replace argument with driver global; g_MAX11131_device.average_0_4_8_16_32 replaces average_0_4_8_16_32
whismanoid 0:3edb3708c8c5 4997 // VERIFY: replace argument with driver global; g_MAX11131_device.channelNumber_0_15 replaces channelNumber_0_15
whismanoid 0:3edb3708c8c5 4998 g_MAX11131_device.NumWords = g_MAX11131_device.ScanStandardInternalClock();
whismanoid 0:3edb3708c8c5 4999 //
whismanoid 0:3edb3708c8c5 5000 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5001 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5002 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5003 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5004 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5005 //
whismanoid 0:3edb3708c8c5 5006 AINcode_print_value_chanID(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5007 }
whismanoid 0:3edb3708c8c5 5008 break;
whismanoid 0:3edb3708c8c5 5009 case '4':
whismanoid 0:3edb3708c8c5 5010 {
whismanoid 0:3edb3708c8c5 5011 // recommended for hex command codes 40..4F
whismanoid 0:3edb3708c8c5 5012 // VERIFY: console menu command 4 MAX11131_ScanStandardExternalClock(int channelNumber_0_15, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 5013 // TODO: cmdLine.serial().printf("\r\n 4 ch=? pm=? id=? -- MAX11131_ScanStandardExtClock");
whismanoid 0:3edb3708c8c5 5014 // VERIFY: update value of g_MAX11131_device.channelNumber_0_15 from strCommandArgs
whismanoid 0:3edb3708c8c5 5015 // VERIFY: update value of g_MAX11131_device.PowerManagement_0_2 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5016 // VERIFY: update value of g_MAX11131_device.chan_id_0_1 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5017 if (cmdLine.parse_byte_dec("ch", g_MAX11131_device.channelNumber_0_15))
whismanoid 0:3edb3708c8c5 5018 {
whismanoid 0:3edb3708c8c5 5019 }
whismanoid 0:3edb3708c8c5 5020 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 5021 {
whismanoid 0:3edb3708c8c5 5022 }
whismanoid 0:3edb3708c8c5 5023 if (cmdLine.parse_byte_dec("id", g_MAX11131_device.chan_id_0_1))
whismanoid 0:3edb3708c8c5 5024 {
whismanoid 0:3edb3708c8c5 5025 }
whismanoid 0:3edb3708c8c5 5026 cmdLine.serial().printf("ScanStandardExternalClock ch=%d pm=%d id=%d\r\n",
whismanoid 0:3edb3708c8c5 5027 g_MAX11131_device.channelNumber_0_15,
whismanoid 0:3edb3708c8c5 5028 g_MAX11131_device.PowerManagement_0_2,
whismanoid 0:3edb3708c8c5 5029 g_MAX11131_device.chan_id_0_1
whismanoid 0:3edb3708c8c5 5030 );
whismanoid 0:3edb3708c8c5 5031 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5032 // VERIFY: replace argument with driver global; g_MAX11131_device.chan_id_0_1 replaces chan_id_0_1
whismanoid 0:3edb3708c8c5 5033 // VERIFY: replace argument with driver global; g_MAX11131_device.channelNumber_0_15 replaces channelNumber_0_15
whismanoid 0:3edb3708c8c5 5034 g_MAX11131_device.NumWords = g_MAX11131_device.ScanStandardExternalClock();
whismanoid 0:3edb3708c8c5 5035 //
whismanoid 0:3edb3708c8c5 5036 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5037 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5038 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5039 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5040 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5041 //
whismanoid 0:3edb3708c8c5 5042 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5043 }
whismanoid 0:3edb3708c8c5 5044 break;
whismanoid 0:3edb3708c8c5 5045 case '5':
whismanoid 0:3edb3708c8c5 5046 {
whismanoid 0:3edb3708c8c5 5047 // recommended for hex command codes 50..5F
whismanoid 0:3edb3708c8c5 5048 // VERIFY: console menu command 5 MAX11131_ScanUpperInternalClock(int channelNumber_0_15, int average_0_4_8_16_32, int PowerManagement_0_2, int swcnv_0_1);
whismanoid 0:3edb3708c8c5 5049 // TODO: cmdLine.serial().printf("\r\n 5 ch=? av=? pm=? swcnv=? -- MAX11131_ScanUpperIntClock");
whismanoid 0:3edb3708c8c5 5050 // VERIFY: update value of g_MAX11131_device.channelNumber_0_15 from strCommandArgs
whismanoid 0:3edb3708c8c5 5051 // VERIFY: update value of g_MAX11131_device.average_0_4_8_16_32 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5052 // VERIFY: update value of g_MAX11131_device.swcnv_0_1 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5053 // VERIFY: update value of g_MAX11131_device.PowerManagement_0_2 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5054 if (cmdLine.parse_byte_dec("ch", g_MAX11131_device.channelNumber_0_15))
whismanoid 0:3edb3708c8c5 5055 {
whismanoid 0:3edb3708c8c5 5056 }
whismanoid 0:3edb3708c8c5 5057 if (cmdLine.parse_byte_dec("av", g_MAX11131_device.average_0_4_8_16_32))
whismanoid 0:3edb3708c8c5 5058 {
whismanoid 0:3edb3708c8c5 5059 }
whismanoid 0:3edb3708c8c5 5060 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 5061 {
whismanoid 0:3edb3708c8c5 5062 }
whismanoid 0:3edb3708c8c5 5063 if (cmdLine.parse_byte_dec("swcnv", g_MAX11131_device.swcnv_0_1))
whismanoid 0:3edb3708c8c5 5064 {
whismanoid 0:3edb3708c8c5 5065 }
whismanoid 0:3edb3708c8c5 5066 cmdLine.serial().printf("ScanUpperInternalClock ch=%d average_0_4_8_16_32:%d swcnv=%d pm=%d\r\n",
whismanoid 0:3edb3708c8c5 5067 g_MAX11131_device.channelNumber_0_15,
whismanoid 0:3edb3708c8c5 5068 g_MAX11131_device.average_0_4_8_16_32,
whismanoid 0:3edb3708c8c5 5069 g_MAX11131_device.swcnv_0_1,
whismanoid 0:3edb3708c8c5 5070 g_MAX11131_device.PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5071 );
whismanoid 0:3edb3708c8c5 5072 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5073 // VERIFY: replace argument with driver global; g_MAX11131_device.swcnv_0_1 replaces swcnv_0_1
whismanoid 0:3edb3708c8c5 5074 // VERIFY: replace argument with driver global; g_MAX11131_device.average_0_4_8_16_32 replaces average_0_4_8_16_32
whismanoid 0:3edb3708c8c5 5075 // VERIFY: replace argument with driver global; g_MAX11131_device.channelNumber_0_15 replaces channelNumber_0_15
whismanoid 0:3edb3708c8c5 5076 g_MAX11131_device.NumWords = g_MAX11131_device.ScanUpperInternalClock();
whismanoid 0:3edb3708c8c5 5077 //
whismanoid 0:3edb3708c8c5 5078 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5079 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5080 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5081 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5082 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5083 //
whismanoid 0:3edb3708c8c5 5084 AINcode_print_value_chanID(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5085 }
whismanoid 0:3edb3708c8c5 5086 break;
whismanoid 0:3edb3708c8c5 5087 case '6':
whismanoid 0:3edb3708c8c5 5088 {
whismanoid 0:3edb3708c8c5 5089 // recommended for hex command codes 60..6F
whismanoid 0:3edb3708c8c5 5090 // VERIFY: console menu command 6 MAX11131_ScanUpperExternalClock(int channelNumber_0_15, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 5091 // TODO: cmdLine.serial().printf("\r\n 6 ch=? pm=? id=? -- MAX11131_ScanUpperExtClock");
whismanoid 0:3edb3708c8c5 5092 // VERIFY: update value of g_MAX11131_device.channelNumber_0_15 from strCommandArgs
whismanoid 0:3edb3708c8c5 5093 // VERIFY: update value of g_MAX11131_device.PowerManagement_0_2 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5094 // VERIFY: update value of g_MAX11131_device.chan_id_0_1 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5095 if (cmdLine.parse_byte_dec("ch", g_MAX11131_device.channelNumber_0_15))
whismanoid 0:3edb3708c8c5 5096 {
whismanoid 0:3edb3708c8c5 5097 }
whismanoid 0:3edb3708c8c5 5098 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 5099 {
whismanoid 0:3edb3708c8c5 5100 }
whismanoid 0:3edb3708c8c5 5101 if (cmdLine.parse_byte_dec("id", g_MAX11131_device.chan_id_0_1))
whismanoid 0:3edb3708c8c5 5102 {
whismanoid 0:3edb3708c8c5 5103 }
whismanoid 0:3edb3708c8c5 5104 cmdLine.serial().printf("ScanUpperExternalClock ch=%d pm=%d id=%d\r\n",
whismanoid 0:3edb3708c8c5 5105 g_MAX11131_device.channelNumber_0_15,
whismanoid 0:3edb3708c8c5 5106 g_MAX11131_device.PowerManagement_0_2,
whismanoid 0:3edb3708c8c5 5107 g_MAX11131_device.chan_id_0_1
whismanoid 0:3edb3708c8c5 5108 );
whismanoid 0:3edb3708c8c5 5109 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5110 // VERIFY: replace argument with driver global; g_MAX11131_device.chan_id_0_1 replaces chan_id_0_1
whismanoid 0:3edb3708c8c5 5111 // VERIFY: replace argument with driver global; g_MAX11131_device.channelNumber_0_15 replaces channelNumber_0_15
whismanoid 0:3edb3708c8c5 5112 g_MAX11131_device.NumWords = g_MAX11131_device.ScanUpperExternalClock();
whismanoid 0:3edb3708c8c5 5113 //
whismanoid 0:3edb3708c8c5 5114 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5115 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5116 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5117 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5118 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5119 //
whismanoid 0:3edb3708c8c5 5120 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5121 }
whismanoid 0:3edb3708c8c5 5122 break;
whismanoid 0:3edb3708c8c5 5123 case '7':
whismanoid 0:3edb3708c8c5 5124 {
whismanoid 0:3edb3708c8c5 5125 // recommended for hex command codes 70..7F
whismanoid 0:3edb3708c8c5 5126 // VERIFY: console menu command 7 MAX11131_ScanCustomInternalClock(int16_t enabledChannelsMask, int average_0_4_8_16_32, int PowerManagement_0_2, int swcnv_0_1);
whismanoid 0:3edb3708c8c5 5127 // TODO: cmdLine.serial().printf("\r\n 7 enableMask=0xffff av=? pm=? swcnv=? -- MAX11131_ScanCustomIntClock");
whismanoid 0:3edb3708c8c5 5128 // VERIFY: update value of g_MAX11131_device.average_0_4_8_16_32 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5129 // VERIFY: update value of g_MAX11131_device.swcnv_0_1 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5130 // VERIFY: update value of g_MAX11131_device.PowerManagement_0_2 option from strCommandArgs
whismanoid 0:3edb3708c8c5 5131 if (cmdLine.parse_int16_hex("enableMask", g_MAX11131_device.enabledChannelsMask))
