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17 Commits
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Author SHA1 Message Date
yelvlab
49f57c6980 update to Dev V0.1 version 2024-12-20 14:27:35 +08:00
yelvlab
930410f91e Merge remote-tracking branch 'origin/feature-tmp112a' into dev 
# Conflicts:
#	src/LDC1612.c
#	src/main.c
 2024-12-20 14:25:17 +08:00
yelvlab
c88a383c29 Complete data reading 2024-12-20 14:12:48 +08:00
yelvlab
529f1b3628 waitting for read value 2024-12-20 00:39:21 +08:00
yelvlab
5877465628 Porting the seeed open source library 2024-12-20 00:36:28 +08:00
yelvlab
e2c2e81247 change iic speed to 20K 2024-12-19 20:12:28 +08:00
yelvlab
fd06d54fdc rewrite write/read function 2024-12-19 18:23:55 +08:00
yelvlab
58c8ac63fd add config array 2024-12-18 20:05:35 +08:00
yelvlab
a4ac36de11 add ldc1612_get_deveice_id function 2024-12-18 19:48:48 +08:00
yelvlab
505aec14f2 test 2024-12-16 18:20:05 +08:00
yelvlab
f279251ff7 finish tmp112a 2024-12-16 14:48:25 +08:00
yelvlab
279c461de5 Merge remote-tracking branch 'origin/feature-ldc1602' into feature-ldc1602 
# Conflicts:
#	inc/LDC1612.h
#	src/main.c
 2024-12-16 14:26:40 +08:00
yelvlab
de211abf4e finish tmp112a 2024-12-16 14:23:14 +08:00
yelvlab
0910a26072 finish tmp112a 2024-12-16 14:19:43 +08:00
yelvlab
f5e804db39 LDC1612单次读取16bit正常,可以获取厂商ID或者设备ID,但是无法连续获取 2024-12-16 14:10:19 +08:00
yelvlab
dbff482cf3 LDC1612单次读取16bit正常,可以获取厂商ID或者设备ID,但是无法连续获取 2024-12-16 14:08:14 +08:00
yelvlab
bfd2296e05 LDC1612单次读取16bit正常,可以获取厂商ID或者设备ID,但是无法连续获取 2024-12-16 11:41:26 +08:00
6 changed files with 711 additions and 51 deletions
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4
CMakeLists.txt
View File

@ -4,8 +4,8 @@ include(cmake/toolchain.cmake)
project(xlsw_3dp_LDC1612) project(xlsw_3dp_LDC1612)
set(VERSION_MAJOR 0) set(VERSION_MAJOR 0)
set(VERSION_MINOR 0) set(VERSION_MINOR 1)
set(VERSION_PATCH 1) set(VERSION_PATCH 0)
set(VERSION "V${VERSION_MAJOR}.${VERSION_MINOR}.${VERSION_PATCH}") set(VERSION "V${VERSION_MAJOR}.${VERSION_MINOR}.${VERSION_PATCH}")
string(TIMESTAMP CURRENT_DATE "%Y-%m-%d") string(TIMESTAMP CURRENT_DATE "%Y-%m-%d")

74
inc/LDC1612.h
View File

@ -12,8 +12,10 @@
#include <string.h> #include <string.h>
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
#include <math.h>
#define LDC1612_ADDR (0x2B << 1) #define LDC1612_ADDR (0x2B << 1)
#define TMP112A_ADDR (0x49 << 1)
/*Register Rddr*/ /*Register Rddr*/
/***************************************************************************/ /***************************************************************************/
@ -35,6 +37,24 @@
/******************************************************************************/ /******************************************************************************/
#define CHANNEL_0 0
#define CHANNEL_1 1
/******************************************************************************/
#define LDC1612_CONVERSION_TIME_CH0 0X0546 //0536
#define LDC1612_DRIVE_CURRENT 0X9000 //A000
#define LDC1612_MUX_CONFIG 0X020C // no auto scan and filter bandwidth 3.3MHz
#define LDC1612_SENSOR_CONFIG 0X1601
#define LDC1612_ERROR_CONFIG 0x0000
#define LC_STABILIZE_TIME_CH0 0X001E //30
/******************************************************************************/
#define COIL_RP_KOM 15.727
#define COIL_L_UH 33
#define COIL_C_PF 150
#define COIL_Q_FACTOR 35.97
typedef enum { typedef enum {
I2C_START = 0, I2C_START = 0,
@ -44,8 +64,13 @@ typedef enum {
I2C_STOP I2C_STOP
} i2c_process_enum; } i2c_process_enum;
#define I2C_SPEED 100000 #define I2C_TIME_OUT (uint16_t)(10000)
#define RCU_IR_GPIO RCU_GPIOF #define I2C_OK 1
