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16 changed files with 103 additions and 518 deletions
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5
CMakeLists.txt
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@ -4,8 +4,8 @@ include(cmake/toolchain.cmake)
project(xlsw_3dp_LDC1612)
set(VERSION_MAJOR 0)
set(VERSION_MINOR 2)
set(VERSION_PATCH 0)
set(VERSION_MINOR 1)
set(VERSION_PATCH 1)
set(VERSION "V${VERSION_MAJOR}.${VERSION_MINOR}.${VERSION_PATCH}")
string(TIMESTAMP CURRENT_DATE "%Y-%m-%d")
@ -29,7 +29,6 @@ set(TARGET_C_SRC
${CMAKE_SOURCE_DIR}/src/rs485.c
${CMAKE_SOURCE_DIR}/src/led.c
${CMAKE_SOURCE_DIR}/src/i2c.c
${CMAKE_SOURCE_DIR}/src/soft_i2c.c
)
add_executable(xlsw_3dp_LDC1612 ${TARGET_C_SRC})

79
CommunicationProtocol.md
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@ -1,79 +0,0 @@
# 电涡流传感器模块通信协议
## 电涡流传感器模块通信协议
| **序号** | **修改内容** | **版本** | **日期** | **修改人** |
|:------:|:--------:|:------:|:----------:|:-------:|
| 1 | 初版 | V1.0 | 2024-12-25 | Hulk |
| | | | | |
| | | | | |
| | | | | |
### 发包格式
| **包头** | **类型** | **数据长度** | **数据** | **校验** |
|:------:|:------:|:-----------:|:------:|:------:|
| D5 | 0x03 | Data Length | Data | CRC |
- 数据长度只包含数据部分,不包含包头、类型、数据长度、校验
- CRC求和校验包含类型、数据长度、数据
- 数据部分为ascii码
### 回包格式
| **包头** | **状态码** | **数据长度** | **数据** | **校验** |
|:------:|:----------:|:-----------:|:------:|:------:|
| B5 | 0xF0 正常包 | Data Length | Data | CRC |
| B5 | 0xF1 CRC错误 | Data Length | Data | CRC |
| B5 | 0xF2 包头错误 | Data Length | Data | CRC |
| B5 | 0xF3 类型错误 | Data Length | Data | CRC |
| B5 | 0xF4 包长度错误 | Data Length | Data | CRC |
- 数据长度只包含数据部分,不包含包头、类型、数据长度、校验
- CRC求和校验包含状态码、数据长度、数据
- 有效数据部分为uint32_t高字节在前
- 包错误和指令错误时数据部分为ascii码 `err`
-------------------
## 电涡流传感器模块功能
### 1. 读取电涡流传感器模块数据
- 发送M1指令读取电涡流传感器模块数据。
- `D5 03 02 4D 31 83`
- 电涡流传感器模块涡流回复数据
- `B5 F0 04 01 AE 1B E4 A2`, 有效数据为 `0x01AE1BE4`,转换为`28187620`
- `B5 F0 04 04 19 C1 FA CC`, 有效数据为 `0x0419C1FAD2`,转换为`17612012242`
- 错误命令M3指令回包
- `B5 F0 03 65 72 72 3C`,有效数据为 `err`
- CRC错误回包
- `B5 F1 03 65 72 72 3D`, 有效数据为 `err`
- 包头错误回包
- `B5 F2 03 65 72 72 3E`, 有效数据为 `err`
- 类型错误回包
- `B5 F3 03 65 72 72 3F`, 有效数据为 `err`
- 数据长度错误回包
- `B5 F4 03 65 72 72 40`, 有效数据为 `err`
### 2. 读取电涡流传感器模块温度补偿数据
- 发送M2指令读取电涡流传感器模块数据。
- `D5 03 02 4D 32 84`
- 电涡流传感器模块温度补偿回复数据
- `B5 F0 04 00 03 40 85 BC`, 有效数据为 `0x00034085`,转换为`213125`(单位为摄氏度*10温度为21.3125℃
- `B5 F0 04 00 03 89 C3 43`, 有效数据为 `0x000389C3`,转换为`231875`(单位为摄氏度*10温度为23.1875℃
- 错误命令M3指令回包
- `B5 F0 03 65 72 72 3C`,有效数据为 `err`
- CRC错误回包
- `B5 F1 03 65 72 72 3D`, 有效数据为 `err`
- 包头错误回包
- `B5 F2 03 65 72 72 3E`, 有效数据为 `err`
- 类型错误回包
- `B5 F3 03 65 72 72 3F`, 有效数据为 `err`
- 数据长度错误回包
- `B5 F4 03 65 72 72 40`, 有效数据为 `err`
### 3. 读取数据时间间隔
- 推荐数据时间间隔至少为500ms