whismanoid 0:3edb3708c8c5 5132 {
whismanoid 0:3edb3708c8c5 5133 // TODO1: get g_MAX11131_device.enabledChannelsMask from strCommandArgs
whismanoid 0:3edb3708c8c5 5134 }
whismanoid 0:3edb3708c8c5 5135 if (cmdLine.parse_byte_dec("av", g_MAX11131_device.average_0_4_8_16_32))
whismanoid 0:3edb3708c8c5 5136 {
whismanoid 0:3edb3708c8c5 5137 }
whismanoid 0:3edb3708c8c5 5138 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 5139 {
whismanoid 0:3edb3708c8c5 5140 }
whismanoid 0:3edb3708c8c5 5141 if (cmdLine.parse_byte_dec("swcnv", g_MAX11131_device.swcnv_0_1))
whismanoid 0:3edb3708c8c5 5142 {
whismanoid 0:3edb3708c8c5 5143 }
whismanoid 0:3edb3708c8c5 5144 cmdLine.serial().printf(
whismanoid 0:3edb3708c8c5 5145 "ScanCustomInternalClock enabledChannelsMask:0x%4.4x average_0_4_8_16_32:%d pm=%d swcnv=%d\r\n",
whismanoid 0:3edb3708c8c5 5146 (g_MAX11131_device.enabledChannelsMask & 0xFFFF),
whismanoid 0:3edb3708c8c5 5147 g_MAX11131_device.average_0_4_8_16_32,
whismanoid 0:3edb3708c8c5 5148 g_MAX11131_device.PowerManagement_0_2,
whismanoid 0:3edb3708c8c5 5149 g_MAX11131_device.swcnv_0_1
whismanoid 0:3edb3708c8c5 5150 );
whismanoid 0:3edb3708c8c5 5151 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5152 // VERIFY: replace argument with driver global; g_MAX11131_device.swcnv_0_1 replaces swcnv_0_1
whismanoid 0:3edb3708c8c5 5153 // VERIFY: replace argument with driver global; g_MAX11131_device.average_0_4_8_16_32 replaces average_0_4_8_16_32
whismanoid 0:3edb3708c8c5 5154 // VERIFY: replace argument with driver global; g_MAX11131_device.enabledChannelsMask replaces enabledChannelsMask
whismanoid 0:3edb3708c8c5 5155 g_MAX11131_device.NumWords = g_MAX11131_device.ScanCustomInternalClock();
whismanoid 0:3edb3708c8c5 5156 //
whismanoid 0:3edb3708c8c5 5157 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5158 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5159 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5160 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5161 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5162 //
whismanoid 0:3edb3708c8c5 5163 AINcode_print_value_chanID(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5164 }
whismanoid 0:3edb3708c8c5 5165 break;
whismanoid 0:3edb3708c8c5 5166 case '8':
whismanoid 0:3edb3708c8c5 5167 {
whismanoid 0:3edb3708c8c5 5168 // recommended for hex command codes 80..8F
whismanoid 0:3edb3708c8c5 5169 // VERIFY: console menu command 8 MAX11131_ScanCustomExternalClock(int16_t enabledChannelsMask, int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 5170 // TODO: cmdLine.serial().printf("\r\n 8 enableMask=0xffff pm=0 id=1 -- MAX11131_ScanCustomExtClock");
whismanoid 0:3edb3708c8c5 5171 if (cmdLine.parse_int16_hex("enableMask", g_MAX11131_device.enabledChannelsMask))
whismanoid 0:3edb3708c8c5 5172 {
whismanoid 0:3edb3708c8c5 5173 // TODO1: get g_MAX11131_device.enabledChannelsMask from strCommandArgs
whismanoid 0:3edb3708c8c5 5174 }
whismanoid 0:3edb3708c8c5 5175 if (cmdLine.parse_byte_dec("pm", g_MAX11131_device.PowerManagement_0_2))
whismanoid 0:3edb3708c8c5 5176 {
whismanoid 0:3edb3708c8c5 5177 }
whismanoid 0:3edb3708c8c5 5178 if (cmdLine.parse_byte_dec("id", g_MAX11131_device.chan_id_0_1))
whismanoid 0:3edb3708c8c5 5179 {
whismanoid 0:3edb3708c8c5 5180 }
whismanoid 0:3edb3708c8c5 5181 cmdLine.serial().printf("ScanCustomExternalClock enabledChannelsMask:0x%4.4x pm=%d id=%d\r\n",
whismanoid 0:3edb3708c8c5 5182 (g_MAX11131_device.enabledChannelsMask & 0xFFFF),
whismanoid 0:3edb3708c8c5 5183 g_MAX11131_device.PowerManagement_0_2,
whismanoid 0:3edb3708c8c5 5184 g_MAX11131_device.chan_id_0_1
whismanoid 0:3edb3708c8c5 5185 );
whismanoid 0:3edb3708c8c5 5186 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5187 // VERIFY: replace argument with driver global; g_MAX11131_device.chan_id_0_1 replaces chan_id_0_1
whismanoid 0:3edb3708c8c5 5188 // VERIFY: replace argument with driver global; g_MAX11131_device.enabledChannelsMask replaces enabledChannelsMask
whismanoid 0:3edb3708c8c5 5189 g_MAX11131_device.NumWords = g_MAX11131_device.ScanCustomExternalClock();
whismanoid 0:3edb3708c8c5 5190 //
whismanoid 0:3edb3708c8c5 5191 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5192 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5193 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5194 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5195 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5196 //
whismanoid 0:3edb3708c8c5 5197 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5198 }
whismanoid 0:3edb3708c8c5 5199 break;
whismanoid 0:3edb3708c8c5 5200 case '9':
whismanoid 0:3edb3708c8c5 5201 {
whismanoid 0:3edb3708c8c5 5202 // recommended for hex command codes 90..9F
whismanoid 0:3edb3708c8c5 5203 // VERIFY: console menu command 9 MAX11131_ScanSampleSetExternalClock(uint8_t enabledChannelsPatternLength_1_256, int16_t enabledChannelsPattern[], int PowerManagement_0_2, int chan_id_0_1);
whismanoid 0:3edb3708c8c5 5204 // TODO: cmdLine.serial().printf("\r\n 9 channelsPattern... pm=? id=? | len=? -- MAX11131_ScanSampleSetExtClock");
whismanoid 0:3edb3708c8c5 5205 //
whismanoid 0:3edb3708c8c5 5206 // get MAX11131 Sampleset channel selection pattern parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 5207 // cmdLine.parse_byteCount_byteList_dec(byteCount, mosiData, MAX_SPI_BYTE_COUNT)
whismanoid 0:3edb3708c8c5 5208 // into g_MAX11131_device.enabledChannelsPatternLength_1_256
whismanoid 0:3edb3708c8c5 5209 // into g_MAX11131_device.enabledChannelsPattern[0..255]
whismanoid 0:3edb3708c8c5 5210 size_t numValues;
whismanoid 0:3edb3708c8c5 5211 char valueList[256];
whismanoid 0:3edb3708c8c5 5212 if (cmdLine.parse_byteCount_byteList_dec( numValues, valueList, 256))
whismanoid 0:3edb3708c8c5 5213 {
whismanoid 0:3edb3708c8c5 5214 // first value is the "9" command itself
whismanoid 0:3edb3708c8c5 5215 g_MAX11131_device.enabledChannelsPatternLength_1_256 = numValues - 1;
whismanoid 0:3edb3708c8c5 5216 // copy valueList[1, ...] into g_MAX11131_device.enabledChannelsPattern[0, ...]
whismanoid 0:3edb3708c8c5 5217 for (size_t index = 0; index < (numValues - 1); index++)
whismanoid 0:3edb3708c8c5 5218 {
whismanoid 0:3edb3708c8c5 5219 g_MAX11131_device.enabledChannelsPattern[index] = valueList[1 + index];
whismanoid 0:3edb3708c8c5 5220 }
whismanoid 0:3edb3708c8c5 5221 }
whismanoid 0:3edb3708c8c5 5222 //
whismanoid 0:3edb3708c8c5 5223 cmdLine.serial().printf("ScanSampleSetExternalClock enabledChannelsPattern:{ ");
whismanoid 0:3edb3708c8c5 5224 int index;
whismanoid 0:3edb3708c8c5 5225 for (index = 0; index < g_MAX11131_device.enabledChannelsPatternLength_1_256; index++)
whismanoid 0:3edb3708c8c5 5226 {
whismanoid 0:3edb3708c8c5 5227 //~ Serial.print( ((g_enabledChannelsPattern[index] >> 4) & 0x000F), DEC);
whismanoid 0:3edb3708c8c5 5228 //~ Serial.print(" ");
whismanoid 0:3edb3708c8c5 5229 cmdLine.serial().printf("AIN%d ", ((g_MAX11131_device.enabledChannelsPattern[index]) & 0x000F));
whismanoid 0:3edb3708c8c5 5230 }
whismanoid 0:3edb3708c8c5 5231 cmdLine.serial().printf("}");
whismanoid 0:3edb3708c8c5 5232 cmdLine.serial().printf(" pm=%d id=%d\r\n", g_MAX11131_device.PowerManagement_0_2,
whismanoid 0:3edb3708c8c5 5233 g_MAX11131_device.chan_id_0_1);
whismanoid 0:3edb3708c8c5 5234 // VERIFY: replace argument with driver global; g_MAX11131_device.PowerManagement_0_2 replaces PowerManagement_0_2
whismanoid 0:3edb3708c8c5 5235 // VERIFY: replace argument with driver global; g_MAX11131_device.chan_id_0_1 replaces chan_id_0_1
whismanoid 0:3edb3708c8c5 5236 g_MAX11131_device.NumWords = g_MAX11131_device.ScanSampleSetExternalClock();
whismanoid 0:3edb3708c8c5 5237 //
whismanoid 0:3edb3708c8c5 5238 // Read raw ADC codes from device into AINcode[] and RAW_misoData16[]
whismanoid 0:3edb3708c8c5 5239 // @pre one of the MAX11311_Scan functions was called, setting g_MAX11131_device.NumWords
whismanoid 0:3edb3708c8c5 5240 g_MAX11131_device.ReadAINcode();
whismanoid 0:3edb3708c8c5 5241 // @post RAW_misoData16[index] contains the raw SPI Master-In,Slave-Out data
whismanoid 0:3edb3708c8c5 5242 // @post AINcode[NUM_CHANNELS] contains the latest readings in LSBs
whismanoid 0:3edb3708c8c5 5243 //
whismanoid 0:3edb3708c8c5 5244 AINcode_print_value_externalClock(cmdLine, g_MAX11131_device.NumWords);
whismanoid 0:3edb3708c8c5 5245 }
whismanoid 0:3edb3708c8c5 5246 break;
whismanoid 0:3edb3708c8c5 5247 case 'a': case 'A':
whismanoid 0:3edb3708c8c5 5248 {
whismanoid 0:3edb3708c8c5 5249 // recommended for hex command codes A0..AF
whismanoid 0:3edb3708c8c5 5250 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5251 {
whismanoid 0:3edb3708c8c5 5252 case 't': case 'T':
whismanoid 0:3edb3708c8c5 5253 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5254 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5255 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5256 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5257 // AT command: skip the prompt to avoid confusing modem detector
whismanoid 0:3edb3708c8c5 5258 return;
whismanoid 0:3edb3708c8c5 5259 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5260 }
whismanoid 0:3edb3708c8c5 5261 }
whismanoid 0:3edb3708c8c5 5262 break;
whismanoid 0:3edb3708c8c5 5263 case 'b': case 'B':
whismanoid 0:3edb3708c8c5 5264 {
whismanoid 0:3edb3708c8c5 5265 // recommended for hex command codes B0..BF
whismanoid 0:3edb3708c8c5 5266 }
whismanoid 0:3edb3708c8c5 5267 break;
whismanoid 0:3edb3708c8c5 5268 case 'c': case 'C':
whismanoid 0:3edb3708c8c5 5269 {
whismanoid 0:3edb3708c8c5 5270 // recommended for hex command codes C0..CF
whismanoid 0:3edb3708c8c5 5271 }
whismanoid 0:3edb3708c8c5 5272 break;
whismanoid 0:3edb3708c8c5 5273 case 'd': case 'D':
whismanoid 0:3edb3708c8c5 5274 {
whismanoid 0:3edb3708c8c5 5275 // recommended for hex command codes D0..DF
whismanoid 0:3edb3708c8c5 5276 }
whismanoid 0:3edb3708c8c5 5277 break;