#define I2C_FAIL 0
#define I2C_END 1
#define I2C_SPEED 20000
#define RCU_GPIO_I2C RCU_GPIOF
#define RCU_I2C RCU_I2C0 #define RCU_I2C RCU_I2C0
#define I2C_SCL_PORT GPIOF #define I2C_SCL_PORT GPIOF
#define I2C_SCL_PIN GPIO_PIN_1 #define I2C_SCL_PIN GPIO_PIN_1
@ -53,11 +78,48 @@ typedef enum {
#define I2C_SDA_PIN GPIO_PIN_0 #define I2C_SDA_PIN GPIO_PIN_0
#define I2C_GPIO_AF GPIO_AF_1 #define I2C_GPIO_AF GPIO_AF_1
#define I2C_TIME_OUT (uint16_t)(10000) void i2c_gpio_config(void);
void I2C_config(void); void i2c_config(void);
void I2C_scan(void);
int LDC1612_IIC_read_16bits(void); void i2c_bus_reset(void);
void i2c_scan(void);
void ldc1612_set_conversion_time(uint8_t channel, uint16_t result);
void ldc1612_set_conversion_offset(uint8_t channel, uint16_t result);
void ldc1612_set_LC_stabilize_time(uint8_t channel, uint16_t result);
void ldc1612_set_freq_divide(uint8_t channel);
void ldc1612_set_error_config(uint16_t value);
void ldc1612_set_mux_config(uint16_t value);
void ldc1612_reset_sensor(void);
void ldc1612_set_drive_current(uint8_t channel, uint16_t value);
void ldc1612_set_sensor_config(uint16_t value);
void ldc1612_single_ch0_config(void);
void ldc1612_iic_get_sensor_infomation(void);
uint16_t ldc1612_get_manufacturer_id(void);
uint16_t ldc1612_get_deveice_id(void);
uint32_t ldc1612_get_raw_channel_result(uint8_t channel);
uint32_t ldc1612_parse_raw_result(uint32_t raw_result);
uint8_t ldc1612_iic_read_16bits(uint8_t reg_addr, uint8_t *data);
uint8_t ldc1612_iic_write_16bits(uint8_t reg_addr, uint8_t data[2]);
uint32_t TMP112A_ReadTemperature(void);
#endif //LDC1612_H #endif //LDC1612_H

618
src/LDC1612.c
View File

@ -4,26 +4,79 @@
#include "LDC1612.h" #include "LDC1612.h"
void I2C_config(void) { /*!
rcu_periph_clock_enable(RCU_IR_GPIO); \brief configure the GPIO ports
rcu_periph_clock_enable(RCU_I2C); \param[in] none
\param[out] none
\retval none
*/
void i2c_gpio_config(void) {
/* enable IIC GPIO clock */
rcu_periph_clock_enable(RCU_GPIO_I2C);
/* connect I2C_SCL_PIN to I2C_SCL */
gpio_af_set(I2C_SCL_PORT, I2C_GPIO_AF, I2C_SCL_PIN); gpio_af_set(I2C_SCL_PORT, I2C_GPIO_AF, I2C_SCL_PIN);
/* connect I2C_SDA_PIN to I2C_SDA */
gpio_af_set(I2C_SDA_PORT, I2C_GPIO_AF, I2C_SDA_PIN); gpio_af_set(I2C_SDA_PORT, I2C_GPIO_AF, I2C_SDA_PIN);
/* configure GPIO pins of I2C */
gpio_mode_set(I2C_SCL_PORT, GPIO_MODE_AF, GPIO_PUPD_PULLUP, I2C_SCL_PIN); gpio_mode_set(I2C_SCL_PORT, GPIO_MODE_AF, GPIO_PUPD_PULLUP, I2C_SCL_PIN);
gpio_output_options_set(I2C_SCL_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, 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_AF, GPIO_PUPD_PULLUP, I2C_SDA_PIN); gpio_mode_set(I2C_SDA_PORT, GPIO_MODE_AF, GPIO_PUPD_PULLUP, I2C_SDA_PIN);
gpio_output_options_set(I2C_SDA_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, I2C_SDA_PIN); gpio_output_options_set(I2C_SDA_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, I2C_SDA_PIN);
}
/*!
\brief configure the I2CX interface
\param[in] none
\param[out] none
\retval none
*/
void i2c_config(void) {
/* enable I2C clock */
rcu_periph_clock_enable(RCU_I2C);
/* configure I2C clock */
i2c_clock_config(I2C0, I2C_SPEED, I2C_DTCY_2); i2c_clock_config(I2C0, I2C_SPEED, I2C_DTCY_2);
/* configure I2C address */
// i2c_mode_addr_config(I2C0, I2C_I2CMODE_ENABLE, I2C_ADDFORMAT_7BITS, LDC1612_ADDR); i2c_mode_addr_config(I2C0, I2C_I2CMODE_ENABLE, I2C_ADDFORMAT_7BITS, LDC1612_ADDR);
/* enable I2CX */
i2c_enable(I2C0); i2c_enable(I2C0);
/* enable acknowledge */
i2c_ack_config(I2C0, I2C_ACK_ENABLE); i2c_ack_config(I2C0, I2C_ACK_ENABLE);
} }
/*!