82
README.md
View File

@ -1,9 +1,79 @@
# XLSW-3DP-Sensor-LDC1612
| **版本号** | **修改内容** | **日期** | **修改人** |
|:-------:|:-------------------:|:----------:|:-------:|
| v0.2.0 | 实现软件与硬件IIC可自选添加看门狗 | 2024-12-29 | Hulk |
# 电涡流传感器模块通信协议
## 电涡流传感器模块通信协议
通信协议:[LDC1612通信协议]{./CommunicationProtocol.md}
| **序号** | **修改内容** | **版本** | **日期** | **修改人** |
|:------:|:--------:|:------:|:----------:|:-------:|
| 1 | 初版 | V1.0 | 2024-12-25 | Hulk |
| | | | | |
| | | | | |
| | | | | |
### 发包格式
| **包头** | **类型** | **数据长度** | **数据** | **校验** |
|:------:|:------:|:-----------:|:------:|:------:|
| D5 | 0x03 | Data Length | Data | CRC |
- 数据长度只包含数据部分,不包含包头、类型、数据长度、校验
- CRC求和校验包含类型、数据长度、数据
- 数据部分为ascii码
### 回包格式
| **包头** | **状态码** | **数据长度** | **数据** | **校验** |
|:------:|:----------:|:-----------:|:------:|:------:|
| B5 | 0xF0 正常包 | Data Length | Data | CRC |
| B5 | 0xF1 CRC错误 | Data Length | Data | CRC |
| B5 | 0xF2 包头错误 | Data Length | Data | CRC |
| B5 | 0xF3 类型错误 | Data Length | Data | CRC |
| B5 | 0xF4 包长度错误 | Data Length | Data | CRC |
- 数据长度只包含数据部分,不包含包头、类型、数据长度、校验
- CRC求和校验包含状态码、数据长度、数据
- 有效数据部分为uint32_t高字节在前
- 包错误和指令错误时数据部分为ascii码 `err`
-------------------
## 电涡流传感器模块功能
### 1. 读取电涡流传感器模块数据
- 发送M1指令读取电涡流传感器模块数据。
- `D5 03 02 4D 31 83`
- 电涡流传感器模块涡流回复数据
- `B5 F0 04 01 AE 1B E4 A2`, 有效数据为 `0x01AE1BE4`,转换为`28187620`
- `B5 F0 04 04 19 C1 FA CC`, 有效数据为 `0x0419C1FAD2`,转换为`17612012242`
- 错误命令M3指令回包
- `B5 F0 03 65 72 72 3C`,有效数据为 `err`
- CRC错误回包
- `B5 F1 03 65 72 72 3D`, 有效数据为 `err`
- 包头错误回包
- `B5 F2 03 65 72 72 3E`, 有效数据为 `err`
- 类型错误回包
- `B5 F3 03 65 72 72 3F`, 有效数据为 `err`
- 数据长度错误回包
- `B5 F4 03 65 72 72 40`, 有效数据为 `err`
### 2. 读取电涡流传感器模块温度补偿数据
- 发送M2指令读取电涡流传感器模块数据。
- `D5 03 02 4D 32 84`
- 电涡流传感器模块温度补偿回复数据
- `B5 F0 04 00 03 40 85 BC`, 有效数据为 `0x00034085`,转换为`213125`(单位为摄氏度*10温度为21.3125℃
- `B5 F0 04 00 03 89 C3 43`, 有效数据为 `0x000389C3`,转换为`231875`(单位为摄氏度*10温度为23.1875℃
- 错误命令M3指令回包
- `B5 F0 03 65 72 72 3C`,有效数据为 `err`
- CRC错误回包
- `B5 F1 03 65 72 72 3D`, 有效数据为 `err`
- 包头错误回包
- `B5 F2 03 65 72 72 3E`, 有效数据为 `err`
- 类型错误回包
- `B5 F3 03 65 72 72 3F`, 有效数据为 `err`
- 数据长度错误回包
- `B5 F4 03 65 72 72 40`, 有效数据为 `err`
### 3. 读取数据时间间隔
- 推荐数据时间间隔至少为500ms

