mbed library sources
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Superseded
This library was superseded by mbed-dev - https://os.mbed.com/users/mbed_official/code/mbed-dev/.
Development branch of the mbed library sources. This library is kept in synch with the latest changes from the mbed SDK and it is not guaranteed to work.
If you are looking for a stable and tested release, please import one of the official mbed library releases:
Import librarymbed
The official Mbed 2 C/C++ SDK provides the software platform and libraries to build your applications.
targets/hal/TARGET_NXP/TARGET_LPC43XX/TARGET_LPC4337/PinNames.h
- Committer:
- mbed_official
- Date:
- 2015-07-17
- Revision:
- 592:a274ee790e56
- Parent:
- 315:1d806f4588f1
File content as of revision 592:a274ee790e56:
/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef MBED_PINNAMES_H #define MBED_PINNAMES_H #include "cmsis.h" #ifdef __cplusplus extern "C" { #endif typedef enum { PIN_INPUT, PIN_OUTPUT } PinDirection; #define PORT_SHIFT 5 #define NO_GPIO 15 // On the LPC43xx the MCU pin name and the GPIO pin name are not the same. // Encode SCU and GPIO offsets as a pin identifier #define MBED_PIN(group, num, port, pin) ((SCU_OFF(group,num) << 16) + GPIO_OFF(port,pin)) // Decode pin identifier into register, port and pin values #define MBED_SCU_REG(MBED_PIN) (LPC_SCU_BASE + (MBED_PIN >> 16)) #define MBED_GPIO_REG(MBED_PIN) (LPC_GPIO_PORT_BASE + 0x2000 + ((MBED_PIN >> (PORT_SHIFT - 2)) & 0x0000003C)) #define MBED_GPIO_PORT(MBED_PIN) ((MBED_PIN >> PORT_SHIFT) & 0x0000000F) #define MBED_GPIO_PIN(MBED_PIN) (MBED_PIN & 0x0000001F) typedef enum { // LPC43xx Pin Names // All pins defined. Package determines which are available. // LBGA256 TFBGA180 TFBGA100 LQFP208 LQFP144 // GPIO0 [15:0] [15:0] [15:6] [15:0] [15:0] // [4:0] // GPIO1 [15:0] [15:0] [15:0] [15:0] [15:0] // GPIO2 [15:0] [15:0] [15:0] [15:0] // GPIO3 [15:0] [15:0] [7] [15:0] [15:0] // [5:3] // [1:0] // GPIO4 [15:0] [15:0] [15:0] [11] // GPIO5 [26:0] [26:0] [11:0] [25:0] [18] // [16:0] // GPIO6 [30:0] [30:28] [30:20] // [26:25] [5:0] // GPIO7 [25:0] [4:0] [25:23] // [21:17] // --- --- --- --- --- // Total 164 117 49 131 83 // Groups 0x00 - 0x0F : Digital pins // * Digital pins support up to 8 functions // Use func=0 for GPIO0-GPIO4, func=4 for GPIO5-GPIO7 // * High-drive pins default to 4 mA but can support 8, 14, 20 mA P0_0 = MBED_PIN(0x00, 0, 0, 0), // GPIO0[0] P0_1 = MBED_PIN(0x00, 1, 0, 1), // GPIO0[1] P1_0 = MBED_PIN(0x01, 0, 0, 4), // GPIO0[4] P1_1 = MBED_PIN(0x01, 1, 0, 8), // GPIO0[8] P1_2 = MBED_PIN(0x01, 2, 0, 9), // GPIO0[9] P1_3 = MBED_PIN(0x01, 3, 0, 10), // GPIO0[10] P1_4 = MBED_PIN(0x01, 4, 0, 11), // GPIO0[11] P1_5 = MBED_PIN(0x01, 5, 1, 8), // GPIO1[8] P1_6 = MBED_PIN(0x01, 6, 1, 9), // GPIO1[9] P1_7 = MBED_PIN(0x01, 7, 1, 0), // GPIO1[0] P1_8 = MBED_PIN(0x01, 8, 1, 1), // GPIO1[1] P1_9 = MBED_PIN(0x01, 9, 1, 2), // GPIO1[2] P1_10 = MBED_PIN(0x01, 10, 1, 3), // GPIO1[3] P1_11 = MBED_PIN(0x01, 11, 1, 4), // GPIO1[4] P1_12 = MBED_PIN(0x01, 12, 1, 5), // GPIO1[5] P1_13 = MBED_PIN(0x01, 13, 1, 6), // GPIO1[6] P1_14 = MBED_PIN(0x01, 14, 1, 7), // GPIO1[7] P1_15 = MBED_PIN(0x01, 15, 0, 2), // GPIO0[2] P1_16 = MBED_PIN(0x01, 16, 0, 3), // GPIO0[3] P1_17 = MBED_PIN(0x01, 17, 0, 12), // GPIO0[12] high-drive P1_18 = MBED_PIN(0x01, 18, 0, 13), // GPIO0[13] P1_19 = MBED_PIN(0x01, 19, NO_GPIO, 0), P1_20 = MBED_PIN(0x01, 20, 0, 15), // GPIO0[15] P2_0 = MBED_PIN(0x02, 0, 5, 0), // GPIO5[0] P2_1 = MBED_PIN(0x02, 1, 5, 1), // GPIO5[1] P2_2 = MBED_PIN(0x02, 2, 5, 2), // GPIO5[2] P2_3 = MBED_PIN(0x02, 3, 5, 3), // GPIO5[3] high-drive P2_4 = MBED_PIN(0x02, 4, 5, 4), // GPIO5[4] high-drive P2_5 = MBED_PIN(0x02, 5, 5, 5), // GPIO5[5] high-drive P2_6 = MBED_PIN(0x02, 6, 5, 6), // GPIO5[6] P2_7 = MBED_PIN(0x02, 7, 0, 7), // GPIO0[7] P2_8 = MBED_PIN(0x02, 8, 5, 7), // GPIO5[7] P2_9 = MBED_PIN(0x02, 9, 1, 10), // GPIO1[10] P2_10 = MBED_PIN(0x02, 10, 0, 14), // GPIO0[14] P2_11 = MBED_PIN(0x02, 11, 1, 11), // GPIO1[11] P2_12 = MBED_PIN(0x02, 12, 1, 12), // GPIO1[12] P2_13 = MBED_PIN(0x02, 13, 1, 13), // GPIO1[13] P3_0 = MBED_PIN(0x03, 0, NO_GPIO, 0), P3_1 = MBED_PIN(0x03, 1, 5, 8), // GPIO5[8] P3_2 = MBED_PIN(0x03, 2, 5, 9), // GPIO5[9] P3_3 = MBED_PIN(0x03, 3, NO_GPIO, 0), P3_4 = MBED_PIN(0x03, 4, 1, 14), // GPIO1[14] P3_5 = MBED_PIN(0x03, 5, 1, 15), // GPIO1[15] P3_6 = MBED_PIN(0x03, 6, 0, 6), // GPIO0[6] P3_7 = MBED_PIN(0x03, 7, 5, 10), // GPIO5[10] P3_8 = MBED_PIN(0x03, 8, 5, 11), // GPIO5[11] P4_0 = MBED_PIN(0x04, 0, 2, 0), // GPIO2[0] P4_1 = MBED_PIN(0x04, 1, 2, 1), // GPIO2[1] P4_2 = MBED_PIN(0x04, 2, 2, 2), // GPIO2[2] P4_3 = MBED_PIN(0x04, 3, 2, 3), // GPIO2[3] P4_4 = MBED_PIN(0x04, 4, 2, 4), // GPIO2[4] P4_5 = MBED_PIN(0x04, 5, 2, 5), // GPIO2[5] P4_6 = MBED_PIN(0x04, 6, 2, 6), // GPIO2[6] P4_7 = MBED_PIN(0x04, 7, NO_GPIO, 0), P4_8 = MBED_PIN(0x04, 8, 5, 12), // GPIO5[12] P4_9 = MBED_PIN(0x04, 9, 5, 13), // GPIO5[13] P4_10 = MBED_PIN(0x04, 10, 5, 14), // GPIO5[14] P5_0 = MBED_PIN(0x05, 0, 2, 9), // GPIO2[9] P5_1 = MBED_PIN(0x05, 1, 2, 10), // GPIO2[10] P5_2 = MBED_PIN(0x05, 2, 2, 11), // GPIO2[11] P5_3 = MBED_PIN(0x05, 3, 2, 12), // GPIO2[12] P5_4 = MBED_PIN(0x05, 4, 2, 13), // GPIO2[13] P5_5 = MBED_PIN(0x05, 5, 2, 14), // GPIO2[14] P5_6 = MBED_PIN(0x05, 6, 2, 15), // GPIO2[15] P5_7 = MBED_PIN(0x05, 7, 2, 7), // GPIO2[7] P6_0 = MBED_PIN(0x06, 0, NO_GPIO, 0), P6_1 = MBED_PIN(0x06, 1, 3, 0), // GPIO3[0] P6_2 = MBED_PIN(0x06, 2, 3, 1), // GPIO3[1] P6_3 = MBED_PIN(0x06, 3, 3, 2), // GPIO3[2] P6_4 = MBED_PIN(0x06, 4, 3, 3), // GPIO3[3] P6_5 = MBED_PIN(0x06, 5, 3, 4), // GPIO3[4] P6_6 = MBED_PIN(0x06, 6, 0, 5), // GPIO0[5] P6_7 = MBED_PIN(0x06, 7, 5, 15), // GPIO5[15] P6_8 = MBED_PIN(0x06, 8, 5, 16), // GPIO5[16] P6_9 = MBED_PIN(0x06, 9, 3, 5), // GPIO3[5] P6_10 = MBED_PIN(0x06, 10, 3, 6), // GPIO3[6] P6_11 = MBED_PIN(0x06, 11, 3, 7), // GPIO3[7] P6_12 = MBED_PIN(0x06, 12, 2, 8), // GPIO2[8] P7_0 = MBED_PIN(0x07, 0, 3, 8), // GPIO3[8] P7_1 = MBED_PIN(0x07, 1, 3, 9), // GPIO3[9] P7_2 = MBED_PIN(0x07, 2, 3, 10), // GPIO3[10] P7_3 = MBED_PIN(0x07, 3, 3, 11), // GPIO3[11] P7_4 = MBED_PIN(0x07, 4, 3, 12), // GPIO3[12] P7_5 = MBED_PIN(0x07, 5, 3, 13), // GPIO3[13] P7_6 = MBED_PIN(0x07, 6, 3, 14), // GPIO3[14] P7_7 = MBED_PIN(0x07, 7, 3, 15), // GPIO3[15] P8_0 = MBED_PIN(0x08, 8, 4, 0), // GPIO4[0] high-drive