\brief reset I2C bus
\param[in] none
\param[out] none
\retval none
*/
void i2c_bus_reset(void) {
i2c_deinit(I2C0);
/* configure SDA/SCL for GPIO */
GPIO_BC(I2C_SCL_PORT) |= I2C_SCL_PIN;
GPIO_BC(I2C_SDA_PORT) |= I2C_SDA_PIN;
gpio_output_options_set(I2C_SCL_PORT, GPIO_OTYPE_PP, GPIO_OSPEED_50MHZ, I2C_SCL_PIN);
gpio_output_options_set(I2C_SDA_PORT, GPIO_OTYPE_PP, GPIO_OSPEED_50MHZ, I2C_SDA_PIN);
__NOP();
__NOP();
__NOP();
__NOP();
__NOP();
GPIO_BOP(I2C_SCL_PORT) |= I2C_SCL_PIN;
__NOP();
__NOP();
__NOP();
__NOP();
__NOP();
GPIO_BOP(I2C_SDA_PORT) |= I2C_SDA_PIN;
/* connect I2C_SCL_PIN to I2C_SCL */
/* connect I2C_SDA_PIN to I2C_SDA */
gpio_output_options_set(I2C_SCL_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, I2C_SCL_PIN);
gpio_output_options_set(I2C_SDA_PORT, GPIO_OTYPE_OD, GPIO_OSPEED_50MHZ, I2C_SDA_PIN);
/* configure the I2CX interface */
i2c_config();
}
/** /**
* @brief I2C总线 * @brief I2C总线
* *
@ -31,7 +84,7 @@ void I2C_config(void) {
* *
* *
*/ */
void I2C_scan(void) { void i2c_scan(void) {
uint32_t timeout; uint32_t timeout;
uint8_t address; uint8_t address;
int found_devices = 0; int found_devices = 0;
@ -84,10 +137,521 @@ void I2C_scan(void) {
} }
} }
int LDC1612_IIC_read_16bits(void) { /** @brief set conversion interval time.
@param channel LDC1612 has total two channels.
@param result The value to be set.
* */
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;
ldc1612_iic_write_16bits(SET_CONVERSION_TIME_REG_START + channel, data);
}
/** @brief set conversion offset.
@param channel LDC1612 has total two channels.
@param result The value to be set.
* */
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;
ldc1612_iic_write_16bits(SET_CONVERSION_OFFSET_REG_START + channel, data);
}
/** @brief Before conversion,wait LC sensor stabilize for a short time.
@param channel LDC1612 has total two channels.
@param result The value to be set.
* */
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;
ldc1612_iic_write_16bits(SET_LC_STABILIZE_REG_START + channel, data);
}
/** @brief set input frequency divide and fref divide.
@param channel LDC1612 has total two channels.
@param FIN_DIV FIN input divide
@param FREF_DIV fref,reference frequency of sensor.
* */
void ldc1612_set_freq_divide(uint8_t channel) {
uint16_t value;
uint16_t fin_div, freq_div;
float sensor_freq;
sensor_freq = 1 / (2 * 3.14 * sqrt(COIL_L_UH * COIL_C_PF * pow(10, -18))) * pow(10, -6);
fin_div = (uint16_t) (sensor_freq / 8.75 + 1);
if (fin_div * 4 < 40) {
freq_div = 2;
} else {
freq_div = 4;
}
value = fin_div << 12;
value |= freq_div;
// printf("\tvalue: 0x%x\r\n", value);
uint8_t data[2] = {0};
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
// printf("\tFIN_DIV: %d, FREF_DIV: %d\r\n", fin_div, freq_div);
ldc1612_iic_write_16bits(SET_FREQ_REG_START + channel, data);
}
/** @brief Error output config.
@param result The value to be set.
* */
void ldc1612_set_error_config(uint16_t value) {
uint8_t data[2] = {0};
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
ldc1612_iic_write_16bits(ERROR_CONFIG_REG, data);
}
/** @brief mux config.
@param result The value to be set.
* */
void ldc1612_set_mux_config(uint16_t value) {
uint8_t data[2] = {0};
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
ldc1612_iic_write_16bits(MUL_CONFIG_REG, data);
}
/** @brief reset sensor.
* */
void ldc1612_reset_sensor(void) {
uint8_t data[2] = {0};
data[0] = 0x80;
data[1] = 0x00;
ldc1612_iic_write_16bits(SENSOR_RESET_REG, data);
}
/** @brief set drive current of sensor.
@param result The value to be set.