36
inc/board_config.h
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@ -1,36 +0,0 @@
//
// Created by dell on 24-12-28.
//
#ifndef BOARD_CONFIG_H
#define BOARD_CONFIG_H
#define SOFTWARE_IIC
// #define DEBUG_VERBOES
/******************************************************************************/
#define I2C_SPEED 20000
#define RCU_GPIO_I2C RCU_GPIOF
#define RCU_I2C RCU_I2C0
#define I2C_SCL_PORT GPIOF
#define I2C_SCL_PIN GPIO_PIN_1
#define I2C_SDA_PORT GPIOF
#define I2C_SDA_PIN GPIO_PIN_0
#define I2C_GPIO_AF GPIO_AF_1
/******************************************************************************/
#define RS485_RCU RCU_USART0
#define RS485_GPIO_RCU RCU_GPIOA
#define RS485_GPIO_PORT GPIOA
#define RS485_TX_PIN GPIO_PIN_2
#define RS485_RX_PIN GPIO_PIN_3
#define RS485_PHY USART0
#define RS485_BAUDRATE 115200U
#define RS485_EN_PIN GPIO_PIN_1
/******************************************************************************/
#endif //BOARD_CONFIG_H

15
inc/i2c.h
View File

@ -15,15 +15,16 @@
#include <stdlib.h>
#include <math.h>
#include "board_config.h"
/******************************************************************************/
#define I2C_SCL_HIGH() gpio_bit_set(I2C_SCL_PORT, I2C_SCL_PIN)
#define I2C_SCL_LOW() gpio_bit_reset(I2C_SCL_PORT, I2C_SCL_PIN)
#define I2C_SDA_HIGH() gpio_bit_set(I2C_SDA_PORT, I2C_SDA_PIN)
#define I2C_SDA_LOW() gpio_bit_reset(I2C_SDA_PORT, I2C_SDA_PIN)
#define I2C_SDA_READ() gpio_input_bit_get(I2C_SDA_PORT, I2C_SDA_PIN)
#define I2C_SPEED 20000
#define RCU_GPIO_I2C RCU_GPIOF
#define RCU_I2C RCU_I2C0
#define I2C_SCL_PORT GPIOF
#define I2C_SCL_PIN GPIO_PIN_1
#define I2C_SDA_PORT GPIOF
#define I2C_SDA_PIN GPIO_PIN_0
#define I2C_GPIO_AF GPIO_AF_1
/******************************************************************************/

4
inc/ldc1612.h
View File

@ -13,12 +13,8 @@
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "board_config.h"
#include "soft_i2c.h"
#include "i2c.h"
/***************************************************************************/
#define LDC1612_ADDR (0x2B << 1)
/*Register Rddr*/

53
inc/soft_i2c.h
View File

@ -1,53 +0,0 @@
//
// Created by dell on 24-12-28.
//
#ifndef SOFT_I2C_H
#define SOFT_I2C_H
#include "gd32e23x_it.h"
#include "gd32e23x.h"
#include "systick.h"
#include "main.h"
#include "board_config.h"
/******************************************************************************/
#define I2C_SCL_HIGH() gpio_bit_set(I2C_SCL_PORT, I2C_SCL_PIN)
#define I2C_SCL_LOW() gpio_bit_reset(I2C_SCL_PORT, I2C_SCL_PIN)
#define I2C_SDA_HIGH() gpio_bit_set(I2C_SDA_PORT, I2C_SDA_PIN)
#define I2C_SDA_LOW() gpio_bit_reset(I2C_SDA_PORT, I2C_SDA_PIN)
#define I2C_SDA_READ() gpio_input_bit_get(I2C_SDA_PORT, I2C_SDA_PIN)
/******************************************************************************/
#define SOFT_I2C_OK 1
#define SOFT_I2C_FAIL 0
#define SOFT_I2C_END 1
/******************************************************************************/
void soft_i2c_delay(void);
void soft_i2c_config(void);
void soft_i2c_start(void);
void soft_i2c_stop(void);
void soft_i2c_send_ack(void);
void soft_i2c_send_nack(void);
uint8_t soft_i2c_wait_ack(void);
void soft_i2c_send_byte(uint8_t data);
uint8_t soft_i2c_receive_byte(uint8_t ack);
uint8_t soft_i2c_write_16bits(uint8_t slave_addr, uint8_t reg_addr, uint8_t data[2]);
uint8_t soft_i2c_read_16bits(uint8_t slave_addr, uint8_t reg_addr, uint8_t *data);
#endif //SOFT_I2C_H