whismanoid 0:3edb3708c8c5 5278 case 'e': case 'E':
whismanoid 0:3edb3708c8c5 5279 {
whismanoid 0:3edb3708c8c5 5280 // recommended for hex command codes E0..EF
whismanoid 0:3edb3708c8c5 5281 }
whismanoid 0:3edb3708c8c5 5282 break;
whismanoid 0:3edb3708c8c5 5283 case 'f': case 'F':
whismanoid 0:3edb3708c8c5 5284 {
whismanoid 0:3edb3708c8c5 5285 // recommended for hex command codes F0..FF
whismanoid 0:3edb3708c8c5 5286 }
whismanoid 0:3edb3708c8c5 5287 break;
whismanoid 0:3edb3708c8c5 5288 case 'x': case 'X':
whismanoid 0:3edb3708c8c5 5289 {
whismanoid 0:3edb3708c8c5 5290 }
whismanoid 0:3edb3708c8c5 5291 break;
whismanoid 0:3edb3708c8c5 5292 case 'y': case 'Y':
whismanoid 0:3edb3708c8c5 5293 {
whismanoid 0:3edb3708c8c5 5294 }
whismanoid 0:3edb3708c8c5 5295 break;
whismanoid 0:3edb3708c8c5 5296 case 'i': case 'I':
whismanoid 0:3edb3708c8c5 5297 {
whismanoid 0:3edb3708c8c5 5298 // TODO: cmdLine.serial().printf("\r\n ISc) IUc) IBc) IRc) reconfigure channel single-ended/unipolar/bipolar/range");
whismanoid 0:3edb3708c8c5 5299 char strChannelId[3];
whismanoid 0:3edb3708c8c5 5300 strChannelId[0] = cmdLine[2];
whismanoid 0:3edb3708c8c5 5301 strChannelId[1] = cmdLine[3];
whismanoid 0:3edb3708c8c5 5302 strChannelId[2] = '\0';
whismanoid 0:3edb3708c8c5 5303 int channelId_0_15 = strtoul(strChannelId, NULL, 10); // strtol(str, NULL, 10): get decimal value
whismanoid 0:3edb3708c8c5 5304 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5305 {
whismanoid 0:3edb3708c8c5 5306 case 's': case 'S':
whismanoid 0:3edb3708c8c5 5307 g_MAX11131_device.Reconfigure_SingleEnded(channelId_0_15);
whismanoid 0:3edb3708c8c5 5308 break;
whismanoid 0:3edb3708c8c5 5309 case 'u': case 'U':
whismanoid 0:3edb3708c8c5 5310 g_MAX11131_device.Reconfigure_DifferentialUnipolar(channelId_0_15);
whismanoid 0:3edb3708c8c5 5311 break;
whismanoid 0:3edb3708c8c5 5312 case 'b': case 'B':
whismanoid 0:3edb3708c8c5 5313 g_MAX11131_device.Reconfigure_DifferentialBipolarFSVref(channelId_0_15);
whismanoid 0:3edb3708c8c5 5314 break;
whismanoid 0:3edb3708c8c5 5315 case 'r': case 'R':
whismanoid 0:3edb3708c8c5 5316 g_MAX11131_device.Reconfigure_DifferentialBipolarFS2Vref(channelId_0_15);
whismanoid 0:3edb3708c8c5 5317 break;
whismanoid 0:3edb3708c8c5 5318 }
whismanoid 0:3edb3708c8c5 5319 // char cmd1 = strCommandArgs[0];
whismanoid 0:3edb3708c8c5 5320 // strCommandArgs.remove(0, 1); // unsigned int index, unsigned int count
whismanoid 0:3edb3708c8c5 5321 // // get argument int channelId_0_15
whismanoid 0:3edb3708c8c5 5322 // // parse_strCommandArgs(strCommandArgs);
whismanoid 0:3edb3708c8c5 5323 // int channelId_0_15 = strtoul(strCommandArgs.c_str(), NULL, 10); // strtol(str, NULL, 10): get decimal value
whismanoid 0:3edb3708c8c5 5324 // if (cmd1 == 'S') {
whismanoid 0:3edb3708c8c5 5325 // MAX11131_Reconfigure_SingleEnded(channelId_0_15);
whismanoid 0:3edb3708c8c5 5326 // }
whismanoid 0:3edb3708c8c5 5327 // else if (cmd1 == 'U') {
whismanoid 0:3edb3708c8c5 5328 // MAX11131_Reconfigure_DifferentialUnipolar(channelId_0_15);
whismanoid 0:3edb3708c8c5 5329 // }
whismanoid 0:3edb3708c8c5 5330 // else if (cmd1 == 'B') {
whismanoid 0:3edb3708c8c5 5331 // MAX11131_Reconfigure_DifferentialBipolarFSVref(channelId_0_15);
whismanoid 0:3edb3708c8c5 5332 // }
whismanoid 0:3edb3708c8c5 5333 // else if (cmd1 == 'R') {
whismanoid 0:3edb3708c8c5 5334 // MAX11131_Reconfigure_DifferentialBipolarFS2Vref(channelId_0_15);
whismanoid 0:3edb3708c8c5 5335 // }
whismanoid 0:3edb3708c8c5 5336 }
whismanoid 0:3edb3708c8c5 5337 break;
whismanoid 0:3edb3708c8c5 5338 case '@':
whismanoid 0:3edb3708c8c5 5339 {
whismanoid 0:3edb3708c8c5 5340 // TODO: cmdLine.serial().printf("\r\n @ -- print MAX11131 configuration");
whismanoid 0:3edb3708c8c5 5341 // print shadow register configuration
whismanoid 0:3edb3708c8c5 5342 //
whismanoid 0:3edb3708c8c5 5343 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.ADC_MODE_CONTROL & 0xFFFF));
whismanoid 0:3edb3708c8c5 5344 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.ADC_MODE_CONTROL);
whismanoid 0:3edb3708c8c5 5345 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.ADC_CONFIGURATION & 0xFFFF));
whismanoid 0:3edb3708c8c5 5346 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.ADC_CONFIGURATION);
whismanoid 0:3edb3708c8c5 5347 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.UNIPOLAR & 0xFFFF));
whismanoid 0:3edb3708c8c5 5348 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.UNIPOLAR);
whismanoid 0:3edb3708c8c5 5349 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.BIPOLAR & 0xFFFF));
whismanoid 0:3edb3708c8c5 5350 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.BIPOLAR);
whismanoid 0:3edb3708c8c5 5351 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.RANGE & 0xFFFF));
whismanoid 0:3edb3708c8c5 5352 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.RANGE);
whismanoid 0:3edb3708c8c5 5353 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.CSCAN0 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5354 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.CSCAN0);
whismanoid 0:3edb3708c8c5 5355 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.CSCAN1 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5356 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.CSCAN1);
whismanoid 0:3edb3708c8c5 5357 cmdLine.serial().printf("0x%4.4x", (g_MAX11131_device.SAMPLESET & 0xFFFF));
whismanoid 0:3edb3708c8c5 5358 MAX11131_print_register_verbose(cmdLine, g_MAX11131_device.SAMPLESET);
whismanoid 0:3edb3708c8c5 5359 //
whismanoid 0:3edb3708c8c5 5360 // VERIFY: print shadow SAMPLESET pattern entry
whismanoid 0:3edb3708c8c5 5361 int entryIndex;
whismanoid 0:3edb3708c8c5 5362 for (entryIndex = 0; entryIndex < g_MAX11131_device.enabledChannelsPatternLength_1_256;
whismanoid 0:3edb3708c8c5 5363 entryIndex += 4)
whismanoid 0:3edb3708c8c5 5364 {
whismanoid 0:3edb3708c8c5 5365 uint16_t pack4channels = 0;
whismanoid 0:3edb3708c8c5 5366 pack4channels |= (((g_MAX11131_device.enabledChannelsPattern[entryIndex + 0]) & 0x0F) << 12);
whismanoid 0:3edb3708c8c5 5367 if ((entryIndex + 1) < g_MAX11131_device.enabledChannelsPatternLength_1_256) {
whismanoid 0:3edb3708c8c5 5368 pack4channels |= (((g_MAX11131_device.enabledChannelsPattern[entryIndex + 1]) & 0x0F) << 8);
whismanoid 0:3edb3708c8c5 5369 }
whismanoid 0:3edb3708c8c5 5370 if ((entryIndex + 2) < g_MAX11131_device.enabledChannelsPatternLength_1_256) {
whismanoid 0:3edb3708c8c5 5371 pack4channels |= (((g_MAX11131_device.enabledChannelsPattern[entryIndex + 2]) & 0x0F) << 4);
whismanoid 0:3edb3708c8c5 5372 }
whismanoid 0:3edb3708c8c5 5373 if ((entryIndex + 3) < g_MAX11131_device.enabledChannelsPatternLength_1_256) {
whismanoid 0:3edb3708c8c5 5374 pack4channels |= ((g_MAX11131_device.enabledChannelsPattern[entryIndex + 3]) & 0x0F);
whismanoid 0:3edb3708c8c5 5375 }
whismanoid 0:3edb3708c8c5 5376 //~ SPIwrite16bits(pack4channels);
whismanoid 0:3edb3708c8c5 5377 cmdLine.serial().printf(" 0x%4.4x", (pack4channels & 0xFFFF));
whismanoid 0:3edb3708c8c5 5378 // decode SAMPLESET channel select pattern
whismanoid 0:3edb3708c8c5 5379 cmdLine.serial().printf(" SampleSet Entry: AIN%d AIN%d AIN%d AIN%d\r\n",
whismanoid 0:3edb3708c8c5 5380 ((pack4channels >> 12) & 0x000F),
whismanoid 0:3edb3708c8c5 5381 ((pack4channels >> 8) & 0x000F),
whismanoid 0:3edb3708c8c5 5382 ((pack4channels >> 4) & 0x000F),
whismanoid 0:3edb3708c8c5 5383 ((pack4channels ) & 0x000F)
whismanoid 0:3edb3708c8c5 5384 );
whismanoid 0:3edb3708c8c5 5385 }
whismanoid 0:3edb3708c8c5 5386 //cmdLine.serial().printf(" SAMPLESET enabledChannelsPattern:{ ");
whismanoid 0:3edb3708c8c5 5387 //int index;
whismanoid 0:3edb3708c8c5 5388 //for (index = 0; index < g_MAX11131_device.enabledChannelsPatternLength_1_256; index++)
whismanoid 0:3edb3708c8c5 5389 //{
whismanoid 0:3edb3708c8c5 5390 // //~ cmdLine.serial().printf( ((g_enabledChannelsPattern[index] >> 4) & 0x000F), DEC);
whismanoid 0:3edb3708c8c5 5391 // //~ cmdLine.serial().printf(" ");
whismanoid 0:3edb3708c8c5 5392 // cmdLine.serial().printf("AIN");
whismanoid 0:3edb3708c8c5 5393 // cmdLine.serial().printf( ((g_MAX11131_device.enabledChannelsPattern[index]) & 0x000F), DEC);
whismanoid 0:3edb3708c8c5 5394 // cmdLine.serial().printf(" ");
whismanoid 0:3edb3708c8c5 5395 //}
whismanoid 0:3edb3708c8c5 5396 //cmdLine.serial().printf("}");
whismanoid 0:3edb3708c8c5 5397 //
whismanoid 0:3edb3708c8c5 5398 // Menu @) print MAX11131 configuration AND g_MAX11131_device globals
whismanoid 0:3edb3708c8c5 5399 //
whismanoid 0:3edb3708c8c5 5400 cmdLine.serial().printf("SPI_MOSI_Semantic=%d\r\n", (g_MAX11131_device.SPI_MOSI_Semantic & 0xFFFF));
whismanoid 0:3edb3708c8c5 5401 cmdLine.serial().printf("NumWords=%d\r\n", (g_MAX11131_device.NumWords & 0xFFFF));
whismanoid 0:3edb3708c8c5 5402 cmdLine.serial().printf("isExternalClock=%d\r\n", (g_MAX11131_device.isExternalClock & 0xFFFF));
whismanoid 0:3edb3708c8c5 5403 cmdLine.serial().printf("ScanMode=%d\r\n", (g_MAX11131_device.ScanMode & 0xFFFF));
whismanoid 0:3edb3708c8c5 5404 cmdLine.serial().printf("channelNumber_0_15=%d\r\n",
whismanoid 0:3edb3708c8c5 5405 (g_MAX11131_device.channelNumber_0_15 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5406 cmdLine.serial().printf("PowerManagement_0_2=%d\r\n",
whismanoid 0:3edb3708c8c5 5407 (g_MAX11131_device.PowerManagement_0_2 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5408 cmdLine.serial().printf("chan_id_0_1=%d\r\n", (g_MAX11131_device.chan_id_0_1 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5409 cmdLine.serial().printf("average_0_4_8_16_32=%d\r\n",
whismanoid 0:3edb3708c8c5 5410 (g_MAX11131_device.average_0_4_8_16_32 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5411 cmdLine.serial().printf("nscan_4_8_12_16=%d\r\n", (g_MAX11131_device.nscan_4_8_12_16 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5412 cmdLine.serial().printf("swcnv_0_1=%d\r\n", (g_MAX11131_device.swcnv_0_1 & 0xFFFF));