* */
void ldc1612_set_drive_current(uint8_t channel, uint16_t value) {
uint8_t data[2] = {0};
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
ldc1612_iic_write_16bits(SET_DRIVER_CURRENT_REG + channel, data);
}
/** @brief Main config part of sensor.Contains select channel、start conversion、sleep mode、sensor activation mode、INT pin disable ..
@param result The value to be set.
* */
void ldc1612_set_sensor_config(uint16_t value) {
uint8_t data[2] = {0};
data[0] = (value >> 8) & 0xFF;
data[1] = value & 0xFF;
ldc1612_iic_write_16bits(SENSOR_CONFIG_REG, data);
}
void ldc1612_single_ch0_config(void) {
ldc1612_set_freq_divide(CHANNEL_0); //0x14 --0x1002
ldc1612_set_LC_stabilize_time(CHANNEL_0, LC_STABILIZE_TIME_CH0); //0x10 --0x001E
ldc1612_set_conversion_time(CHANNEL_0, LDC1612_CONVERSION_TIME_CH0); //0x08 --0x0546
ldc1612_set_error_config(LDC1612_ERROR_CONFIG); //0x19 --0x0000)
ldc1612_set_drive_current(CHANNEL_0, LDC1612_DRIVE_CURRENT); //0x1E --0x9000
ldc1612_set_mux_config(LDC1612_MUX_CONFIG); //0x1B --0x020C
ldc1612_set_sensor_config(LDC1612_SENSOR_CONFIG); //0x1A --0x1601
}
void ldc1612_iic_get_sensor_infomation(void) {
uint8_t data[2] = {0};
ldc1612_iic_read_16bits(READ_MANUFACTURER_ID, data);
printf("\tManufacturer: 0x%x\r\n", (data[0] << 8) | data[1]);
ldc1612_iic_read_16bits(READ_DEVICE_ID, data);
printf("\tDevice: 0x%x\r\n", (data[0] << 8) | data[1]);
}
uint16_t ldc1612_get_manufacturer_id(void) {
uint8_t data[2] = {0};
ldc1612_iic_read_16bits(READ_MANUFACTURER_ID, data);
return (data[0] << 8) | data[1];
}
uint16_t ldc1612_get_deveice_id(void) {
uint8_t data[2] = {0};
ldc1612_iic_read_16bits(READ_DEVICE_ID, data);
return (data[0] << 8) | data[1];
}
/** @brief read the raw channel result from register.
@param channel LDC1612 has total two channels.
@param result raw data
* */
uint32_t ldc1612_get_raw_channel_result(uint8_t channel) {
uint32_t raw_value = 0;
uint8_t value[2] = {0};
ldc1612_iic_read_16bits(CONVERTION_RESULT_REG_START + channel, value);
raw_value |= (uint32_t) ((value[0] << 8) | value[1]) << 16;
ldc1612_iic_read_16bits(CONVERTION_RESULT_REG_START + channel + 1, value);
raw_value |= (uint32_t) ((value[0] << 8) | value[1]);
return ldc1612_parse_raw_result(raw_value);
}
/** @brief parse the data which read from data register.
@param channel LDC1612 has total two channels.
@param raw_result the raw data which read from data register,it contains error codes and sensor value;
* */
uint32_t ldc1612_parse_raw_result(uint32_t raw_result) {
uint32_t calibration_value = 0;
uint8_t error_code = 0;
calibration_value = raw_result & 0x0FFFFFFF;
if (0xFFFFFFF == calibration_value) {
return 0xF0000000;
// ERR_NC-No coil detected!!!
}
error_code = raw_result >> 24;
if (error_code & 0x80) {
return 0x80000000;
// ERR_UR-Under range error!!!
}
if (error_code & 0x40) {
return 0x40000000;
// ERR_OR-Over range error!!!
}
if (error_code & 0x20) {
return 0x20000000;
// ERR_WD-Watch dog timeout error!!!
}
if (error_code & 0x10) {
return 0x10000000;
// ERR_AE-error!!!