7
inc/tmp112.h
View File

@ -13,14 +13,7 @@
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "board_config.h"
#ifdef SOFTWARE_IIC
#include "soft_i2c.h"
#else
#include "i2c.h"
#endif
/******************************************************************************/

4
sdk/CMSIS/src/system_gd32e23x.c
View File

@ -45,9 +45,9 @@
/* select a system clock by uncommenting the following line */
//#define __SYSTEM_CLOCK_8M_HXTAL (__HXTAL)
// #define __SYSTEM_CLOCK_8M_IRC8M (__IRC8M)
#define __SYSTEM_CLOCK_8M_IRC8M (__IRC8M)
// #define __SYSTEM_CLOCK_72M_PLL_HXTAL (uint32_t)(72000000)
#define __SYSTEM_CLOCK_72M_PLL_IRC8M_DIV2 (uint32_t)(72000000)
// #define __SYSTEM_CLOCK_72M_PLL_IRC8M_DIV2 (uint32_t)(72000000)
#define RCU_MODIFY(__delay) do{ \
volatile uint32_t i; \

2
src/i2c.c
View File

@ -32,8 +32,6 @@ void i2c_gpio_config(void) {
\retval none
*/
void i2c_config(void) {
/* configure I2C GPIO */
i2c_gpio_config();
/* enable I2C clock */
rcu_periph_clock_enable(RCU_I2C);
/* configure I2C clock */

