"Sensors Reader" Sample Application for X-NUCLEO-IKS01A1 Expansion Board

Dependencies:   X_NUCLEO_IKS01A2 mbed

Fork of Sensors_Reader by ST

Committer:
Wolfgang Betz
Date:
Fri May 22 10:36:14 2015 +0200
Revision:
5:a1de9dcb0f41
Parent:
4:81037ace7f27
Child:
11:e20efb4e8a98
Minor changes on comments & documentation

Who changed what in which revision?

UserRevisionLine numberNew contents of line
Wolfgang Betz 0:3e4f610a0689 1 /**
Wolfgang Betz 0:3e4f610a0689 2 ******************************************************************************
Wolfgang Betz 0:3e4f610a0689 3 * @file main.cpp
Wolfgang Betz 0:3e4f610a0689 4 * @author AST / EST
Wolfgang Betz 0:3e4f610a0689 5 * @version V0.0.1
Wolfgang Betz 0:3e4f610a0689 6 * @date 14-April-2015
Wolfgang Betz 0:3e4f610a0689 7 * @brief Example application for using the X_NUCLEO_IKS01A1
Wolfgang Betz 5:a1de9dcb0f41 8 * MEMS Inertial & Environmental Sensor Nucleo expansion board.
Wolfgang Betz 0:3e4f610a0689 9 ******************************************************************************
Wolfgang Betz 0:3e4f610a0689 10 * @attention
Wolfgang Betz 0:3e4f610a0689 11 *
Wolfgang Betz 0:3e4f610a0689 12 * <h2><center>&copy; COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
Wolfgang Betz 0:3e4f610a0689 13 *
Wolfgang Betz 0:3e4f610a0689 14 * Redistribution and use in source and binary forms, with or without modification,
Wolfgang Betz 0:3e4f610a0689 15 * are permitted provided that the following conditions are met:
Wolfgang Betz 0:3e4f610a0689 16 * 1. Redistributions of source code must retain the above copyright notice,
Wolfgang Betz 0:3e4f610a0689 17 * this list of conditions and the following disclaimer.
Wolfgang Betz 0:3e4f610a0689 18 * 2. Redistributions in binary form must reproduce the above copyright notice,
Wolfgang Betz 0:3e4f610a0689 19 * this list of conditions and the following disclaimer in the documentation
Wolfgang Betz 0:3e4f610a0689 20 * and/or other materials provided with the distribution.
Wolfgang Betz 0:3e4f610a0689 21 * 3. Neither the name of STMicroelectronics nor the names of its contributors
Wolfgang Betz 0:3e4f610a0689 22 * may be used to endorse or promote products derived from this software
Wolfgang Betz 0:3e4f610a0689 23 * without specific prior written permission.
Wolfgang Betz 0:3e4f610a0689 24 *
Wolfgang Betz 0:3e4f610a0689 25 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
Wolfgang Betz 0:3e4f610a0689 26 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
Wolfgang Betz 0:3e4f610a0689 27 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
Wolfgang Betz 0:3e4f610a0689 28 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
Wolfgang Betz 0:3e4f610a0689 29 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
Wolfgang Betz 0:3e4f610a0689 30 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
Wolfgang Betz 0:3e4f610a0689 31 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
Wolfgang Betz 0:3e4f610a0689 32 * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
Wolfgang Betz 0:3e4f610a0689 33 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
Wolfgang Betz 0:3e4f610a0689 34 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Wolfgang Betz 0:3e4f610a0689 35 *
Wolfgang Betz 0:3e4f610a0689 36 ******************************************************************************