}
return raw_result;
}
uint8_t ldc1612_iic_read_16bits(uint8_t reg_addr, uint8_t *data) {
uint8_t state = I2C_START;
uint8_t read_cycle = 0;
uint16_t timeout = 0;
uint8_t i2c_timeout_flag = 0;
uint8_t number_of_byte = 2;
/* enable acknowledge */
i2c_ack_config(I2C0, I2C_ACK_ENABLE);
while (!(i2c_timeout_flag)) {
switch (state) {
case I2C_START:
if (RESET == read_cycle) {
/* i2c master sends start signal only when the bus is idle */
while (i2c_flag_get(I2C0, I2C_FLAG_I2CBSY) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
/* whether to send ACK or not for the next byte */
i2c_ackpos_config(I2C0, I2C_ACKPOS_NEXT);
} else {
// i2c_bus_reset();
timeout = 0;
state = I2C_START;
printf("i2c bus is busy in READ!\n");
}
}
/* send the start signal */
delay_us(5);
i2c_start_on_bus(I2C0);
timeout = 0;
state = I2C_SEND_ADDRESS;
break;
case I2C_SEND_ADDRESS:
/* i2c master sends START signal successfully */
while ((!i2c_flag_get(I2C0, I2C_FLAG_SBSEND)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
if (RESET == read_cycle) {
i2c_master_addressing(I2C0, LDC1612_ADDR, I2C_TRANSMITTER);
state = I2C_CLEAR_ADDRESS_FLAG;
} else {
i2c_master_addressing(I2C0, LDC1612_ADDR, I2C_RECEIVER);
i2c_ack_config(I2C0, I2C_ACK_DISABLE);
state = I2C_CLEAR_ADDRESS_FLAG;
}
timeout = 0;
} else {
timeout = 0;
state = I2C_START;
read_cycle = RESET;
printf("i2c master sends start signal timeout in READ!\n");
}
break;
case I2C_CLEAR_ADDRESS_FLAG:
/* address flag set means i2c slave sends ACK */
while ((!i2c_flag_get(I2C0, I2C_FLAG_ADDSEND)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
i2c_flag_clear(I2C0, I2C_FLAG_ADDSEND);
if ((SET == read_cycle) && (1 == number_of_byte)) {
/* send a stop condition to I2C bus */
i2c_stop_on_bus(I2C0);
}
timeout = 0;
state = I2C_TRANSMIT_DATA;
} else {
timeout = 0;
state = I2C_START;
read_cycle = RESET;
printf("i2c master clears address flag timeout in READ!\n");
}
break;
case I2C_TRANSMIT_DATA:
if (RESET == read_cycle) {
/* wait until the transmit data buffer is empty */
while ((!i2c_flag_get(I2C0, I2C_FLAG_TBE)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
/* send the EEPROM's internal address to write to : only one byte address */
i2c_data_transmit(I2C0, reg_addr);
timeout = 0;
} else {
timeout = 0;
state = I2C_START;
read_cycle = RESET;
printf("i2c master wait data buffer is empty timeout in READ!\n");
}
/* wait until BTC bit is set */
while ((!i2c_flag_get(I2C0, I2C_FLAG_BTC)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
timeout = 0;
state = I2C_START;
read_cycle = SET;
} else {
timeout = 0;
state = I2C_START;
read_cycle = RESET;
printf("i2c master sends register address timeout in READ!\n");
}
} else {
while (number_of_byte) {
timeout++;
if (2 == number_of_byte) {
/* wait until BTC bit is set */
while (!i2c_flag_get(I2C0, I2C_FLAG_BTC));
/* send a stop condition to I2C bus */
i2c_stop_on_bus(I2C0);
}
/* wait until RBNE bit is set */
if (i2c_flag_get(I2C0, I2C_FLAG_RBNE)) {
/* read a byte from the EEPROM */
*data = i2c_data_receive(I2C0);
/* point to the next location where the byte read will be saved */
data++;
/* decrement the read bytes counter */
number_of_byte--;
timeout = 0;
}
if (timeout > I2C_TIME_OUT) {
timeout = 0;
state = I2C_START;
read_cycle = 0;
printf("i2c master sends data timeout in READ!\n");
}
}
timeout = 0;
state = I2C_STOP;
}
break;
case I2C_STOP:
/* i2c master sends STOP signal successfully */
while ((I2C_CTL0(I2C0) & I2C_CTL0_STOP) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
timeout = 0;
state = I2C_END;
i2c_timeout_flag = I2C_OK;
} else {
timeout = 0;
state = I2C_START;
read_cycle = 0;
printf("i2c master sends stop signal timeout in READ!\n");
}
break;
default:
state = I2C_START;
read_cycle = 0;
i2c_timeout_flag = I2C_OK;
timeout = 0;
printf("i2c master sends start signal in READ.\n");
break;
}
}
return I2C_END;
}
uint8_t ldc1612_iic_write_16bits(uint8_t reg_addr, uint8_t data[2]) {
uint8_t state = I2C_START;
uint16_t timeout = 0;
uint8_t i2c_timeout_flag = 0;
/* enable acknowledge */
i2c_ack_config(I2C0, I2C_ACK_ENABLE);