73
src/ldc1612.c
View File

@ -12,12 +12,7 @@ void ldc1612_set_conversion_time(uint8_t channel, uint16_t result) {
uint8_t data[2] = {0};
data[0] = (result >> 8) & 0xFF;
data[1] = result & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SET_CONVERSION_TIME_REG_START + channel, data);
#else
i2c_write_16bits(LDC1612_ADDR, SET_CONVERSION_TIME_REG_START + channel, data);
#endif
}
/** @brief set conversion offset.
@ -28,12 +23,7 @@ void ldc1612_set_conversion_offset(uint8_t channel, uint16_t result) {
uint8_t data[2] = {0};
data[0] = (result >> 8) & 0xFF;
data[1] = result & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SET_CONVERSION_OFFSET_REG_START + channel, data);
#else
i2c_write_16bits(LDC1612_ADDR, SET_CONVERSION_OFFSET_REG_START + channel, data);
#endif
}
/** @brief Before conversion,wait LC sensor stabilize for a short time.
@ -44,11 +34,7 @@ void ldc1612_set_LC_stabilize_time(uint8_t channel, uint16_t result) {
uint8_t data[2] = {0};
data[0] = (result >> 8) & 0xFF;
data[1] = result & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SET_LC_STABILIZE_REG_START + channel, data);
#else
i2c_write_16bits(LDC1612_ADDR, SET_LC_STABILIZE_REG_START + channel, data);
#endif
}
/** @brief set input frequency divide and fref divide.
@ -79,11 +65,8 @@ void ldc1612_set_freq_divide(uint8_t channel) {
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
// printf("\tFIN_DIV: %d, FREF_DIV: %d\r\n", fin_div, freq_div);
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SET_FREQ_REG_START + channel, data);
#else
i2c_write_16bits(LDC1612_ADDR, SET_FREQ_REG_START + channel, data);
#endif
}
/** @brief Error output config.
@ -94,11 +77,7 @@ void ldc1612_set_error_config(uint16_t value) {
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, ERROR_CONFIG_REG, data);
#else
i2c_write_16bits(LDC1612_ADDR, ERROR_CONFIG_REG, data);
#endif
}
/** @brief mux config.
@ -109,11 +88,7 @@ void ldc1612_set_mux_config(uint16_t value) {
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, MUL_CONFIG_REG, data);
#else
i2c_write_16bits(LDC1612_ADDR, MUL_CONFIG_REG, data);
#endif
}
/** @brief reset sensor.
@ -123,12 +98,7 @@ void ldc1612_reset_sensor(void) {
uint8_t data[2] = {0};
data[0] = 0x80;
data[1] = 0x00;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SENSOR_RESET_REG, data);
#else
i2c_write_16bits(LDC1612_ADDR, SENSOR_RESET_REG, data);
#endif
}
/** @brief set drive current of sensor.
@ -139,11 +109,7 @@ void ldc1612_set_drive_current(uint8_t channel, uint16_t value) {
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SET_DRIVER_CURRENT_REG + channel, data);
#else
i2c_write_16bits(LDC1612_ADDR, SET_DRIVER_CURRENT_REG + channel, data);
#endif
}
/** @brief Main config part of sensor.Contains select channel、start conversion、sleep mode、sensor activation mode、INT pin disable ..
@ -154,11 +120,7 @@ void ldc1612_set_sensor_config(uint16_t value) {
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
#ifdef SOFTWARE_IIC
soft_i2c_write_16bits(LDC1612_ADDR, SENSOR_CONFIG_REG, data);
#else
i2c_write_16bits(LDC1612_ADDR, SENSOR_CONFIG_REG, data);
#endif
}
void ldc1612_single_ch0_config(void) {
@ -179,41 +141,23 @@ void ldc1612_single_ch0_config(void) {
void ldc1612_iic_get_sensor_infomation(void) {
uint8_t data[2] = {0};
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(LDC1612_ADDR, READ_MANUFACTURER_ID, data);
#else
// ldc1612_iic_read_16bits(READ_MANUFACTURER_ID, data);
i2c_read_16bits(LDC1612_ADDR, READ_MANUFACTURER_ID, data);
#endif
printf("\tManufacturer: 0x%x", (data[0] << 8) | data[1]);
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(LDC1612_ADDR, READ_DEVICE_ID, data);
#else
// ldc1612_iic_read_16bits(READ_DEVICE_ID, data);
i2c_read_16bits(LDC1612_ADDR, READ_DEVICE_ID, data);
#endif
printf("\tDevice: 0x%x", (data[0] << 8) | data[1]);
}
uint16_t ldc1612_get_manufacturer_id(void) {
uint8_t data[2] = {0};
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(LDC1612_ADDR, READ_MANUFACTURER_ID, data);
#else
i2c_read_16bits(LDC1612_ADDR, READ_MANUFACTURER_ID, data);
#endif
return (data[0] << 8) | data[1];
}
uint16_t ldc1612_get_deveice_id(void) {
uint8_t data[2] = {0};
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(LDC1612_ADDR, READ_DEVICE_ID, data);
#else
i2c_read_16bits(LDC1612_ADDR, READ_DEVICE_ID, data);
#endif
return (data[0] << 8) | data[1];
}
@ -225,18 +169,11 @@ uint32_t ldc1612_get_raw_channel_result(uint8_t channel) {
uint32_t raw_value = 0;
uint8_t value[2] = {0};
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(LDC1612_ADDR, CONVERTION_RESULT_REG_START + channel, value);
#else
// ldc1612_iic_read_16bits(CONVERTION_RESULT_REG_START + channel, value);
i2c_read_16bits(LDC1612_ADDR, CONVERTION_RESULT_REG_START + channel, value);
#endif
raw_value |= (uint32_t) ((value[0] << 8) | value[1]) << 16;
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(LDC1612_ADDR, CONVERTION_RESULT_REG_START + channel + 1, value);
#else
// ldc1612_iic_read_16bits(CONVERTION_RESULT_REG_START + channel + 1, value);
i2c_read_16bits(LDC1612_ADDR, CONVERTION_RESULT_REG_START + channel + 1, value);
#endif
raw_value |= (uint32_t) ((value[0] << 8) | value[1]);
return ldc1612_parse_raw_result(raw_value);
}

4
src/led.c
View File

@ -16,10 +16,10 @@ void led_config(void) {
timer_parameter_struct timer_initpara;
timer_struct_para_init(&timer_initpara);
timer_initpara.prescaler = 7199;
timer_initpara.prescaler = 799;
timer_initpara.alignedmode = TIMER_COUNTER_EDGE;
timer_initpara.counterdirection = TIMER_COUNTER_UP;
timer_initpara.period = 9999;
timer_initpara.period = 999;
timer_initpara.clockdivision = TIMER_CKDIV_DIV1;
timer_init(LED_TIMER, &timer_initpara);