whismanoid 0:3edb3708c8c5 5413 cmdLine.serial().printf("enabledChannelsMask=0x%4.4x\r\n",
whismanoid 0:3edb3708c8c5 5414 (g_MAX11131_device.enabledChannelsMask & 0xFFFF));
whismanoid 0:3edb3708c8c5 5415 //
whismanoid 0:3edb3708c8c5 5416 cmdLine.serial().printf("VRef=%5.3fV\r\n", g_MAX11131_device.VRef);
whismanoid 0:3edb3708c8c5 5417 // dtostrf width and precision: 3.3V / 1024 LSB = 0.00322265625 volts per LSB
whismanoid 0:3edb3708c8c5 5418 //
whismanoid 0:3edb3708c8c5 5419 }
whismanoid 0:3edb3708c8c5 5420 //case '&':
whismanoid 0:3edb3708c8c5 5421 //{
whismanoid 0:3edb3708c8c5 5422 // // TODO: cmdLine.serial().printf("\r\n & -- MAX11131_Example_ScanManual");
whismanoid 0:3edb3708c8c5 5423 //}
whismanoid 0:3edb3708c8c5 5424 break;
whismanoid 0:3edb3708c8c5 5425 case '~': // TODO: IGNORE_AT_COMMANDS -- ignore ~~~ modem command
whismanoid 0:3edb3708c8c5 5426 {
whismanoid 0:3edb3708c8c5 5427 // TODO: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 5428 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5429 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5430 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5431 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5432 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5433 }
whismanoid 0:3edb3708c8c5 5434 break;
whismanoid 0:3edb3708c8c5 5435 case '+': // TODO: IGNORE_AT_COMMANDS -- ignore +++ modem command
whismanoid 0:3edb3708c8c5 5436 {
whismanoid 0:3edb3708c8c5 5437 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5438 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5439 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5440 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5441 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5442 }
whismanoid 0:3edb3708c8c5 5443 break;
whismanoid 0:3edb3708c8c5 5444 #endif // APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 5445
whismanoid 0:3edb3708c8c5 5446 #if APPLICATION_MAX5171 // main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 5447 // MAX5171 main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 5448 case '0':
whismanoid 0:3edb3708c8c5 5449 {
whismanoid 0:3edb3708c8c5 5450 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5451 //~ cmdLine.serial().printf("\r\n 0 code=? -- CODE");
whismanoid 0:3edb3708c8c5 5452 uint16_t code;
whismanoid 0:3edb3708c8c5 5453 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 5454 {
whismanoid 0:3edb3708c8c5 5455 }
whismanoid 0:3edb3708c8c5 5456 cmdLine.serial().printf("CODE code=%d", code);
whismanoid 0:3edb3708c8c5 5457 g_MAX5171_device.CODE(code);
whismanoid 0:3edb3708c8c5 5458 }
whismanoid 0:3edb3708c8c5 5459 break;
whismanoid 0:3edb3708c8c5 5460 case '4':
whismanoid 0:3edb3708c8c5 5461 {
whismanoid 0:3edb3708c8c5 5462 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5463 //~ cmdLine.serial().printf("\r\n 4 code=? -- CODE_LOAD");
whismanoid 0:3edb3708c8c5 5464 uint16_t code;
whismanoid 0:3edb3708c8c5 5465 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 5466 {
whismanoid 0:3edb3708c8c5 5467 }
whismanoid 0:3edb3708c8c5 5468 cmdLine.serial().printf("CODE_LOAD code=%d", code);
whismanoid 0:3edb3708c8c5 5469 g_MAX5171_device.CODE_LOAD(code);
whismanoid 0:3edb3708c8c5 5470 }
whismanoid 0:3edb3708c8c5 5471 break;
whismanoid 0:3edb3708c8c5 5472 case '8':
whismanoid 0:3edb3708c8c5 5473 {
whismanoid 0:3edb3708c8c5 5474 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5475 //~ cmdLine.serial().printf("\r\n 8 -- LOAD");
whismanoid 0:3edb3708c8c5 5476 cmdLine.serial().printf("LOAD");
whismanoid 0:3edb3708c8c5 5477 g_MAX5171_device.LOAD();
whismanoid 0:3edb3708c8c5 5478 }
whismanoid 0:3edb3708c8c5 5479 break;
whismanoid 0:3edb3708c8c5 5480 case 'c': case 'C':
whismanoid 0:3edb3708c8c5 5481 {
whismanoid 0:3edb3708c8c5 5482 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5483 //~ cmdLine.serial().printf("\r\n c -- NOP");
whismanoid 0:3edb3708c8c5 5484 cmdLine.serial().printf("NOP");
whismanoid 0:3edb3708c8c5 5485 g_MAX5171_device.NOP();
whismanoid 0:3edb3708c8c5 5486 }
whismanoid 0:3edb3708c8c5 5487 break;
whismanoid 0:3edb3708c8c5 5488 case 'd': case 'D':
whismanoid 0:3edb3708c8c5 5489 {
whismanoid 0:3edb3708c8c5 5490 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5491 //~ cmdLine.serial().printf("\r\n d -- SHUTDOWN");
whismanoid 0:3edb3708c8c5 5492 cmdLine.serial().printf("SHUTDOWN");
whismanoid 0:3edb3708c8c5 5493 g_MAX5171_device.SHUTDOWN();
whismanoid 0:3edb3708c8c5 5494 }
whismanoid 0:3edb3708c8c5 5495 break;
whismanoid 0:3edb3708c8c5 5496 case 'e': case 'E':
whismanoid 0:3edb3708c8c5 5497 {
whismanoid 0:3edb3708c8c5 5498 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5499 {
whismanoid 0:3edb3708c8c5 5500 case '0':
whismanoid 0:3edb3708c8c5 5501 {
whismanoid 0:3edb3708c8c5 5502 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5503 //~ cmdLine.serial().printf("\r\n e0 -- UPO_LOW");
whismanoid 0:3edb3708c8c5 5504 cmdLine.serial().printf("UPO_LOW");
whismanoid 0:3edb3708c8c5 5505 g_MAX5171_device.UPO_LOW();
whismanoid 0:3edb3708c8c5 5506 }
whismanoid 0:3edb3708c8c5 5507 break;
whismanoid 0:3edb3708c8c5 5508 case '8':
whismanoid 0:3edb3708c8c5 5509 {
whismanoid 0:3edb3708c8c5 5510 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5511 //~ cmdLine.serial().printf("\r\n e8 -- UPO_HIGH");
whismanoid 0:3edb3708c8c5 5512 cmdLine.serial().printf("UPO_HIGH");
whismanoid 0:3edb3708c8c5 5513 g_MAX5171_device.UPO_HIGH();
whismanoid 0:3edb3708c8c5 5514 }
whismanoid 0:3edb3708c8c5 5515 break;
whismanoid 0:3edb3708c8c5 5516 }
whismanoid 0:3edb3708c8c5 5517 }
whismanoid 0:3edb3708c8c5 5518 break;
whismanoid 0:3edb3708c8c5 5519 case 'f': case 'F':
whismanoid 0:3edb3708c8c5 5520 {
whismanoid 0:3edb3708c8c5 5521 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5522 {
whismanoid 0:3edb3708c8c5 5523 case '0':
whismanoid 0:3edb3708c8c5 5524 {
whismanoid 0:3edb3708c8c5 5525 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5526 //~ cmdLine.serial().printf("\r\n f0 -- MODE1_DOUT_SCLK_RISING_EDGE");
whismanoid 0:3edb3708c8c5 5527 cmdLine.serial().printf("MODE1_DOUT_SCLK_RISING_EDGE");
whismanoid 0:3edb3708c8c5 5528 g_MAX5171_device.MODE1_DOUT_SCLK_RISING_EDGE();
whismanoid 0:3edb3708c8c5 5529 }
whismanoid 0:3edb3708c8c5 5530 break;
whismanoid 0:3edb3708c8c5 5531 case '8':
whismanoid 0:3edb3708c8c5 5532 {
whismanoid 0:3edb3708c8c5 5533 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5534 //~ cmdLine.serial().printf("\r\n f8 -- MODE0_DOUT_SCLK_FALLING_EDGE");
whismanoid 0:3edb3708c8c5 5535 cmdLine.serial().printf("MODE0_DOUT_SCLK_FALLING_EDGE");
whismanoid 0:3edb3708c8c5 5536 g_MAX5171_device.MODE0_DOUT_SCLK_FALLING_EDGE();
whismanoid 0:3edb3708c8c5 5537 }
whismanoid 0:3edb3708c8c5 5538 break;
whismanoid 0:3edb3708c8c5 5539 }
whismanoid 0:3edb3708c8c5 5540 }
whismanoid 0:3edb3708c8c5 5541 break;
whismanoid 0:3edb3708c8c5 5542 case 'a': case 'A':
whismanoid 0:3edb3708c8c5 5543 {
whismanoid 0:3edb3708c8c5 5544 // recommended for hex command codes A0..AF
whismanoid 0:3edb3708c8c5 5545 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5546 {
whismanoid 0:3edb3708c8c5 5547 case 't': case 'T':
whismanoid 0:3edb3708c8c5 5548 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5549 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5550 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5551 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5552 // AT command: skip the prompt to avoid confusing modem detector
whismanoid 0:3edb3708c8c5 5553 return;
whismanoid 0:3edb3708c8c5 5554 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5555 }
whismanoid 0:3edb3708c8c5 5556 }
whismanoid 0:3edb3708c8c5 5557 break;
whismanoid 0:3edb3708c8c5 5558 case 'x': case 'X':
whismanoid 0:3edb3708c8c5 5559 {
whismanoid 0:3edb3708c8c5 5560 }
whismanoid 0:3edb3708c8c5 5561 break;
whismanoid 0:3edb3708c8c5 5562 case 'y': case 'Y':
whismanoid 0:3edb3708c8c5 5563 {
whismanoid 0:3edb3708c8c5 5564 }
whismanoid 0:3edb3708c8c5 5565 break;
whismanoid 0:3edb3708c8c5 5566 case 'z': case 'Z':
whismanoid 0:3edb3708c8c5 5567 {
whismanoid 0:3edb3708c8c5 5568 }
whismanoid 0:3edb3708c8c5 5569 break;
whismanoid 0:3edb3708c8c5 5570 case '~': // TODO: IGNORE_AT_COMMANDS -- ignore ~~~ modem command
whismanoid 0:3edb3708c8c5 5571 {
whismanoid 0:3edb3708c8c5 5572 // TODO: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 5573 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5574 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5575 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5576 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5577 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5578 }
whismanoid 0:3edb3708c8c5 5579 break;
whismanoid 0:3edb3708c8c5 5580 case '+': // TODO: IGNORE_AT_COMMANDS -- ignore +++ modem command
whismanoid 0:3edb3708c8c5 5581 {
whismanoid 0:3edb3708c8c5 5582 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5583 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5584 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5585 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5586 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5587 }
whismanoid 0:3edb3708c8c5 5588 break;
whismanoid 0:3edb3708c8c5 5589 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 5590
whismanoid 0:3edb3708c8c5 5591
whismanoid 0:3edb3708c8c5 5592 #if APPLICATION_MAX11410 // main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 5593 // TODO1: MAX11410 main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 5594 case '0':
whismanoid 0:3edb3708c8c5 5595 {
whismanoid 0:3edb3708c8c5 5596 // recommended for hex command codes 00..0F
whismanoid 0:3edb3708c8c5 5597 // placeholder: cmdLine.serial().printf("\r\n 3 ch=? code=? -- CODEnLOADn");
whismanoid 0:3edb3708c8c5 5598 uint16_t ch = g_MAX5715_device.channelNumber_0_3;
whismanoid 0:3edb3708c8c5 5599 uint16_t code;