Wolfgang Betz 0:3e4f610a0689 37 */
Wolfgang Betz 0:3e4f610a0689 38
Wolfgang Betz 0:3e4f610a0689 39 /**
Wolfgang Betz 5:a1de9dcb0f41 40 * @mainpage X_NUCLEO_IKS01A1 MEMS Inertial & Environmental Sensor Nucleo Expansion Board Firmware Package
Wolfgang Betz 0:3e4f610a0689 41 *
Wolfgang Betz 0:3e4f610a0689 42 * <b>Introduction</b>
Wolfgang Betz 0:3e4f610a0689 43 *
Wolfgang Betz 0:3e4f610a0689 44 * This firmware package includes Components Device Drivers, Board Support Package
Wolfgang Betz 0:3e4f610a0689 45 * and example application for STMicroelectronics X_NUCLEO_IKS01A1 MEMS Inertial & Environmental Nucleo
Wolfgang Betz 0:3e4f610a0689 46 * Expansion Board
Wolfgang Betz 0:3e4f610a0689 47 *
Wolfgang Betz 0:3e4f610a0689 48 * <b>Example Application</b>
Wolfgang Betz 0:3e4f610a0689 49 *
Wolfgang Betz 0:3e4f610a0689 50 */
Wolfgang Betz 0:3e4f610a0689 51
Wolfgang Betz 0:3e4f610a0689 52
Wolfgang Betz 0:3e4f610a0689 53 /*** Includes ----------------------------------------------------------------- ***/
Wolfgang Betz 0:3e4f610a0689 54 #include "mbed.h"
Wolfgang Betz 0:3e4f610a0689 55 #include "x_nucleo_iks01a1.h"
Wolfgang Betz 0:3e4f610a0689 56
Wolfgang Betz 0:3e4f610a0689 57 #include <Ticker.h>
Wolfgang Betz 0:3e4f610a0689 58
Wolfgang Betz 0:3e4f610a0689 59
Wolfgang Betz 0:3e4f610a0689 60 /*** Constants ---------------------------------------------------------------- ***/
Wolfgang Betz 0:3e4f610a0689 61 namespace {
Wolfgang Betz 0:3e4f610a0689 62 const int MS_INTERVALS = 1000;
Wolfgang Betz 0:3e4f610a0689 63 }
Wolfgang Betz 0:3e4f610a0689 64
Wolfgang Betz 0:3e4f610a0689 65
Wolfgang Betz 0:3e4f610a0689 66 /*** Macros ------------------------------------------------------------------- ***/
Wolfgang Betz 2:00f62b148a07 67 #define APP_LOOP_PERIOD 1300 // in ms
Wolfgang Betz 0:3e4f610a0689 68
Wolfgang Betz 4:81037ace7f27 69 #if defined(TARGET_STM)
Wolfgang Betz 4:81037ace7f27 70 #define LED_OFF (0)
Wolfgang Betz 4:81037ace7f27 71 #else
Wolfgang Betz 4:81037ace7f27 72 #define LED_OFF (1)
Wolfgang Betz 4:81037ace7f27 73 #endif
Wolfgang Betz 4:81037ace7f27 74 #define LED_ON (!LED_OFF)
Wolfgang Betz 4:81037ace7f27 75
Wolfgang Betz 0:3e4f610a0689 76
Wolfgang Betz 1:9458657e49ee 77 /*** Typedefs ----------------------------------------------------------------- ***/
Wolfgang Betz 1:9458657e49ee 78 typedef struct {
Wolfgang Betz 1:9458657e49ee 79 int32_t AXIS_X;
Wolfgang Betz 1:9458657e49ee 80 int32_t AXIS_Y;
Wolfgang Betz 1:9458657e49ee 81 int32_t AXIS_Z;
Wolfgang Betz 1:9458657e49ee 82 } AxesRaw_TypeDef;
Wolfgang Betz 1:9458657e49ee 83
Wolfgang Betz 1:9458657e49ee 84
Wolfgang Betz 0:3e4f610a0689 85 /*** Static variables --------------------------------------------------------- ***/
Wolfgang Betz 0:3e4f610a0689 86 #ifdef DBG_MCU
Wolfgang Betz 0:3e4f610a0689 87 /* betzw: enable debugging while using sleep modes */
Wolfgang Betz 0:3e4f610a0689 88 #include "DbgMCU.h"
Wolfgang Betz 0:3e4f610a0689 89 static DbgMCU enable_dbg;
Wolfgang Betz 0:3e4f610a0689 90 #endif // DBG_MCU
Wolfgang Betz 0:3e4f610a0689 91
Wolfgang Betz 1:9458657e49ee 92 static X_NUCLEO_IKS01A1 *mems_expansion_board = X_NUCLEO_IKS01A1::Instance();
Wolfgang Betz 0:3e4f610a0689 93 static Ticker ticker;
Wolfgang Betz 0:3e4f610a0689 94 static volatile bool timer_irq_triggered = false;