20
src/main.c
View File

@ -13,13 +13,10 @@
#include "led.h"
#include "i2c.h"
#include "ldc1612.h"
#include "board_config.h"
#include "tmp112.h"
#ifdef SOFTWARE_IIC
#include "soft_i2c.h"
#else
#include "i2c.h"
#endif
uint32_t g_temperature_uint32;
uint32_t g_eddy_current_value_uint32;
void watchdog_init(void) {
/* Enable the LSI clock */
@ -58,18 +55,11 @@ int main(void) {
rs485_config();
/* configure LED */
led_config();
/* configure I2C */
#ifdef SOFTWARE_IIC
soft_i2c_config();
#else
i2c_gpio_config();
i2c_config();
#endif
#ifdef DEBUG_VERBOES
ldc1612_iic_get_sensor_infomation();
#endif
// ldc1612_iic_get_sensor_infomation();
/* configure LDC1612 */
ldc1612_single_ch0_config();

3
src/rs485.c
View File

@ -4,6 +4,9 @@
#include "rs485.h"
extern uint32_t g_temperature_uint32;
extern uint32_t g_eddy_current_value_uint32;
uint8_t package_header[3] = {0xB5, 0xF0, 0x04};
uint8_t package_data[4] = {0};

228
src/soft_i2c.c
View File

@ -1,228 +0,0 @@
//
// Created by dell on 24-12-28.
//
#include "soft_i2c.h"
/*!
\brief delay
\param[in] none
\param[out] none
\retval none
*/
void soft_i2c_delay(void) {
delay_us(20); // Adjust delay as needed
/* delay to freq
* 20KHz: delay_us(20);
* 65KHz: delay_us(1);
*/
}
/*!
\brief configure the software IIC GPIO
\param[in] none
\param[out] none
\retval none
*/
void soft_i2c_config(void) {
rcu_periph_clock_enable(RCU_GPIO_I2C);
gpio_mode_set(I2C_SCL_PORT, GPIO_MODE_OUTPUT, GPIO_PUPD_PULLUP, I2C_SCL_PIN);
gpio_output_options_set(I2C_SCL_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, I2C_SCL_PIN);
gpio_mode_set(I2C_SDA_PORT, GPIO_MODE_OUTPUT, GPIO_PUPD_PULLUP, I2C_SDA_PIN);
gpio_output_options_set(I2C_SDA_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, I2C_SDA_PIN);
I2C_SCL_HIGH();
I2C_SDA_HIGH();
}
/*!
\brief generate I2C start signal
\param[in] none
\param[out] none
\retval none
*/
void soft_i2c_start(void) {
// sda_out();
I2C_SDA_HIGH();
I2C_SCL_HIGH();
soft_i2c_delay();
I2C_SDA_LOW();
soft_i2c_delay();
I2C_SCL_LOW();
// soft_i2c_delay();
// 从全高开始SCL为高期间SDA下降沿表示start信号再拉低SCL
}
/*!
\brief generate I2C stop signal
\param[in] none
\param[out] none
\retval none
*/
void soft_i2c_stop(void) {
// sda_out();
I2C_SCL_LOW();
I2C_SDA_LOW();
soft_i2c_delay();
I2C_SCL_HIGH();
soft_i2c_delay();
I2C_SDA_HIGH();
// 从全低开始SCL为高期间SDA上升沿表示stop
}
/*!
\brief send I2C ACK signal
\param[in] none
\param[out] none
\retval none
*/
void soft_i2c_send_ack(void) {
// sda_out();
I2C_SDA_LOW();
soft_i2c_delay();
I2C_SCL_HIGH();
soft_i2c_delay();
I2C_SCL_LOW();
soft_i2c_delay();
I2C_SDA_HIGH();
// SCL产生一个正常的时钟周期其间SDA始终为低电平表示ACK
}
/*!
\brief send I2C NACK signal
\param[in] none
\param[out] none
\retval none
*/
void soft_i2c_send_nack(void) {
// sda_out();
I2C_SDA_HIGH();
soft_i2c_delay();
I2C_SCL_HIGH();
soft_i2c_delay();
I2C_SCL_LOW();