whismanoid 0:3edb3708c8c5 5600 if (cmdLine.parse_uint16_dec("ch", ch))
whismanoid 0:3edb3708c8c5 5601 {
whismanoid 0:3edb3708c8c5 5602 }
whismanoid 0:3edb3708c8c5 5603 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 5604 {
whismanoid 0:3edb3708c8c5 5605 }
whismanoid 0:3edb3708c8c5 5606 if (cmdLine.parse_flag("xyzzy", g_xyzzy_flag, XYZZY_FLAG))
whismanoid 0:3edb3708c8c5 5607 {
whismanoid 0:3edb3708c8c5 5608 isUpdatedSPIConfig = true;
whismanoid 0:3edb3708c8c5 5609 }
whismanoid 0:3edb3708c8c5 5610 cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 5611 MAX5715_CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 5612 cmdLine.serial().printf("\r\n placeholder");
whismanoid 0:3edb3708c8c5 5613 }
whismanoid 0:3edb3708c8c5 5614 break;
whismanoid 0:3edb3708c8c5 5615 case '1':
whismanoid 0:3edb3708c8c5 5616 {
whismanoid 0:3edb3708c8c5 5617 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5618 }
whismanoid 0:3edb3708c8c5 5619 break;
whismanoid 0:3edb3708c8c5 5620 case '2':
whismanoid 0:3edb3708c8c5 5621 {
whismanoid 0:3edb3708c8c5 5622 // recommended for hex command codes 20..2F
whismanoid 0:3edb3708c8c5 5623 }
whismanoid 0:3edb3708c8c5 5624 break;
whismanoid 0:3edb3708c8c5 5625 case '3':
whismanoid 0:3edb3708c8c5 5626 {
whismanoid 0:3edb3708c8c5 5627 // recommended for hex command codes 30..3F
whismanoid 0:3edb3708c8c5 5628 }
whismanoid 0:3edb3708c8c5 5629 break;
whismanoid 0:3edb3708c8c5 5630 case '4':
whismanoid 0:3edb3708c8c5 5631 {
whismanoid 0:3edb3708c8c5 5632 // recommended for hex command codes 40..4F
whismanoid 0:3edb3708c8c5 5633 }
whismanoid 0:3edb3708c8c5 5634 break;
whismanoid 0:3edb3708c8c5 5635 case '5':
whismanoid 0:3edb3708c8c5 5636 {
whismanoid 0:3edb3708c8c5 5637 // recommended for hex command codes 50..5F
whismanoid 0:3edb3708c8c5 5638 }
whismanoid 0:3edb3708c8c5 5639 break;
whismanoid 0:3edb3708c8c5 5640 case '6':
whismanoid 0:3edb3708c8c5 5641 {
whismanoid 0:3edb3708c8c5 5642 // recommended for hex command codes 60..6F
whismanoid 0:3edb3708c8c5 5643 }
whismanoid 0:3edb3708c8c5 5644 break;
whismanoid 0:3edb3708c8c5 5645 case '7':
whismanoid 0:3edb3708c8c5 5646 {
whismanoid 0:3edb3708c8c5 5647 // recommended for hex command codes 70..7F
whismanoid 0:3edb3708c8c5 5648 }
whismanoid 0:3edb3708c8c5 5649 break;
whismanoid 0:3edb3708c8c5 5650 case '8':
whismanoid 0:3edb3708c8c5 5651 {
whismanoid 0:3edb3708c8c5 5652 // recommended for hex command codes 80..8F
whismanoid 0:3edb3708c8c5 5653 }
whismanoid 0:3edb3708c8c5 5654 break;
whismanoid 0:3edb3708c8c5 5655 case '9':
whismanoid 0:3edb3708c8c5 5656 {
whismanoid 0:3edb3708c8c5 5657 // recommended for hex command codes 90..9F
whismanoid 0:3edb3708c8c5 5658 }
whismanoid 0:3edb3708c8c5 5659 break;
whismanoid 0:3edb3708c8c5 5660 case 'a': case 'A':
whismanoid 0:3edb3708c8c5 5661 {
whismanoid 0:3edb3708c8c5 5662 // recommended for hex command codes A0..AF
whismanoid 0:3edb3708c8c5 5663 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5664 {
whismanoid 0:3edb3708c8c5 5665 case 't': case 'T':
whismanoid 0:3edb3708c8c5 5666 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5667 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5668 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5669 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5670 // AT command: skip the prompt to avoid confusing modem detector
whismanoid 0:3edb3708c8c5 5671 return;
whismanoid 0:3edb3708c8c5 5672 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5673 }
whismanoid 0:3edb3708c8c5 5674 }
whismanoid 0:3edb3708c8c5 5675 break;
whismanoid 0:3edb3708c8c5 5676 case 'b': case 'B':
whismanoid 0:3edb3708c8c5 5677 {
whismanoid 0:3edb3708c8c5 5678 // recommended for hex command codes B0..BF
whismanoid 0:3edb3708c8c5 5679 }
whismanoid 0:3edb3708c8c5 5680 break;
whismanoid 0:3edb3708c8c5 5681 case 'c': case 'C':
whismanoid 0:3edb3708c8c5 5682 {
whismanoid 0:3edb3708c8c5 5683 // recommended for hex command codes C0..CF
whismanoid 0:3edb3708c8c5 5684 }
whismanoid 0:3edb3708c8c5 5685 break;
whismanoid 0:3edb3708c8c5 5686 case 'd': case 'D':
whismanoid 0:3edb3708c8c5 5687 {
whismanoid 0:3edb3708c8c5 5688 // recommended for hex command codes D0..DF
whismanoid 0:3edb3708c8c5 5689 }
whismanoid 0:3edb3708c8c5 5690 break;
whismanoid 0:3edb3708c8c5 5691 case 'e': case 'E':
whismanoid 0:3edb3708c8c5 5692 {
whismanoid 0:3edb3708c8c5 5693 // recommended for hex command codes E0..EF
whismanoid 0:3edb3708c8c5 5694 }
whismanoid 0:3edb3708c8c5 5695 break;
whismanoid 0:3edb3708c8c5 5696 case 'f': case 'F':
whismanoid 0:3edb3708c8c5 5697 {
whismanoid 0:3edb3708c8c5 5698 // recommended for hex command codes F0..FF
whismanoid 0:3edb3708c8c5 5699 }
whismanoid 0:3edb3708c8c5 5700 break;
whismanoid 0:3edb3708c8c5 5701 case 'x': case 'X':
whismanoid 0:3edb3708c8c5 5702 {
whismanoid 0:3edb3708c8c5 5703 }
whismanoid 0:3edb3708c8c5 5704 break;
whismanoid 0:3edb3708c8c5 5705 case 'y': case 'Y':
whismanoid 0:3edb3708c8c5 5706 {
whismanoid 0:3edb3708c8c5 5707 }
whismanoid 0:3edb3708c8c5 5708 break;
whismanoid 0:3edb3708c8c5 5709 case 'z': case 'Z':
whismanoid 0:3edb3708c8c5 5710 {
whismanoid 0:3edb3708c8c5 5711 }
whismanoid 0:3edb3708c8c5 5712 break;
whismanoid 0:3edb3708c8c5 5713 case '~': // TODO: IGNORE_AT_COMMANDS -- ignore ~~~ modem command
whismanoid 0:3edb3708c8c5 5714 {
whismanoid 0:3edb3708c8c5 5715 // TODO: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 5716 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5717 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5718 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5719 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5720 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5721 }
whismanoid 0:3edb3708c8c5 5722 break;
whismanoid 0:3edb3708c8c5 5723 case '+': // TODO: IGNORE_AT_COMMANDS -- ignore +++ modem command
whismanoid 0:3edb3708c8c5 5724 {
whismanoid 0:3edb3708c8c5 5725 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5726 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5727 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5728 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5729 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5730 }
whismanoid 0:3edb3708c8c5 5731 break;
whismanoid 0:3edb3708c8c5 5732 #endif // APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 5733
whismanoid 0:3edb3708c8c5 5734
whismanoid 0:3edb3708c8c5 5735 #if APPLICATION_MAX12345 // main_menu_onEOLcommandParser
whismanoid 0:3edb3708c8c5 5736 case '0':
whismanoid 0:3edb3708c8c5 5737 {
whismanoid 0:3edb3708c8c5 5738 // recommended for hex command codes 00..0F
whismanoid 0:3edb3708c8c5 5739 // placeholder: cmdLine.serial().printf("\r\n 3 ch=? code=? -- CODEnLOADn");
whismanoid 0:3edb3708c8c5 5740 uint16_t ch = g_MAX5715_device.channelNumber_0_3;
whismanoid 0:3edb3708c8c5 5741 uint16_t code;
whismanoid 0:3edb3708c8c5 5742 if (cmdLine.parse_uint16_dec("ch", ch))
whismanoid 0:3edb3708c8c5 5743 {
whismanoid 0:3edb3708c8c5 5744 }
whismanoid 0:3edb3708c8c5 5745 if (cmdLine.parse_uint16_dec("code", code))
whismanoid 0:3edb3708c8c5 5746 {
whismanoid 0:3edb3708c8c5 5747 }
whismanoid 0:3edb3708c8c5 5748 if (cmdLine.parse_flag("xyzzy", g_xyzzy_flag, XYZZY_FLAG))
whismanoid 0:3edb3708c8c5 5749 {
whismanoid 0:3edb3708c8c5 5750 isUpdatedSPIConfig = true;
whismanoid 0:3edb3708c8c5 5751 }
whismanoid 0:3edb3708c8c5 5752 cmdLine.serial().printf("CODEnLOADn ch=%d code=%d", ch, code);
whismanoid 0:3edb3708c8c5 5753 MAX5715_CODEnLOADn(ch, code);
whismanoid 0:3edb3708c8c5 5754 cmdLine.serial().printf("\r\n placeholder");
whismanoid 0:3edb3708c8c5 5755 }
whismanoid 0:3edb3708c8c5 5756 break;
whismanoid 0:3edb3708c8c5 5757 case '1':
whismanoid 0:3edb3708c8c5 5758 {
whismanoid 0:3edb3708c8c5 5759 // recommended for hex command codes 10..1F
whismanoid 0:3edb3708c8c5 5760 }
whismanoid 0:3edb3708c8c5 5761 break;
whismanoid 0:3edb3708c8c5 5762 case '2':
whismanoid 0:3edb3708c8c5 5763 {
whismanoid 0:3edb3708c8c5 5764 // recommended for hex command codes 20..2F
whismanoid 0:3edb3708c8c5 5765 }
whismanoid 0:3edb3708c8c5 5766 break;
whismanoid 0:3edb3708c8c5 5767 case '3':
whismanoid 0:3edb3708c8c5 5768 {
whismanoid 0:3edb3708c8c5 5769 // recommended for hex command codes 30..3F
whismanoid 0:3edb3708c8c5 5770 }
whismanoid 0:3edb3708c8c5 5771 break;
whismanoid 0:3edb3708c8c5 5772 case '4':
whismanoid 0:3edb3708c8c5 5773 {
whismanoid 0:3edb3708c8c5 5774 // recommended for hex command codes 40..4F
whismanoid 0:3edb3708c8c5 5775 }
whismanoid 0:3edb3708c8c5 5776 break;
whismanoid 0:3edb3708c8c5 5777 case '5':
whismanoid 0:3edb3708c8c5 5778 {
whismanoid 0:3edb3708c8c5 5779 // recommended for hex command codes 50..5F
whismanoid 0:3edb3708c8c5 5780 }
whismanoid 0:3edb3708c8c5 5781 break;
whismanoid 0:3edb3708c8c5 5782 case '6':
whismanoid 0:3edb3708c8c5 5783 {
whismanoid 0:3edb3708c8c5 5784 // recommended for hex command codes 60..6F
whismanoid 0:3edb3708c8c5 5785 }
whismanoid 0:3edb3708c8c5 5786 break;
whismanoid 0:3edb3708c8c5 5787 case '7':
whismanoid 0:3edb3708c8c5 5788 {
whismanoid 0:3edb3708c8c5 5789 // recommended for hex command codes 70..7F
whismanoid 0:3edb3708c8c5 5790 }
whismanoid 0:3edb3708c8c5 5791 break;
whismanoid 0:3edb3708c8c5 5792 case '8':
whismanoid 0:3edb3708c8c5 5793 {
whismanoid 0:3edb3708c8c5 5794 // recommended for hex command codes 80..8F
whismanoid 0:3edb3708c8c5 5795 }
whismanoid 0:3edb3708c8c5 5796 break;
whismanoid 0:3edb3708c8c5 5797 case '9':
whismanoid 0:3edb3708c8c5 5798 {
whismanoid 0:3edb3708c8c5 5799 // recommended for hex command codes 90..9F
whismanoid 0:3edb3708c8c5 5800 }
whismanoid 0:3edb3708c8c5 5801 break;
whismanoid 0:3edb3708c8c5 5802 case 'a': case 'A':
whismanoid 0:3edb3708c8c5 5803 {
whismanoid 0:3edb3708c8c5 5804 // recommended for hex command codes A0..AF
whismanoid 0:3edb3708c8c5 5805 switch (cmdLine[1])
whismanoid 0:3edb3708c8c5 5806 {
whismanoid 0:3edb3708c8c5 5807 case 't': case 'T':