while (!(i2c_timeout_flag)) {
switch (state) {
case I2C_START:
/* i2c master sends start signal only when the bus is idle */
while (i2c_flag_get(I2C0, I2C_FLAG_I2CBSY) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
i2c_start_on_bus(I2C0);
timeout = 0;
state = I2C_SEND_ADDRESS;
} else {
timeout = 0;
state = I2C_START;
printf("i2c bus is busy in WRITE BYTE!\n");
}
break;
case I2C_SEND_ADDRESS:
/* i2c master sends START signal successfully */
while ((!i2c_flag_get(I2C0, I2C_FLAG_SBSEND)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
i2c_master_addressing(I2C0, LDC1612_ADDR, I2C_TRANSMITTER);
timeout = 0;
state = I2C_CLEAR_ADDRESS_FLAG;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master sends start signal timeout in WRITE BYTE!\n");
}
break;
case I2C_CLEAR_ADDRESS_FLAG:
/* address flag set means i2c slave sends ACK */
while ((!i2c_flag_get(I2C0, I2C_FLAG_ADDSEND)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
i2c_flag_clear(I2C0, I2C_FLAG_ADDSEND);
timeout = 0;
state = I2C_TRANSMIT_DATA;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master clears address flag timeout in WRITE BYTE!\n");
}
break;
case I2C_TRANSMIT_DATA:
/* wait until the transmit data buffer is empty */
while ((!i2c_flag_get(I2C0, I2C_FLAG_TBE)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
/* send IIC register address */
i2c_data_transmit(I2C0, reg_addr);
timeout = 0;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master sends data timeout in WRITE BYTE!\n");
}
/* wait until BTC bit is set */
while ((!i2c_flag_get(I2C0, I2C_FLAG_BTC)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
/* send register MSB value */
i2c_data_transmit(I2C0, data[0]);
timeout = 0;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master sends MSB data timeout in WRITE BYTE!\n");
}
/* wait until BTC bit is set */
while ((!i2c_flag_get(I2C0, I2C_FLAG_BTC)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
/* send register LSB value */
i2c_data_transmit(I2C0, data[1]);
timeout = 0;
state = I2C_STOP;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master sends LSB data timeout in WRITE BYTE!\n");
}
/* wait until BTC bit is set */
while ((!i2c_flag_get(I2C0, I2C_FLAG_BTC)) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
state = I2C_STOP;
timeout = 0;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master sends data timeout in WRITE BYTE!\n");
}
break;
case I2C_STOP:
/* send a stop condition to I2C bus */
i2c_stop_on_bus(I2C0);
/* i2c master sends STOP signal successfully */
while ((I2C_CTL0(I2C0) & I2C_CTL0_STOP) && (timeout < I2C_TIME_OUT)) {
timeout++;
}
if (timeout < I2C_TIME_OUT) {
timeout = 0;
state = I2C_END;
i2c_timeout_flag = I2C_OK;
} else {
timeout = 0;
state = I2C_START;
printf("i2c master sends stop signal timeout in WRITE BYTE!\n");
}
break;
default:
state = I2C_START;
i2c_timeout_flag = I2C_OK;
timeout = 0;
printf("i2c master sends start signal in WRITE BYTE.\n");
break;
}
}
return I2C_END;
}
uint32_t TMP112A_ReadTemperature(void) {
uint8_t data[2] = {0}; uint8_t data[2] = {0};
uint16_t raw_temp = 0; uint16_t raw_temp = 0;
uint16_t timeout = 0; uint16_t timeout = 0;
uint32_t temperature = 0;
i2c_ack_config(I2C0, I2C_ACK_ENABLE); i2c_ack_config(I2C0, I2C_ACK_ENABLE);
@ -104,10 +668,10 @@ int LDC1612_IIC_read_16bits(void) {
while (!i2c_flag_get(I2C0, I2C_FLAG_SBSEND) && (timeout < I2C_TIME_OUT)) //判断起始位是否发送设置sensor地址并设置为写 while (!i2c_flag_get(I2C0, I2C_FLAG_SBSEND) && (timeout < I2C_TIME_OUT)) //判断起始位是否发送设置sensor地址并设置为写
timeout++; timeout++;
if (timeout < I2C_TIME_OUT) { if (timeout < I2C_TIME_OUT) {
i2c_master_addressing(I2C0, LDC1612_ADDR, I2C_TRANSMITTER); i2c_master_addressing(I2C0, TMP112A_ADDR, I2C_TRANSMITTER);
timeout = 0; timeout = 0;
} else { } else {
return -2; // 超时返回错误 return -1; // 超时返回错误
} }
while (!i2c_flag_get(I2C0, I2C_FLAG_ADDSEND) && (timeout < I2C_TIME_OUT)) while (!i2c_flag_get(I2C0, I2C_FLAG_ADDSEND) && (timeout < I2C_TIME_OUT))
@ -116,17 +680,17 @@ int LDC1612_IIC_read_16bits(void) {
i2c_flag_clear(I2C0, I2C_FLAG_ADDSEND); i2c_flag_clear(I2C0, I2C_FLAG_ADDSEND);