Wolfgang Betz 4:81037ace7f27 95 static DigitalOut myled(LED1, LED_OFF);
Wolfgang Betz 4:81037ace7f27 96
Wolfgang Betz 0:3e4f610a0689 97
Wolfgang Betz 0:3e4f610a0689 98 /*** Helper Functions (1/2) ------------------------------------------------------------ ***/
Wolfgang Betz 0:3e4f610a0689 99
Wolfgang Betz 0:3e4f610a0689 100
Wolfgang Betz 0:3e4f610a0689 101 /*** Interrupt Handler Top-Halves ------------------------------------------------------ ***/
Wolfgang Betz 0:3e4f610a0689 102 /* Called in interrupt context, therefore just set a trigger variable */
Wolfgang Betz 0:3e4f610a0689 103 static void timer_irq(void) {
Wolfgang Betz 0:3e4f610a0689 104 timer_irq_triggered = true;
Wolfgang Betz 0:3e4f610a0689 105 }
Wolfgang Betz 0:3e4f610a0689 106
Wolfgang Betz 0:3e4f610a0689 107
Wolfgang Betz 0:3e4f610a0689 108 /*** Interrupt Handler Bottom-Halves ------------------------------------------------- ***/
Wolfgang Betz 0:3e4f610a0689 109
Wolfgang Betz 0:3e4f610a0689 110
Wolfgang Betz 0:3e4f610a0689 111 /*** Helper Functions (2/2) ------------------------------------------------------------ ***/
Wolfgang Betz 2:00f62b148a07 112 /* print floats & doubles */
Wolfgang Betz 2:00f62b148a07 113 static char *printDouble(char* str, double v, int decimalDigits=2)
Wolfgang Betz 2:00f62b148a07 114 {
Wolfgang Betz 2:00f62b148a07 115 int i = 1;
Wolfgang Betz 2:00f62b148a07 116 int intPart, fractPart;
Wolfgang Betz 2:00f62b148a07 117
Wolfgang Betz 2:00f62b148a07 118 for (;decimalDigits!=0; i*=10, decimalDigits--);
Wolfgang Betz 2:00f62b148a07 119 intPart = (int)v;
Wolfgang Betz 2:00f62b148a07 120 fractPart = (int)((v-(double)(int)v)*i);
Wolfgang Betz 2:00f62b148a07 121 sprintf(str, "%i.%i", intPart, fractPart);
Wolfgang Betz 2:00f62b148a07 122
Wolfgang Betz 2:00f62b148a07 123 return str;
Wolfgang Betz 2:00f62b148a07 124 }
Wolfgang Betz 2:00f62b148a07 125
Wolfgang Betz 0:3e4f610a0689 126 /* Initialization function */
Wolfgang Betz 0:3e4f610a0689 127 static void init(void) {
Wolfgang Betz 1:9458657e49ee 128 uint8_t hts221_id;
Wolfgang Betz 1:9458657e49ee 129
Wolfgang Betz 1:9458657e49ee 130 /* Determine ID of Humidity & Tempreture Sensor */
Wolfgang Betz 1:9458657e49ee 131 mems_expansion_board->ht_sensor.ReadID(&hts221_id);
Wolfgang Betz 2:00f62b148a07 132 printf("HTS221_ID = 0x%x (%u)\n", hts221_id, hts221_id);
Wolfgang Betz 1:9458657e49ee 133 }
Wolfgang Betz 1:9458657e49ee 134
Wolfgang Betz 1:9458657e49ee 135 /* Main cycle function */
Wolfgang Betz 1:9458657e49ee 136 static void main_cycle(void) {
Wolfgang Betz 1:9458657e49ee 137 float TEMPERATURE_Value;
Wolfgang Betz 1:9458657e49ee 138 float HUMIDITY_Value;
Wolfgang Betz 1:9458657e49ee 139 float PRESSURE_Value;
Wolfgang Betz 1:9458657e49ee 140 AxesRaw_TypeDef MAG_Value;
Wolfgang Betz 1:9458657e49ee 141 AxesRaw_TypeDef ACC_Value;
Wolfgang Betz 1:9458657e49ee 142 AxesRaw_TypeDef GYR_Value;
Wolfgang Betz 2:00f62b148a07 143 char buffer1[32];
Wolfgang Betz 2:00f62b148a07 144 char buffer2[32];
Wolfgang Betz 2:00f62b148a07 145 char buffer3[32];
Wolfgang Betz 2:00f62b148a07 146
Wolfgang Betz 1:9458657e49ee 147 /* Switch LED On */
Wolfgang Betz 4:81037ace7f27 148 myled = LED_ON;
Wolfgang Betz 2:00f62b148a07 149 printf("===\n");
Wolfgang Betz 1:9458657e49ee 150