whismanoid 0:3edb3708c8c5 5808 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5809 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5810 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5811 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5812 // AT command: skip the prompt to avoid confusing modem detector
whismanoid 0:3edb3708c8c5 5813 return;
whismanoid 0:3edb3708c8c5 5814 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5815 }
whismanoid 0:3edb3708c8c5 5816 }
whismanoid 0:3edb3708c8c5 5817 break;
whismanoid 0:3edb3708c8c5 5818 case 'b': case 'B':
whismanoid 0:3edb3708c8c5 5819 {
whismanoid 0:3edb3708c8c5 5820 // recommended for hex command codes B0..BF
whismanoid 0:3edb3708c8c5 5821 }
whismanoid 0:3edb3708c8c5 5822 break;
whismanoid 0:3edb3708c8c5 5823 case 'c': case 'C':
whismanoid 0:3edb3708c8c5 5824 {
whismanoid 0:3edb3708c8c5 5825 // recommended for hex command codes C0..CF
whismanoid 0:3edb3708c8c5 5826 }
whismanoid 0:3edb3708c8c5 5827 break;
whismanoid 0:3edb3708c8c5 5828 case 'd': case 'D':
whismanoid 0:3edb3708c8c5 5829 {
whismanoid 0:3edb3708c8c5 5830 // recommended for hex command codes D0..DF
whismanoid 0:3edb3708c8c5 5831 }
whismanoid 0:3edb3708c8c5 5832 break;
whismanoid 0:3edb3708c8c5 5833 case 'e': case 'E':
whismanoid 0:3edb3708c8c5 5834 {
whismanoid 0:3edb3708c8c5 5835 // recommended for hex command codes E0..EF
whismanoid 0:3edb3708c8c5 5836 }
whismanoid 0:3edb3708c8c5 5837 break;
whismanoid 0:3edb3708c8c5 5838 case 'f': case 'F':
whismanoid 0:3edb3708c8c5 5839 {
whismanoid 0:3edb3708c8c5 5840 // recommended for hex command codes F0..FF
whismanoid 0:3edb3708c8c5 5841 }
whismanoid 0:3edb3708c8c5 5842 break;
whismanoid 0:3edb3708c8c5 5843 case 'x': case 'X':
whismanoid 0:3edb3708c8c5 5844 {
whismanoid 0:3edb3708c8c5 5845 }
whismanoid 0:3edb3708c8c5 5846 break;
whismanoid 0:3edb3708c8c5 5847 case 'y': case 'Y':
whismanoid 0:3edb3708c8c5 5848 {
whismanoid 0:3edb3708c8c5 5849 }
whismanoid 0:3edb3708c8c5 5850 break;
whismanoid 0:3edb3708c8c5 5851 case 'z': case 'Z':
whismanoid 0:3edb3708c8c5 5852 {
whismanoid 0:3edb3708c8c5 5853 }
whismanoid 0:3edb3708c8c5 5854 break;
whismanoid 0:3edb3708c8c5 5855 case '~': // TODO: IGNORE_AT_COMMANDS -- ignore ~~~ modem command
whismanoid 0:3edb3708c8c5 5856 {
whismanoid 0:3edb3708c8c5 5857 // TODO: '~' is not recommended for menu commands, interferes with ssh
whismanoid 0:3edb3708c8c5 5858 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5859 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5860 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5861 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5862 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5863 }
whismanoid 0:3edb3708c8c5 5864 break;
whismanoid 0:3edb3708c8c5 5865 case '+': // TODO: IGNORE_AT_COMMANDS -- ignore +++ modem command
whismanoid 0:3edb3708c8c5 5866 {
whismanoid 0:3edb3708c8c5 5867 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5868 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5869 cmdLine_DAPLINKserial.serial().printf("\r\n ignore AT command \"%s\"\r\n", cmdLine.str());
whismanoid 0:3edb3708c8c5 5870 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5871 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 5872 }
whismanoid 0:3edb3708c8c5 5873 break;
whismanoid 0:3edb3708c8c5 5874 #endif // APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 5875
whismanoid 0:3edb3708c8c5 5876 //
whismanoid 0:3edb3708c8c5 5877 // TODO1: add new commands here
whismanoid 0:3edb3708c8c5 5878 //
whismanoid 0:3edb3708c8c5 5879 default:
whismanoid 0:3edb3708c8c5 5880 cmdLine.serial().printf("\r\n unknown command 0x%2.2x \"%s\"\r\n", cmdLine.str()[0], cmdLine.str());
whismanoid 0:3edb3708c8c5 5881 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5882 cmdLine_DAPLINKserial.serial().printf("\r\n unknown command 0x%2.2x \"%s\"\r\n",
whismanoid 0:3edb3708c8c5 5883 cmdLine.str()[0], cmdLine.str());
whismanoid 0:3edb3708c8c5 5884 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5885 } // switch (cmdLine[0])
whismanoid 0:3edb3708c8c5 5886 //
whismanoid 0:3edb3708c8c5 5887 // print command prompt
whismanoid 0:3edb3708c8c5 5888 #if APPLICATION_MAX5715 // main_menu_onEOLcommandParser print command prompt
whismanoid 0:3edb3708c8c5 5889 cmdLine.serial().printf("\r\nMAX5715 > ");
whismanoid 0:3edb3708c8c5 5890 #elif APPLICATION_MAX11131 // main_menu_onEOLcommandParser print command prompt
whismanoid 0:3edb3708c8c5 5891 cmdLine.serial().printf("\r\nMAX11131 > ");
whismanoid 0:3edb3708c8c5 5892 #elif APPLICATION_MAX5171 // main_menu_onEOLcommandParser print command prompt
whismanoid 0:3edb3708c8c5 5893 cmdLine.serial().printf("\r\nMAX5171 > ");
whismanoid 0:3edb3708c8c5 5894 #elif APPLICATION_MAX11410 // main_menu_onEOLcommandParser print command prompt
whismanoid 0:3edb3708c8c5 5895 cmdLine.serial().printf("\r\nMAX11410 > ");
whismanoid 0:3edb3708c8c5 5896 #elif APPLICATION_MAX12345 // main_menu_onEOLcommandParser print command prompt
whismanoid 0:3edb3708c8c5 5897 cmdLine.serial().printf("\r\nMAX12345 > ");
whismanoid 0:3edb3708c8c5 5898 #else
whismanoid 0:3edb3708c8c5 5899 cmdLine.serial().printf("\r\n> ");
whismanoid 0:3edb3708c8c5 5900 #endif
whismanoid 0:3edb3708c8c5 5901 }
whismanoid 0:3edb3708c8c5 5902
whismanoid 0:3edb3708c8c5 5903 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 5904 void InitializeConfiguration()
whismanoid 0:3edb3708c8c5 5905 {
whismanoid 0:3edb3708c8c5 5906
whismanoid 0:3edb3708c8c5 5907 #if APPLICATION_MAX5715 // InitializeConfiguration
whismanoid 0:3edb3708c8c5 5908 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5909 cmdLine_DAPLINKserial.serial().printf("\r\nMAX5715_Init()");
whismanoid 0:3edb3708c8c5 5910 # endif
whismanoid 7:bf501f8cb637 5911 cmdLine_serial.serial().printf("\r\nMAX5715_Init()");
whismanoid 0:3edb3708c8c5 5912 int initResult = g_MAX5715_device.Init(); // defined in #include MAX5715.h
whismanoid 0:3edb3708c8c5 5913 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5914 cmdLine_DAPLINKserial.serial().printf("\r\nMAX5715_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5915 # endif
whismanoid 7:bf501f8cb637 5916 cmdLine_serial.serial().printf("\r\nMAX5715_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5917 #endif // APPLICATION_MAX5715
whismanoid 0:3edb3708c8c5 5918
whismanoid 0:3edb3708c8c5 5919 #if APPLICATION_MAX11131 // InitializeConfiguration
whismanoid 0:3edb3708c8c5 5920 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5921 cmdLine_DAPLINKserial.serial().printf("\r\nMAX11131_Init()");
whismanoid 0:3edb3708c8c5 5922 # endif
whismanoid 7:bf501f8cb637 5923 cmdLine_serial.serial().printf("\r\nMAX11131_Init()");
whismanoid 0:3edb3708c8c5 5924 g_MAX11131_device.Init(); // defined in #include MAX11131.h
whismanoid 0:3edb3708c8c5 5925 #endif // APPLICATION_MAX11131
whismanoid 0:3edb3708c8c5 5926
whismanoid 0:3edb3708c8c5 5927 #if APPLICATION_MAX5171 // InitializeConfiguration
whismanoid 0:3edb3708c8c5 5928 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5929 cmdLine_DAPLINKserial.serial().printf("\r\nMAX5171_Init()");
whismanoid 0:3edb3708c8c5 5930 # endif
whismanoid 7:bf501f8cb637 5931 cmdLine_serial.serial().printf("\r\nMAX5171_Init()");
whismanoid 0:3edb3708c8c5 5932 int initResult = g_MAX5171_device.Init(); // defined in #include MAX5171.h
whismanoid 0:3edb3708c8c5 5933 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5934 cmdLine_DAPLINKserial.serial().printf("\r\nMAX5171_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5935 # endif
whismanoid 7:bf501f8cb637 5936 cmdLine_serial.serial().printf("\r\nMAX5171_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5937 #endif // APPLICATION_MAX5171
whismanoid 0:3edb3708c8c5 5938
whismanoid 0:3edb3708c8c5 5939 #if APPLICATION_MAX11410 // InitializeConfiguration
whismanoid 0:3edb3708c8c5 5940 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5941 cmdLine_DAPLINKserial.serial().printf("\r\nMAX11410_Init()");
whismanoid 0:3edb3708c8c5 5942 # endif
whismanoid 7:bf501f8cb637 5943 cmdLine_serial.serial().printf("\r\nMAX11410_Init()");
whismanoid 0:3edb3708c8c5 5944 int initResult = g_MAX11410_device.Init(); // defined in #include MAX11410.h
whismanoid 0:3edb3708c8c5 5945 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5946 cmdLine_DAPLINKserial.serial().printf("\r\nMAX11410_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5947 # endif
whismanoid 7:bf501f8cb637 5948 cmdLine_serial.serial().printf("\r\nMAX11410_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5949 #endif // APPLICATION_MAX11410
whismanoid 0:3edb3708c8c5 5950
whismanoid 0:3edb3708c8c5 5951 #if APPLICATION_MAX12345 // InitializeConfiguration
whismanoid 0:3edb3708c8c5 5952 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5953 cmdLine_DAPLINKserial.serial().printf("\r\nMAX12345_Init()");
whismanoid 0:3edb3708c8c5 5954 # endif
whismanoid 7:bf501f8cb637 5955 cmdLine_serial.serial().printf("\r\nMAX12345_Init()");
whismanoid 0:3edb3708c8c5 5956 int initResult = MAX12345_Init(); // defined in #include MAX12345.h
whismanoid 0:3edb3708c8c5 5957 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 5958 cmdLine_DAPLINKserial.serial().printf("\r\nMAX12345_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5959 # endif
whismanoid 7:bf501f8cb637 5960 cmdLine_serial.serial().printf("\r\nMAX12345_Init() returned %d\r\n", initResult);
whismanoid 0:3edb3708c8c5 5961 #endif // APPLICATION_MAX12345
whismanoid 0:3edb3708c8c5 5962
whismanoid 0:3edb3708c8c5 5963 }
whismanoid 0:3edb3708c8c5 5964
whismanoid 0:3edb3708c8c5 5965 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 5966 // diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 5967 void diagnostic_led_EOF()
whismanoid 0:3edb3708c8c5 5968 {
whismanoid 0:3edb3708c8c5 5969 #if USE_LEDS
whismanoid 0:3edb3708c8c5 5970 led1 = LED_ON; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led RED+GREEN=YELLOW