timeout = 0; timeout = 0;
} else { } else {
return -3; // 超时返回错误 return -1; // 超时返回错误
} }
while (!i2c_flag_get(I2C0, I2C_FLAG_TBE) && (timeout < I2C_TIME_OUT)) //判断地址是否发送完成,然后发送寄存器地址 while (!i2c_flag_get(I2C0, I2C_FLAG_TBE) && (timeout < I2C_TIME_OUT)) //判断地址是否发送完成,然后发送寄存器地址
timeout++; timeout++;
if (timeout < I2C_TIME_OUT) { if (timeout < I2C_TIME_OUT) {
i2c_data_transmit(I2C0, READ_DEVICE_ID); i2c_data_transmit(I2C0, 0x00);
timeout = 0; timeout = 0;
// i2c_start_on_bus(I2C0); // i2c_start_on_bus(I2C0);
} else { } else {
return -4; // 超时返回错误 return -1; // 超时返回错误
} }
while (i2c_flag_get(I2C0, I2C_FLAG_BTC) && (timeout < I2C_TIME_OUT)) //判断发送缓冲器是否为空,为空后(发送完毕)重新发送开始信号 while (i2c_flag_get(I2C0, I2C_FLAG_BTC) && (timeout < I2C_TIME_OUT)) //判断发送缓冲器是否为空,为空后(发送完毕)重新发送开始信号
@ -135,17 +699,17 @@ int LDC1612_IIC_read_16bits(void) {
i2c_start_on_bus(I2C0); i2c_start_on_bus(I2C0);
timeout = 0; timeout = 0;
} else { } else {
return -5; // 超时返回错误 return -1; // 超时返回错误
} }
while (!i2c_flag_get(I2C0, I2C_FLAG_SBSEND) && (timeout < I2C_TIME_OUT)) { while (!i2c_flag_get(I2C0, I2C_FLAG_SBSEND) && (timeout < I2C_TIME_OUT)) {
timeout++; timeout++;
} }
if (timeout < I2C_TIME_OUT) { if (timeout < I2C_TIME_OUT) {
i2c_master_addressing(I2C0, LDC1612_ADDR, I2C_RECEIVER); i2c_master_addressing(I2C0, TMP112A_ADDR, I2C_RECEIVER);
timeout = 0; timeout = 0;
} else { } else {
return -6; // 超时返回错误 return -1; // 超时返回错误
} }
while (!i2c_flag_get(I2C0, I2C_FLAG_ADDSEND) && (timeout < I2C_TIME_OUT)) while (!i2c_flag_get(I2C0, I2C_FLAG_ADDSEND) && (timeout < I2C_TIME_OUT))
@ -154,7 +718,7 @@ int LDC1612_IIC_read_16bits(void) {
i2c_flag_clear(I2C0, I2C_FLAG_ADDSEND); i2c_flag_clear(I2C0, I2C_FLAG_ADDSEND);
timeout = 0; timeout = 0;
} else { } else {
return -7; // 超时返回错误 return -1; // 超时返回错误
} }
// 读取第一个字节的数据 // 读取第一个字节的数据
@ -165,10 +729,10 @@ int LDC1612_IIC_read_16bits(void) {
data[0] = i2c_data_receive(I2C0); data[0] = i2c_data_receive(I2C0);
timeout = 0; timeout = 0;
} else { } else {
return -8; // 超时返回错误 return -1; // 超时返回错误
} }
// i2c_ack_config(I2C0, I2C_ACK_DISABLE); // 关闭发送ACK它会在下一个字节完成后发送NAK i2c_ack_config(I2C0, I2C_ACK_DISABLE); // 关闭发送ACK它会在下一个字节完成后发送NAK
// 读取第二个字节的数据 // 读取第二个字节的数据
while (!i2c_flag_get(I2C0, I2C_FLAG_RBNE) && (timeout < I2C_TIME_OUT)) { while (!i2c_flag_get(I2C0, I2C_FLAG_RBNE) && (timeout < I2C_TIME_OUT)) {
@ -178,11 +742,17 @@ int LDC1612_IIC_read_16bits(void) {
data[1] = i2c_data_receive(I2C0); data[1] = i2c_data_receive(I2C0);
timeout = 0; timeout = 0;
} else { } else {
return -9; // 超时返回错误 return -1; // 超时返回错误
} }
i2c_stop_on_bus(I2C0); i2c_stop_on_bus(I2C0);
printf("device id = %x\r\n", (data[0] <<8 | data[1])); // printf("data[0]: %x, data[1]: %x\r\n", data[0], data[1]);
return 0; raw_temp = ((uint16_t) (data[0] << 4) | (data[1]>>4));
} // printf("raw_temp: %x\r\n", raw_temp);
// printf("raw_temp(dec): %d\r\n", raw_temp);
temperature = raw_temp * 625;
// printf("temperature: %d\r\n", temperature);
return temperature;
}

5
src/RS485.c
View File

@ -4,6 +4,8 @@
#include "RS485.h" #include "RS485.h"
extern uint32_t g_temperature_uint32;
void RS485_config(void) { void RS485_config(void) {
rcu_periph_clock_enable(RS485_GPIO_RCU); rcu_periph_clock_enable(RS485_GPIO_RCU);
rcu_periph_clock_enable(RS485_RCU); rcu_periph_clock_enable(RS485_RCU);
@ -35,7 +37,8 @@ void process_command(char *cmd) {
if (strncmp(cmd, "M1", 2) == 0) { if (strncmp(cmd, "M1", 2) == 0) {
printf("M1 -=-=- OK!\r\n"); printf("M1 -=-=- OK!\r\n");
} else if (strncmp(cmd, "M2", 2) == 0) { } else if (strncmp(cmd, "M2", 2) == 0) {
printf("M2 -=-=- OK!\r\n"); // printf("M2 -=-=- OK!\r\n");
printf("Temperature: %lu\r\n", g_temperature_uint32);
// } else if (strncmp(cmd, "M3", 2) == 0) { // } else if (strncmp(cmd, "M3", 2) == 0) {
// char *param_str = cmd + 2; // Skip "M3" // char *param_str = cmd + 2; // Skip "M3"
// int param = atoi(param_str + 1); // Skip "S" and convert to integer // int param = atoi(param_str + 1); // Skip "S" and convert to integer

24
src/gd32e23x_it.c
View File

@ -36,6 +36,10 @@ OF SUCH DAMAGE.