Wolfgang Betz 1:9458657e49ee 151 /* Determine Environmental Values */
Wolfgang Betz 1:9458657e49ee 152 mems_expansion_board->ht_sensor.GetTemperature(&TEMPERATURE_Value);
Wolfgang Betz 1:9458657e49ee 153 mems_expansion_board->ht_sensor.GetHumidity(&HUMIDITY_Value);
Wolfgang Betz 1:9458657e49ee 154 mems_expansion_board->pressure_sensor.GetPressure(&PRESSURE_Value);
Wolfgang Betz 1:9458657e49ee 155 mems_expansion_board->magnetometer.Get_M_Axes((int32_t *)&MAG_Value);
Wolfgang Betz 1:9458657e49ee 156 mems_expansion_board->gyroscope.Get_X_Axes((int32_t *)&ACC_Value);
Wolfgang Betz 1:9458657e49ee 157 mems_expansion_board->gyroscope.Get_G_Axes((int32_t *)&GYR_Value);
Wolfgang Betz 1:9458657e49ee 158
Wolfgang Betz 1:9458657e49ee 159 /* Print Values Out */
Wolfgang Betz 2:00f62b148a07 160 printf("TEMP: %s, HUMIDITY: %s, PRESSURE: %s\n",
Wolfgang Betz 2:00f62b148a07 161 printDouble(buffer1, TEMPERATURE_Value),
Wolfgang Betz 2:00f62b148a07 162 printDouble(buffer2, HUMIDITY_Value),
Wolfgang Betz 2:00f62b148a07 163 printDouble(buffer3, PRESSURE_Value));
Wolfgang Betz 2:00f62b148a07 164 printf("X_MAG: %ld, Y_MAG: %ld, Z_MAG: %ld\n",
Wolfgang Betz 1:9458657e49ee 165 MAG_Value.AXIS_X, MAG_Value.AXIS_Y, MAG_Value.AXIS_Z);
Wolfgang Betz 2:00f62b148a07 166 printf("X_ACC: %ld, Y_ACC: %ld, Z_ACC: %ld\n",
Wolfgang Betz 1:9458657e49ee 167 ACC_Value.AXIS_X, ACC_Value.AXIS_Y, ACC_Value.AXIS_Z);
Wolfgang Betz 2:00f62b148a07 168 printf("X_GYR: %ld, Y_GYR: %ld, Z_GYR: %ld\n",
Wolfgang Betz 1:9458657e49ee 169 GYR_Value.AXIS_X, GYR_Value.AXIS_Y, GYR_Value.AXIS_Z);
Wolfgang Betz 1:9458657e49ee 170
Wolfgang Betz 1:9458657e49ee 171 /* Switch LED Off */
Wolfgang Betz 4:81037ace7f27 172 myled = LED_OFF;
Wolfgang Betz 0:3e4f610a0689 173 }
Wolfgang Betz 0:3e4f610a0689 174
Wolfgang Betz 0:3e4f610a0689 175
Wolfgang Betz 0:3e4f610a0689 176 /*** Main function ------------------------------------------------------------- ***/
Wolfgang Betz 0:3e4f610a0689 177 /* Generic main function/loop for enabling WFI in case of
Wolfgang Betz 0:3e4f610a0689 178 interrupt based cyclic execution
Wolfgang Betz 0:3e4f610a0689 179 */
Wolfgang Betz 0:3e4f610a0689 180 int main()
Wolfgang Betz 0:3e4f610a0689 181 {
Wolfgang Betz 0:3e4f610a0689 182 /* Start & initialize */
Wolfgang Betz 0:3e4f610a0689 183 printf("\n--- Starting new run ---\n");
Wolfgang Betz 0:3e4f610a0689 184 init();
Wolfgang Betz 0:3e4f610a0689 185
Wolfgang Betz 0:3e4f610a0689 186 /* Start timer irq */
Wolfgang Betz 0:3e4f610a0689 187 ticker.attach_us(timer_irq, MS_INTERVALS * APP_LOOP_PERIOD);
Wolfgang Betz 0:3e4f610a0689 188
Wolfgang Betz 0:3e4f610a0689 189 while (true) {
Wolfgang Betz 0:3e4f610a0689 190 __disable_irq();
Wolfgang Betz 0:3e4f610a0689 191 if(timer_irq_triggered) {
Wolfgang Betz 0:3e4f610a0689 192 timer_irq_triggered = false;
Wolfgang Betz 0:3e4f610a0689 193 __enable_irq();
Wolfgang Betz 1:9458657e49ee 194 main_cycle();
Wolfgang Betz 0:3e4f610a0689 195 } else {
Wolfgang Betz 0:3e4f610a0689 196 __WFI();
Wolfgang Betz 0:3e4f610a0689 197 __enable_irq(); /* do NOT enable irqs before WFI to avoid
Wolfgang Betz 0:3e4f610a0689 198 opening a window in which you can loose
Wolfgang Betz 0:3e4f610a0689 199 irq arrivals before going into WFI */
Wolfgang Betz 0:3e4f610a0689 200 }
Wolfgang Betz 0:3e4f610a0689 201 }
Wolfgang Betz 0:3e4f610a0689 202 }