whismanoid 0:3edb3708c8c5 5971 // TODO1: mbed-os-5.11: [Warning] 'static osStatus rtos::Thread::wait(uint32_t)' is deprecated: Static methods only affecting current thread cause confusion. Replaced by ThisThread::sleep_for. [since mbed-os-5.10] [-Wdeprecated-declarations]
whismanoid 0:3edb3708c8c5 5972 ThisThread::sleep_for(250); // [since mbed-os-5.10] vs Thread::wait(250);
whismanoid 0:3edb3708c8c5 5973 led1 = LED_OFF; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 5974 ThisThread::sleep_for(250); // [since mbed-os-5.10] vs Thread::wait(250);
whismanoid 0:3edb3708c8c5 5975 led1 = LED_ON; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led RED+GREEN=YELLOW
whismanoid 0:3edb3708c8c5 5976 ThisThread::sleep_for(250); // [since mbed-os-5.10] vs Thread::wait(250);
whismanoid 0:3edb3708c8c5 5977 led1 = LED_OFF; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 5978 ThisThread::sleep_for(250); // [since mbed-os-5.10] vs Thread::wait(250);
whismanoid 0:3edb3708c8c5 5979 #endif // USE_LEDS
whismanoid 0:3edb3708c8c5 5980 }
whismanoid 0:3edb3708c8c5 5981
whismanoid 0:3edb3708c8c5 5982 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 5983 // Support commands that get handled immediately w/o waiting for EOL
whismanoid 0:3edb3708c8c5 5984 // handled as immediate command, do not append to buffer
whismanoid 0:3edb3708c8c5 5985 void on_immediate_0x21() // Unicode (U+0021) ! EXCLAMATION MARK
whismanoid 0:3edb3708c8c5 5986 {
whismanoid 0:3edb3708c8c5 5987 #if USE_LEDS
whismanoid 0:3edb3708c8c5 5988 led1 = LED_OFF; led2 = LED_OFF; led3 = LED_ON; // diagnostic rbg led BLUE
whismanoid 0:3edb3708c8c5 5989 #endif // USE_LEDS
whismanoid 0:3edb3708c8c5 5990 InitializeConfiguration();
whismanoid 0:3edb3708c8c5 5991 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 5992 }
whismanoid 0:3edb3708c8c5 5993
whismanoid 0:3edb3708c8c5 5994 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 5995 // Support commands that get handled immediately w/o waiting for EOL
whismanoid 0:3edb3708c8c5 5996 // handled as immediate command, do not append to buffer
whismanoid 0:3edb3708c8c5 5997 void on_immediate_0x7b() // Unicode (U+007B) { LEFT CURLY BRACKET
whismanoid 0:3edb3708c8c5 5998 {
whismanoid 0:3edb3708c8c5 5999 #if HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6000 onButton2FallingEdge();
whismanoid 0:3edb3708c8c5 6001 #endif
whismanoid 0:3edb3708c8c5 6002 }
whismanoid 0:3edb3708c8c5 6003
whismanoid 0:3edb3708c8c5 6004 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 6005 // Support commands that get handled immediately w/o waiting for EOL
whismanoid 0:3edb3708c8c5 6006 // handled as immediate command, do not append to buffer
whismanoid 0:3edb3708c8c5 6007 void on_immediate_0x7d() // Unicode (U+007D) } RIGHT CURLY BRACKET
whismanoid 0:3edb3708c8c5 6008 {
whismanoid 0:3edb3708c8c5 6009 #if HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6010 onButton1FallingEdge();
whismanoid 0:3edb3708c8c5 6011 #endif
whismanoid 0:3edb3708c8c5 6012 }
whismanoid 0:3edb3708c8c5 6013
whismanoid 0:3edb3708c8c5 6014 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 6015 // based on example code: https://os.mbed.com/docs/v5.7/reference/pwmout.html
whismanoid 0:3edb3708c8c5 6016 int main()
whismanoid 0:3edb3708c8c5 6017 {
whismanoid 0:3edb3708c8c5 6018 // Configure serial ports
whismanoid 0:3edb3708c8c5 6019 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 6020 // Note: DAPLINKserial interferes with the timer tick interrupt. Try faster baud rate?
whismanoid 0:3edb3708c8c5 6021 DAPLINKserial.baud(115200); // default 9600 baud
whismanoid 7:bf501f8cb637 6022 //serial.baud(9600); // class USBSerial has no baud function
whismanoid 0:3edb3708c8c5 6023 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 6024 DAPLINKserial.printf("\r\n\r\nDAPLINK_SERIAL: main() startup\r\n");
whismanoid 0:3edb3708c8c5 6025 # endif
whismanoid 0:3edb3708c8c5 6026 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 6027 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 6028 // MAX32625MBED crash if DAPLINKserial.baud(anything other than 9600 baud)
whismanoid 0:3edb3708c8c5 6029 // xxx DAPLINKserial.baud(115200); // default 9600 baud
whismanoid 7:bf501f8cb637 6030 //serial.baud(9600); // class USBSerial has no baud function
whismanoid 0:3edb3708c8c5 6031 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 6032 DAPLINKserial.printf("\r\n\r\nDAPLINK_SERIAL: main() startup\r\n");
whismanoid 0:3edb3708c8c5 6033 # endif
whismanoid 0:3edb3708c8c5 6034 //--------------------------------------------------
whismanoid 0:3edb3708c8c5 6035 #elif defined(TARGET_LPC1768)
whismanoid 7:bf501f8cb637 6036 serial.baud(115200); // default 9600 baud
whismanoid 0:3edb3708c8c5 6037 #else
whismanoid 0:3edb3708c8c5 6038 // unknown target
whismanoid 0:3edb3708c8c5 6039 #endif
whismanoid 7:bf501f8cb637 6040 cmdLine_serial.clear();
whismanoid 7:bf501f8cb637 6041 //~ cmdLine_serial.serial().printf("\r\n cmdLine_serial.serial().printf test\r\n");
whismanoid 7:bf501f8cb637 6042 cmdLine_serial.onEOLcommandParser = main_menu_onEOLcommandParser;
whismanoid 0:3edb3708c8c5 6043 /// @todo CmdLine::set_immediate_handler(char, functionPointer_void_void_on_immediate_0x21);
whismanoid 7:bf501f8cb637 6044 cmdLine_serial.on_immediate_0x21 = on_immediate_0x21;
whismanoid 7:bf501f8cb637 6045 cmdLine_serial.on_immediate_0x7b = on_immediate_0x7b;
whismanoid 7:bf501f8cb637 6046 cmdLine_serial.on_immediate_0x7d = on_immediate_0x7d;
whismanoid 0:3edb3708c8c5 6047 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 6048 cmdLine_DAPLINKserial.clear();
whismanoid 0:3edb3708c8c5 6049 //~ cmdLine_DAPLINKserial.serial().printf("\r\n cmdLine_DAPLINKserial.serial().printf test\r\n");
whismanoid 0:3edb3708c8c5 6050 cmdLine_DAPLINKserial.onEOLcommandParser = main_menu_onEOLcommandParser;
whismanoid 0:3edb3708c8c5 6051 /// @todo CmdLine::set_immediate_handler(char, functionPointer_void_void_on_immediate_0x21);
whismanoid 0:3edb3708c8c5 6052 cmdLine_DAPLINKserial.on_immediate_0x21 = on_immediate_0x21;
whismanoid 0:3edb3708c8c5 6053 cmdLine_DAPLINKserial.on_immediate_0x7b = on_immediate_0x7b;
whismanoid 0:3edb3708c8c5 6054 cmdLine_DAPLINKserial.on_immediate_0x7d = on_immediate_0x7d;
whismanoid 0:3edb3708c8c5 6055 # endif
whismanoid 0:3edb3708c8c5 6056
whismanoid 0:3edb3708c8c5 6057
whismanoid 0:3edb3708c8c5 6058 print_banner();
whismanoid 0:3edb3708c8c5 6059
whismanoid 0:3edb3708c8c5 6060 //#ifdef SCOPE_TRIG_PIN
whismanoid 0:3edb3708c8c5 6061 // scopePinP12 = 0;
whismanoid 0:3edb3708c8c5 6062 // scopePinP12 = 1;
whismanoid 0:3edb3708c8c5 6063 //#endif // SCOPE_TRIG_PIN
whismanoid 0:3edb3708c8c5 6064
whismanoid 0:3edb3708c8c5 6065 #if HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6066 # if HAS_BUTTON1_DEMO_INTERRUPT_POLLING
whismanoid 0:3edb3708c8c5 6067 # else
whismanoid 0:3edb3708c8c5 6068 button1.fall(&onButton1FallingEdge);
whismanoid 0:3edb3708c8c5 6069 # endif
whismanoid 0:3edb3708c8c5 6070 #endif // HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6071 #if HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6072 # if HAS_BUTTON1_DEMO_INTERRUPT_POLLING
whismanoid 0:3edb3708c8c5 6073 # else
whismanoid 0:3edb3708c8c5 6074 button2.fall(&onButton2FallingEdge);
whismanoid 0:3edb3708c8c5 6075 # endif
whismanoid 0:3edb3708c8c5 6076 #endif // HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6077
whismanoid 0:3edb3708c8c5 6078 #if HAS_SPI
whismanoid 0:3edb3708c8c5 6079 // spi init
whismanoid 0:3edb3708c8c5 6080 // mode | POL PHA
whismanoid 0:3edb3708c8c5 6081 // -----+--------
whismanoid 0:3edb3708c8c5 6082 // 0 | 0 0
whismanoid 0:3edb3708c8c5 6083 // 1 | 0 1
whismanoid 0:3edb3708c8c5 6084 // 2 | 1 0
whismanoid 0:3edb3708c8c5 6085 // 3 | 1 1
whismanoid 0:3edb3708c8c5 6086 //~ spi.format(8,0); // int bits_must_be_8, int mode=0_3 CPOL=0,CPHA=0 rising edge (initial default)
whismanoid 0:3edb3708c8c5 6087 //~ spi.format(8,1); // int bits_must_be_8, int mode=0_3 CPOL=0,CPHA=1 falling edge (initial default)
whismanoid 0:3edb3708c8c5 6088 //~ spi.format(8,2); // int bits_must_be_8, int mode=0_3 CPOL=1,CPHA=0 falling edge (initial default)
whismanoid 0:3edb3708c8c5 6089 //~ spi.format(8,3); // int bits_must_be_8, int mode=0_3 CPOL=1,CPHA=1 rising edge (initial default)
whismanoid 0:3edb3708c8c5 6090 //
whismanoid 0:3edb3708c8c5 6091 //~ spi.frequency(1000000); // int SCLK_Hz=1000000 = 1MHz (initial default)
whismanoid 0:3edb3708c8c5 6092 //~ spi.frequency(9600000); // int SCLK_Hz=9600000 = 9.6MHz = 96MHz/10
whismanoid 0:3edb3708c8c5 6093 //~ spi.frequency(10666666); // int SCLK_Hz=10666666 = 10.6MHz = 96MHz/9
whismanoid 0:3edb3708c8c5 6094 //~ spi.frequency(12000000); // int SCLK_Hz=12000000 = 12MHz = 96MHz/8
whismanoid 0:3edb3708c8c5 6095 //~ spi.frequency(13714286); // int SCLK_Hz=13714286 = 13.7MHz = 96MHz/7
whismanoid 0:3edb3708c8c5 6096 //~ spi.frequency(16000000); // int SCLK_Hz=16000000 = 16MHz = 96MHz/6
whismanoid 0:3edb3708c8c5 6097 //~ spi.frequency(19200000); // int SCLK_Hz=19200000 = 19.2MHz = 96MHz/5
whismanoid 0:3edb3708c8c5 6098 //~ spi.frequency(24000000); // int SCLK_Hz=24000000 = 24MHz = 96MHz/4
whismanoid 0:3edb3708c8c5 6099 //~ spi.frequency(32000000); // int SCLK_Hz=32000000 = 32MHz = 96MHz/3
whismanoid 0:3edb3708c8c5 6100 //~ spi.frequency(48000000); // int SCLK_Hz=48000000 = 48MHz = 96MHz/2
whismanoid 0:3edb3708c8c5 6101 // unspecified SPI device
whismanoid 0:3edb3708c8c5 6102 spi.format(8,g_SPI_dataMode); // int bits_must_be_8, int mode=0_3 CPOL=0,CPHA=0 rising edge (initial default)
whismanoid 0:3edb3708c8c5 6103 spi.frequency(g_SPI_SCLK_Hz); // int SCLK_Hz=1000000 = 1MHz (initial default)
whismanoid 0:3edb3708c8c5 6104 spi_cs = 1;
whismanoid 0:3edb3708c8c5 6105 #endif
whismanoid 0:3edb3708c8c5 6106
whismanoid 0:3edb3708c8c5 6107 #if HAS_I2C
whismanoid 0:3edb3708c8c5 6108 // i2c init
whismanoid 0:3edb3708c8c5 6109 // declare in narrower scope: MAX32625MBED I2C i2cMaster(...)