soft_i2c_delay();
I2C_SDA_HIGH();
// SCL产生一个正常的时钟周期其间SDA始终为高电平表示NACK
}
/*!
\brief wait I2C ACK signal
\param[in] none
\param[out] none
\retval 0: ACK received, 1: ACK not received
*/
uint8_t soft_i2c_wait_ack(void) {
// sda_in();
I2C_SDA_HIGH();
soft_i2c_delay();
I2C_SCL_HIGH();
soft_i2c_delay();
uint8_t ack = !I2C_SDA_READ();
//ACK信号是第九个时钟期间SDA被从机在SCL高期间拉低并保持低电平。此处判断SDA是否被拉低被拉低则返回0取反为1表示收到ACK
I2C_SCL_LOW();
return ack;
}
/*!
\brief send a byte via I2C
\param[in] byte: byte to be sent
\param[out] none
\retval none
*/
void soft_i2c_send_byte(uint8_t byte) {
// sda_out();
for (int i = 0; i < 8; i++) {
if (byte & 0x80) { //通过&操作获取第一位是1还是0
I2C_SDA_HIGH(); //SCL低电平期间SDA高电平表示1
} else {
I2C_SDA_LOW(); //SCL低电平期间SDA低电平表示0
}
byte <<= 1; //左移一位,把原本第二位的数据移到第一位,再判断高低电平
soft_i2c_delay();
I2C_SCL_HIGH(); //SCL拉高电平SDA电平状态保持不变
soft_i2c_delay();
I2C_SCL_LOW(); //SCL拉低电平
delay_us(5);
}
// i2c_wait_ack();
}
/*!
\brief receive a byte via I2C
\param[in] ack: 1: send ACK, 0: send NACK
\param[out] none
\retval received byte
*/
uint8_t soft_i2c_receive_byte(uint8_t ack) {
// sda_in();
uint8_t byte = 0;
I2C_SDA_HIGH(); //从高开始
for (int i = 0; i < 8; i++) {
byte <<= 1;
I2C_SCL_HIGH();
soft_i2c_delay();
if (I2C_SDA_READ()) {
byte |= 0x01;
}
I2C_SCL_LOW();
soft_i2c_delay();
}
if (ack) {
soft_i2c_send_ack();
} else {
soft_i2c_send_nack();
}
return byte;
}
uint8_t soft_i2c_write_16bits(uint8_t slave_addr, uint8_t reg_addr, uint8_t data[2]) {
soft_i2c_start();
soft_i2c_send_byte(slave_addr);
if (!soft_i2c_wait_ack()) {
soft_i2c_stop();
return SOFT_I2C_FAIL;
}
soft_i2c_send_byte(reg_addr);
if (!soft_i2c_wait_ack()) {
soft_i2c_stop();
return SOFT_I2C_FAIL;
}
soft_i2c_send_byte(data[0]);
if (!soft_i2c_wait_ack()) {
soft_i2c_stop();
return SOFT_I2C_FAIL;
}
soft_i2c_send_byte(data[1]);
if (soft_i2c_wait_ack()){}
soft_i2c_stop();
return SOFT_I2C_OK;
}
uint8_t soft_i2c_read_16bits(uint8_t slave_addr, uint8_t reg_addr, uint8_t *data)
{
soft_i2c_start();
soft_i2c_send_byte(slave_addr);
if (!soft_i2c_wait_ack()) {
soft_i2c_stop();
return SOFT_I2C_FAIL;
}
soft_i2c_send_byte(reg_addr);
if (!soft_i2c_wait_ack()) {
soft_i2c_stop();
return SOFT_I2C_FAIL;
}
soft_i2c_start();
soft_i2c_send_byte(slave_addr | 0x01);
if (!soft_i2c_wait_ack()) {
soft_i2c_stop();
return SOFT_I2C_FAIL;
}
soft_i2c_delay();
data[0] = soft_i2c_receive_byte(1);
data[1] = soft_i2c_receive_byte(0);
soft_i2c_stop();
return SOFT_I2C_OK;
}

6
src/tmp112.c
View File

@ -9,13 +9,7 @@ uint32_t tmp112a_get_raw_channel_result(void) {
uint8_t value[2] = {0};
// ldc1612_iic_read_16bits(CONVERTION_RESULT_REG_START + channel, value);
#ifdef SOFTWARE_IIC
soft_i2c_read_16bits(TMP112A_ADDR, 0x00, value);
#else
i2c_read_16bits(TMP112A_ADDR, 0x00, value);
#endif
raw_value = ((uint16_t) (value[0] << 4) | (value[1]>>4));
return (raw_value * 625);
}