P8_1 = MBED_PIN(0x09, 0, 4, 1), // GPIO4[1] high-drive P8_2 = MBED_PIN(0x09, 1, 4, 2), // GPIO4[2] high-drive P8_3 = MBED_PIN(0x09, 2, 4, 3), // GPIO4[3] P8_4 = MBED_PIN(0x08, 4, 4, 4), // GPIO4[4] P8_5 = MBED_PIN(0x08, 5, 4, 5), // GPIO4[5] P8_6 = MBED_PIN(0x08, 6, 4, 6), // GPIO4[6] P8_7 = MBED_PIN(0x08, 7, 4, 7), // GPIO4[7] P8_8 = MBED_PIN(0x08, 8, NO_GPIO, 0), P9_0 = MBED_PIN(0x09, 0, 4, 12), // GPIO4[12] P9_1 = MBED_PIN(0x09, 1, 4, 13), // GPIO4[13] P9_2 = MBED_PIN(0x09, 2, 4, 14), // GPIO4[14] P9_3 = MBED_PIN(0x09, 3, 4, 15), // GPIO4[15] P9_4 = MBED_PIN(0x09, 4, 5, 17), // GPIO5[17] P9_5 = MBED_PIN(0x09, 5, 5, 18), // GPIO5[18] P9_6 = MBED_PIN(0x09, 6, 4, 11), // GPIO4[11] PA_0 = MBED_PIN(0x0A, 0, NO_GPIO, 0), PA_1 = MBED_PIN(0x0A, 1, 4, 8), // GPIO4[8] high-drive PA_2 = MBED_PIN(0x0A, 2, 4, 9), // GPIO4[9] high-drive PA_3 = MBED_PIN(0x0A, 3, 4, 10), // GPIO4[10] high-drive PA_4 = MBED_PIN(0x0A, 4, 5, 19), // GPIO5[19] PB_0 = MBED_PIN(0x0B, 0, 5, 20), // GPIO5[20] PB_1 = MBED_PIN(0x0B, 1, 5, 21), // GPIO5[21] PB_2 = MBED_PIN(0x0B, 2, 5, 22), // GPIO5[22] PB_3 = MBED_PIN(0x0B, 3, 5, 23), // GPIO5[23] PB_4 = MBED_PIN(0x0B, 4, 5, 24), // GPIO5[24] PB_5 = MBED_PIN(0x0B, 5, 5, 25), // GPIO5[25] PB_6 = MBED_PIN(0x0B, 6, 5, 26), // GPIO5[26] PC_0 = MBED_PIN(0x0C, 0, NO_GPIO, 0), PC_1 = MBED_PIN(0x0C, 1, 6, 0), // GPIO6[0] PC_2 = MBED_PIN(0x0C, 2, 6, 1), // GPIO6[1] PC_3 = MBED_PIN(0x0C, 3, 6, 2), // GPIO6[2] PC_4 = MBED_PIN(0x0C, 4, 6, 3), // GPIO6[3] PC_5 = MBED_PIN(0x0C, 5, 6, 4), // GPIO6[4] PC_6 = MBED_PIN(0x0C, 6, 6, 5), // GPIO6[5] PC_7 = MBED_PIN(0x0C, 7, 6, 6), // GPIO6[6] PC_8 = MBED_PIN(0x0C, 8, 6, 7), // GPIO6[7] PC_9 = MBED_PIN(0x0C, 9, 6, 8), // GPIO6[8] PC_10 = MBED_PIN(0x0C, 10, 6, 9), // GPIO6[9] PC_11 = MBED_PIN(0x0C, 11, 6, 10), // GPIO6[10] PC_12 = MBED_PIN(0x0C, 12, 6, 11), // GPIO6[11] PC_13 = MBED_PIN(0x0C, 13, 6, 12), // GPIO6[12] PC_14 = MBED_PIN(0x0C, 14, 6, 13), // GPIO6[13] PD_0 = MBED_PIN(0x0D, 0, 6, 14), // GPIO6[14] PD_1 = MBED_PIN(0x0D, 1, 6, 15), // GPIO6[15] PD_2 = MBED_PIN(0x0D, 2, 6, 16), // GPIO6[16] PD_3 = MBED_PIN(0x0D, 3, 6, 