whismanoid 0:3edb3708c8c5 6110 // i2cMaster.frequency(g_I2C_SCL_Hz);
whismanoid 0:3edb3708c8c5 6111 #else
whismanoid 0:3edb3708c8c5 6112 // Ensure that the unused I2C pins do not interfere with analog inputs A4 and A5
whismanoid 0:3edb3708c8c5 6113 #if HAS_digitalInOut14
whismanoid 0:3edb3708c8c5 6114 // DigitalInOut digitalInOut14(P1_6, PIN_INPUT, PullUp, 1); // P1_6 TARGET_MAX32635MBED A4/SDA (10pin digital connector)
whismanoid 0:3edb3708c8c5 6115 digitalInOut14.input();
whismanoid 0:3edb3708c8c5 6116 #endif
whismanoid 0:3edb3708c8c5 6117 #if HAS_digitalInOut15
whismanoid 0:3edb3708c8c5 6118 // DigitalInOut digitalInOut15(P1_7, PIN_INPUT, PullUp, 1); // P1_7 TARGET_MAX32635MBED A5/SCL (10pin digital connector)
whismanoid 0:3edb3708c8c5 6119 digitalInOut15.input();
whismanoid 0:3edb3708c8c5 6120 #endif
whismanoid 0:3edb3708c8c5 6121 #if HAS_digitalInOut16
whismanoid 0:3edb3708c8c5 6122 // DigitalInOut mode can be one of PullUp, PullDown, PullNone, OpenDrain
whismanoid 0:3edb3708c8c5 6123 // PullUp-->3.4V, PullDown-->1.7V, PullNone-->3.5V, OpenDrain-->0.00V
whismanoid 0:3edb3708c8c5 6124 //DigitalInOut digitalInOut16(P3_4, PIN_INPUT, OpenDrain, 0); // P3_4 TARGET_MAX32635MBED A4/SDA (6pin analog connector)
whismanoid 0:3edb3708c8c5 6125 digitalInOut16.input();
whismanoid 0:3edb3708c8c5 6126 #endif
whismanoid 0:3edb3708c8c5 6127 #if HAS_digitalInOut17
whismanoid 0:3edb3708c8c5 6128 //DigitalInOut digitalInOut17(P3_5, PIN_INPUT, OpenDrain, 0); // P3_5 TARGET_MAX32635MBED A5/SCL (6pin analog connector)
whismanoid 0:3edb3708c8c5 6129 digitalInOut17.input();
whismanoid 0:3edb3708c8c5 6130 #endif
whismanoid 0:3edb3708c8c5 6131 #endif
whismanoid 0:3edb3708c8c5 6132
whismanoid 0:3edb3708c8c5 6133 #if USE_LEDS
whismanoid 0:3edb3708c8c5 6134 #if defined(TARGET_MAX32630)
whismanoid 0:3edb3708c8c5 6135 led1 = LED_ON; led2 = LED_OFF; led3 = LED_OFF; // diagnostic rbg led RED
whismanoid 0:3edb3708c8c5 6136 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6137 led1 = LED_OFF; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 6138 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6139 led1 = LED_OFF; led2 = LED_OFF; led3 = LED_ON; // diagnostic rbg led BLUE
whismanoid 0:3edb3708c8c5 6140 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6141 led1 = LED_ON; led2 = LED_ON; led3 = LED_ON; // diagnostic rbg led RED+GREEN+BLUE=WHITE
whismanoid 0:3edb3708c8c5 6142 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6143 led1 = LED_OFF; led2 = LED_ON; led3 = LED_ON; // diagnostic rbg led GREEN+BLUE=CYAN
whismanoid 0:3edb3708c8c5 6144 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6145 led1 = LED_ON; led2 = LED_OFF; led3 = LED_ON; // diagnostic rbg led RED+BLUE=MAGENTA
whismanoid 0:3edb3708c8c5 6146 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6147 led1 = LED_ON; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led RED+GREEN=YELLOW
whismanoid 0:3edb3708c8c5 6148 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6149 led1 = LED_OFF; led2 = LED_OFF; led3 = LED_OFF; // diagnostic rbg led BLACK
whismanoid 0:3edb3708c8c5 6150 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6151 #elif defined(TARGET_MAX32625MBED)
whismanoid 0:3edb3708c8c5 6152 led1 = LED_ON; led2 = LED_OFF; led3 = LED_OFF; // diagnostic rbg led RED
whismanoid 0:3edb3708c8c5 6153 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6154 led1 = LED_OFF; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led GREEN
whismanoid 0:3edb3708c8c5 6155 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6156 led1 = LED_OFF; led2 = LED_OFF; led3 = LED_ON; // diagnostic rbg led BLUE
whismanoid 0:3edb3708c8c5 6157 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6158 led1 = LED_ON; led2 = LED_ON; led3 = LED_ON; // diagnostic rbg led RED+GREEN+BLUE=WHITE
whismanoid 0:3edb3708c8c5 6159 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6160 led1 = LED_OFF; led2 = LED_ON; led3 = LED_ON; // diagnostic rbg led GREEN+BLUE=CYAN
whismanoid 0:3edb3708c8c5 6161 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6162 led1 = LED_ON; led2 = LED_OFF; led3 = LED_ON; // diagnostic rbg led RED+BLUE=MAGENTA
whismanoid 0:3edb3708c8c5 6163 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6164 led1 = LED_ON; led2 = LED_ON; led3 = LED_OFF; // diagnostic rbg led RED+GREEN=YELLOW
whismanoid 0:3edb3708c8c5 6165 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6166 led1 = LED_OFF; led2 = LED_OFF; led3 = LED_OFF; // diagnostic rbg led BLACK
whismanoid 0:3edb3708c8c5 6167 ThisThread::sleep_for(125); // [since mbed-os-5.10] vs Thread::wait(125);
whismanoid 0:3edb3708c8c5 6168 #else // not defined(TARGET_LPC1768 etc.)
whismanoid 0:3edb3708c8c5 6169 led1 = LED_ON;
whismanoid 0:3edb3708c8c5 6170 led2 = LED_OFF;
whismanoid 0:3edb3708c8c5 6171 led3 = LED_OFF;
whismanoid 0:3edb3708c8c5 6172 led4 = LED_OFF;
whismanoid 0:3edb3708c8c5 6173 ThisThread::sleep_for(75); // [since mbed-os-5.10] vs Thread::wait(75);
whismanoid 0:3edb3708c8c5 6174 //led1 = LED_ON;
whismanoid 0:3edb3708c8c5 6175 led2 = LED_ON;
whismanoid 0:3edb3708c8c5 6176 ThisThread::sleep_for(75); // [since mbed-os-5.10] vs Thread::wait(75);
whismanoid 0:3edb3708c8c5 6177 led1 = LED_OFF;
whismanoid 0:3edb3708c8c5 6178 //led2 = LED_ON;
whismanoid 0:3edb3708c8c5 6179 led3 = LED_ON;
whismanoid 0:3edb3708c8c5 6180 ThisThread::sleep_for(75); // [since mbed-os-5.10] vs Thread::wait(75);
whismanoid 0:3edb3708c8c5 6181 led2 = LED_OFF;
whismanoid 0:3edb3708c8c5 6182 //led3 = LED_ON;
whismanoid 0:3edb3708c8c5 6183 led4 = LED_ON;
whismanoid 0:3edb3708c8c5 6184 ThisThread::sleep_for(75); // [since mbed-os-5.10] vs Thread::wait(75);
whismanoid 0:3edb3708c8c5 6185 led3 = LED_OFF;
whismanoid 0:3edb3708c8c5 6186 led4 = LED_ON;
whismanoid 0:3edb3708c8c5 6187 //
whismanoid 0:3edb3708c8c5 6188 #endif // target definition
whismanoid 0:3edb3708c8c5 6189 #endif
whismanoid 0:3edb3708c8c5 6190
whismanoid 0:3edb3708c8c5 6191 // cmd_TE();
whismanoid 0:3edb3708c8c5 6192
whismanoid 0:3edb3708c8c5 6193 #if USE_LEDS
whismanoid 0:3edb3708c8c5 6194 rgb_led.white(); // diagnostic rbg led RED+GREEN+BLUE=WHITE
whismanoid 0:3edb3708c8c5 6195 #endif // USE_LEDS
whismanoid 0:3edb3708c8c5 6196 InitializeConfiguration();
whismanoid 0:3edb3708c8c5 6197
whismanoid 0:3edb3708c8c5 6198 while (1) {
whismanoid 0:3edb3708c8c5 6199 #if HAS_BUTTON1_DEMO_INTERRUPT_POLLING
whismanoid 0:3edb3708c8c5 6200 // avoid runtime error on button1 press [mbed-os-5.11]
whismanoid 0:3edb3708c8c5 6201 // instead of using InterruptIn, use DigitalIn and poll in main while(1)
whismanoid 0:3edb3708c8c5 6202 # if HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6203 static int button1_value_prev = 1;
whismanoid 0:3edb3708c8c5 6204 static int button1_value_now = 1;
whismanoid 0:3edb3708c8c5 6205 button1_value_prev = button1_value_now;
whismanoid 0:3edb3708c8c5 6206 button1_value_now = button1.read();
whismanoid 0:3edb3708c8c5 6207 if ((button1_value_prev - button1_value_now) == 1)
whismanoid 0:3edb3708c8c5 6208 {
whismanoid 0:3edb3708c8c5 6209 // on button1 falling edge (button1 press)
whismanoid 0:3edb3708c8c5 6210 onButton1FallingEdge();
whismanoid 0:3edb3708c8c5 6211 }
whismanoid 0:3edb3708c8c5 6212 # endif // HAS_BUTTON1_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6213 # if HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6214 static int button2_value_prev = 1;
whismanoid 0:3edb3708c8c5 6215 static int button2_value_now = 1;
whismanoid 0:3edb3708c8c5 6216 button2_value_prev = button2_value_now;
whismanoid 0:3edb3708c8c5 6217 button2_value_now = button2.read();
whismanoid 0:3edb3708c8c5 6218 if ((button2_value_prev - button2_value_now) == 1)
whismanoid 0:3edb3708c8c5 6219 {
whismanoid 0:3edb3708c8c5 6220 // on button2 falling edge (button2 press)
whismanoid 0:3edb3708c8c5 6221 onButton2FallingEdge();
whismanoid 0:3edb3708c8c5 6222 }
whismanoid 0:3edb3708c8c5 6223 # endif // HAS_BUTTON2_DEMO_INTERRUPT
whismanoid 0:3edb3708c8c5 6224 #endif
whismanoid 0:3edb3708c8c5 6225 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 6226 if (DAPLINKserial.readable()) {
whismanoid 0:3edb3708c8c5 6227 cmdLine_DAPLINKserial.append(DAPLINKserial.getc());
whismanoid 0:3edb3708c8c5 6228 }
whismanoid 0:3edb3708c8c5 6229 # endif // HAS_DAPLINK_SERIAL
whismanoid 7:bf501f8cb637 6230 if (serial.readable()) {
whismanoid 7:bf501f8cb637 6231 int c = serial.getc();
whismanoid 7:bf501f8cb637 6232 cmdLine_serial.append(c);
whismanoid 0:3edb3708c8c5 6233 #if IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 6234 # if HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 6235 cmdLine_DAPLINKserial.serial().printf("%c", c);
whismanoid 0:3edb3708c8c5 6236 # endif // HAS_DAPLINK_SERIAL
whismanoid 0:3edb3708c8c5 6237 #endif // IGNORE_AT_COMMANDS
whismanoid 0:3edb3708c8c5 6238 //
whismanoid 0:3edb3708c8c5 6239 }
whismanoid 0:3edb3708c8c5 6240 } // while(1)
whismanoid 0:3edb3708c8c5 6241 }