#include "main.h" #include "main.h"
#include "systick.h" #include "systick.h"
#include "LDC1612.h" #include "LDC1612.h"
#include "RS485.h"
char rx_buffer[RX_BUFFER_SIZE];
uint8_t rx_index = 0;
/*! /*!
\brief this function handles NMI exception \brief this function handles NMI exception
@ -120,4 +124,24 @@ void TIMER16_IRQHandler(void) {
} }
led_status = !led_status; led_status = !led_status;
} }
}
void USART0_IRQHandler(void) {
if(RESET != usart_interrupt_flag_get(USART0, USART_INT_FLAG_RBNE))
{
usart_interrupt_flag_clear(USART0, USART_INT_FLAG_RBNE);
uint8_t received_data = (uint8_t)usart_data_receive(USART0);
// 将接收到的数据存储到缓冲区
if(rx_index < RX_BUFFER_SIZE - 1) {
rx_buffer[rx_index++] = received_data;
}
// 检查是否接收到换行符,表示指令结束
if(received_data == '\n') {
rx_buffer[rx_index] = '\0'; // 添加字符串结束符
process_command(rx_buffer); // 处理指令
rx_index = 0; // 重置缓冲区索引
}
}
} }

37
src/main.c
View File

@ -12,8 +12,9 @@
#include "RS485.h" #include "RS485.h"
#include "LDC1612.h" #include "LDC1612.h"
void led_config(void) uint32_t g_temperature_uint32;
{
void led_config(void) {
rcu_periph_clock_enable(LED_RCU); rcu_periph_clock_enable(LED_RCU);
gpio_mode_set(LED_PORT, GPIO_MODE_OUTPUT, GPIO_PUPD_NONE, LED_PIN); gpio_mode_set(LED_PORT, GPIO_MODE_OUTPUT, GPIO_PUPD_NONE, LED_PIN);
@ -46,34 +47,34 @@ void led_config(void)
\param[out] none \param[out] none
\retval none \retval none
*/ */
int main(void) int main(void) {
{
/* configure systick */ /* configure systick */
systick_config(); systick_config();
RS485_config(); RS485_config();
led_config(); led_config();
I2C_config(); i2c_gpio_config();
i2c_config();
printf("\r\n"); uint32_t raw_value = 0;
printf("XLSW-3DP-LDC1612! V0.0.1\r\n");
printf("\r\n");
delay_ms(500);
ldc1612_iic_get_sensor_infomation();
// I2C_scan(); ldc1612_single_ch0_config();
delay_ms(1000); while (1) {
delay_ms(500);
while(1){ raw_value = ldc1612_get_raw_channel_result(CHANNEL_0);
printf("data:%ld\r\n",raw_value);
g_temperature_uint32 = TMP112A_ReadTemperature();
} }
} }
/* retarget the C library printf function to the USART */ /* retarget the C library printf function to the USART */
int _write (int fd, char *pBuffer, int size) int _write(int fd, char *pBuffer, int size) {
{ for (int i = 0; i < size; i++) {
for (int i = 0; i < size; i++) usart_data_transmit(USART0, (uint8_t) pBuffer[i]);
{ while (RESET == usart_flag_get(USART0, USART_FLAG_TBE));
usart_data_transmit(USART0, (uint8_t)pBuffer[i]);
while(RESET == usart_flag_get(USART0, USART_FLAG_TBE));
} }
return size; return size;
} }