17), // GPIO6[17] PD_4 = MBED_PIN(0x0D, 4, 6, 18), // GPIO6[18] PD_5 = MBED_PIN(0x0D, 5, 6, 19), // GPIO6[19] PD_6 = MBED_PIN(0x0D, 6, 6, 20), // GPIO6[20] PD_7 = MBED_PIN(0x0D, 7, 6, 21), // GPIO6[21] PD_8 = MBED_PIN(0x0D, 8, 6, 22), // GPIO6[22] PD_9 = MBED_PIN(0x0D, 9, 6, 23), // GPIO6[23] PD_10 = MBED_PIN(0x0D, 10, 6, 24), // GPIO6[24] PD_11 = MBED_PIN(0x0D, 11, 6, 25), // GPIO6[25] PD_12 = MBED_PIN(0x0D, 12, 6, 26), // GPIO6[26] PD_13 = MBED_PIN(0x0D, 13, 6, 27), // GPIO6[27] PD_14 = MBED_PIN(0x0D, 14, 6, 28), // GPIO6[28] PD_15 = MBED_PIN(0x0D, 15, 6, 29), // GPIO6[29] PD_16 = MBED_PIN(0x0D, 16, 6, 30), // GPIO6[30] PE_0 = MBED_PIN(0x0E, 0, 7, 0), // GPIO7[0] PE_1 = MBED_PIN(0x0E, 1, 7, 1), // GPIO7[1] PE_2 = MBED_PIN(0x0E, 2, 7, 2), // GPIO7[2] PE_3 = MBED_PIN(0x0E, 3, 7, 3), // GPIO7[3] PE_4 = MBED_PIN(0x0E, 4, 7, 4), // GPIO7[4] PE_5 = MBED_PIN(0x0E, 5, 7, 5), // GPIO7[5] PE_6 = MBED_PIN(0x0E, 6, 7, 6), // GPIO7[6] PE_7 = MBED_PIN(0x0E, 7, 7, 7), // GPIO7[7] PE_8 = MBED_PIN(0x0E, 8, 7, 8), // GPIO7[8] PE_9 = MBED_PIN(0x0E, 9, 7, 9), // GPIO7[9] PE_10 = MBED_PIN(0x0E, 10, 7, 10), // GPIO7[10] PE_11 = MBED_PIN(0x0E, 11, 7, 11), // GPIO7[11] PE_12 = MBED_PIN(0x0E, 12, 7, 12), // GPIO7[12] PE_13 = MBED_PIN(0x0E, 13, 7, 13), // GPIO7[13] PE_14 = MBED_PIN(0x0E, 14, 7, 14), // GPIO7[14] PE_15 = MBED_PIN(0x0E, 15, 7, 15), // GPIO7[15] PF_0 = MBED_PIN(0x0F, 0, NO_GPIO, 0), PF_1 = MBED_PIN(0x0F, 1, 7, 16), // GPIO7[16] PF_2 = MBED_PIN(0x0F, 2, 7, 17), // GPIO7[17] PF_3 = MBED_PIN(0x0F, 3, 7, 18), // GPIO7[18] PF_4 = MBED_PIN(0x0F, 4, NO_GPIO, 0), PF_5 = MBED_PIN(0x0F, 5, 7, 19), // GPIO7[19] PF_6 = MBED_PIN(0x0F, 6, 7, 20), // GPIO7[20] PF_7 = MBED_PIN(0x0F, 7, 7, 21), // GPIO7[21] PF_8 = MBED_PIN(0x0F, 8, 7, 22), // GPIO7[22] PF_9 = MBED_PIN(0x0F, 9, 7, 23), // GPIO7[23] PF_10 = MBED_PIN(0x0F, 10, 7, 24), // GPIO7[24] PF_11 = MBED_PIN(0x0F, 11, 7, 25), // GPIO7[25] // GPIO pins from MCU pins GPIO0_0 = P0_0, GPIO0_1 = P0_1 , GPIO0_2 = P1_15, GPIO0_3 = P1_16, GPIO0_4 = P1_0, GPIO0_5 = P6_6, GPIO0_6 = P3_6, GPIO0_7 = P2_7, GPIO0_8 = P1_1, GPIO0_9 = P1_2, GPIO0_10 = P1_3, GPIO0_11 = P1_4, GPIO0_12 = P1_17, GPIO0_13 = P1_18, GPIO0_14 = P2_10, GPIO0_15 = P1_20, GPIO1_0 = P1_7, GPIO1_1 = P1_8, GPIO1_2 = P1_9, GPIO1_3 = P1_10, GPIO1_4 = P1_11, GPIO1_5 = P1_12, GPIO1_6 = P1_13, GPIO1_7 = P1_14, GPIO1_8 = P1_5, GPIO1_9 = P1_6, GPIO1_10 = P2_9, GPIO1_11 = P2_11, GPIO1_12 = P2_12, GPIO1_13 = P2_13, GPIO1_14 = P3_4, GPIO1_15 = P3_5, GPIO2_0 = P4_0, GPIO2_1 = P4_1, GPIO2_2 = P4_2, GPIO2_3 = P4_3, GPIO2_4 = P4_4, GPIO2_5 = P4_5, GPIO2_6 = P4_6, GPIO2_7 = P5_7, GPIO2_8 = P6_12, GPIO2_9 = P5_0, GPIO2_10 = P5_1, GPIO2_11 = P5_2, GPIO2_12 = P5_3, GPIO2_13 = P5_4, GPIO2_14 = P5_5, GPIO2_15 = P5_6, GPIO3_0 = P6_1, GPIO3_1 = P6_2, GPIO3_2 = P6_3, GPIO3_3 = P6_4, GPIO3_4 = P6_5, GPIO3_5 = P6_9, GPIO3_6 = P6_10, GPIO3_7 = P6_11, GPIO3_8 = P7_0, GPIO3_9 = P7_1, GPIO3_10 = P7_2, GPIO3_11 = P7_3, GPIO3_12 = P7_4, GPIO3_13 = P7_5, GPIO3_14 = P7_6, GPIO3_15 = P7_7, GPIO4_0 = P8_0, GPIO4_1 = P8_1, GPIO4_2 = P8_2, GPIO4_3 = P8_3, GPIO4_4 = P8_4, GPIO4_5 = P8_5, GPIO4_6 = P8_6, GPIO4_7 = P8_7, GPIO4_8 = PA_1, GPIO4_9 = PA_2, GPIO4_10 = PA_3, GPIO4_11 = P9_6, GPIO4_12 = P9_0, GPIO4_13 = P9_1, GPIO4_14 = P9_2, GPIO4_15 = P9_3, GPIO5_0 = P2_0, GPIO5_1 = P2_1, GPIO5_2 = P2_2, GPIO5_3 = P2_3, GPIO5_4 = P2_4, GPIO5_5 = P2_5, GPIO5_6 = P2_6, GPIO5_7 = P2_8, GPIO5_8 = P3_1, GPIO5_9 = P3_2, GPIO5_10 = P3_7, GPIO5_11 = P3_8, GPIO5_12 = P4_8, GPIO5_13 = P4_9, GPIO5_14 = P4_10, GPIO5_15 = P6_7, GPIO5_16 = P6_8, GPIO5_17 = P9_4, GPIO5_18 = P9_5, GPIO5_19 = PA_4, GPIO5_20 = PB_0, GPIO5_21 = PB_1, GPIO5_22 = PB_2, GPIO5_23 = PB_3, GPIO5_24 = PB_4, GPIO5_25 = PB_5, GPIO5_26 = PB_6, GPIO6_0 = PC_1, GPIO6_1 = PC_2, GPIO6_2 = PC_3, GPIO6_3 = PC_4, GPIO6_4 = PC_5, GPIO6_5 = PC_6, GPIO6_6 = PC_7, GPIO6_7 = PC_8, GPIO6_8 = PC_9, GPIO6_9 = PC_10, GPIO6_10 = PC_11, GPIO6_11 = PC_12, GPIO6_12 = PC_13, GPIO6_13 = PC_14, GPIO6_14 = PD_0, GPIO6_15 = PD_1, GPIO6_16 = PD_2, GPIO6_17 = PD_3, GPIO6_18 = PD_4, GPIO6_19 = PD_5, GPIO6_20 = PD_6, GPIO6_21 = PD_7, GPIO6_22 = PD_8, GPIO6_23 = PD_9, GPIO6_24 = PD_10, GPIO6_25 = PD_11, GPIO6_26 = PD_12, GPIO6_27 = PD_13, GPIO6_28 = PD_14, GPIO6_29 = PD_15, GPIO6_30 = PD_16, GPIO7_0 = PE_0, GPIO7_1 = PE_1, GPIO7_2 = PE_2, GPIO7_3 = PE_3, GPIO7_4 = PE_4, GPIO7_5 = PE_5, GPIO7_6 = PE_5, GPIO7_7 = PE_7, GPIO7_8 = PE_8, GPIO7_9 = PE_9, GPIO7_10 = PE_10, GPIO7_11 = PE_11, GPIO7_12 = PE_12, GPIO7_13 = PE_13, GPIO7_14 = PE_14, GPIO7_15 = PE_15, GPIO7_16 = PF_1, GPIO7_17 = PF_2, GPIO7_18 = PF_3, GPIO7_19 = PF_5, GPIO7_20 = PF_6, GPIO7_21 = PF_7, GPIO7_22 = PF_8, GPIO7_23 = PF_9, GPIO7_24 = PF_10, GPIO7_25 = PF_11, // Map mbed pin names to LPC43xx board signals // Group 0x18 : CLKn pins SFP_CLK0 = MBED_PIN(0x18, 0, 0, 0), SFP_CLK1 = MBED_PIN(0x18, 1, 0, 0), SFP_CLK2 = MBED_PIN(0x18, 2, 0, 0), SFP_CLK3 = MBED_PIN(0x18, 3, 0, 0), // Group 0x19 : USB1, I2C0, ADC0, ADC1 SFP_USB1 = MBED_PIN(0x19, 0, 0, 0), SFP_I2C0 = MBED_PIN(0x19, 1, 0, 0), SFP_AIO0 = MBED_PIN(0x19, 2, 0, 0), // ADC0 function select register SFP_AIO1 = MBED_PIN(0x19, 3, 0, 0), // ADC1 function select register SFP_AIO2 = MBED_PIN(0x19, 4, 0, 0), // Analog function select register SFP_EMCD = MBED_PIN(0x1A, 0, 0, 0), // EMC clock delay register SFP_INS0 = MBED_PIN(0x1C, 0, 0, 0), // Interrupt select for pin interrupts 0 to 3 SFP_INS1 = MBED_PIN(0x1C, 1, 0, 0), // Interrupt select for pin interrupts 4 to 7 // Dedicated pin (no GPIO) P_DED = MBED_PIN(0, 0, NO_GPIO, 0), // Not connected NC = (int)0xFFFFFFFF, // ---------- LPCXpresso 4337 pins ---------- D0 = P2_11, D1 = P2_10, D2 = P2_13, D3 = P1_8, D4 = P2_2, D5 = P1_7, D6 = P2_9, D7 = P2_12, D8 = P2_6, D9 = P6_5, D10 = P1_5, D11 = P1_4, D12 = P1_3, D13 = PF_4, D14 = P2_3, D15 = P2_4, SDA = P2_3, SCL = P2_4, A0 = P4_3, A1 = P4_1, A2 = PF_8, A3 = P7_5, A4 = NC, A5 = P2_5, LED_GREEN = P2_7, LED_RED = P6_11, LED_BLUE = P6_9, // Serial pins UART0_TX = P6_4, UART0_RX = P2_1, UART1_TX = D1, UART1_RX = D0, USBTX = UART0_TX, USBRX = UART0_RX, I2C_SDA = SDA, I2C_SDL = SCL, LED1 = LED_RED, LED2 = LED_BLUE, LED3 = LED_GREEN, LED4 = LED_RED, // ---------- End of LPCXpresso 4337 pins ---------- } PinName; typedef enum { PullUp = 0, PullDown = 3, PullNone = 2, Repeater = 1, OpenDrain = 4, PullDefault = PullDown } PinMode; #ifdef __cplusplus } #endif #endif