#include "max31855.h" // Registers #define MAX31865_REG_CONFIG 0x00 #define MAX31865_REG_RTD_MSB 0x01 #define MAX31865_REG_RTD_LSB 0x02 #define MAX31865_REG_HFAULT_THRESH_MSB 0x03 #define MAX31865_REG_HFAULT_THRESH_LSB 0x04 #define MAX31865_REG_LFAULT_THRESH_MSB 0x05 #define MAX31865_REG_LFAULT_THRESH_LSB 0x06 #define MAX31865_REG_FAULTSTATUS 0x07 #define MAX31865_REG_WRITE_MODIFIER 0x80 // Fields #define MAX31865_CONF_VBIAS (1<<7) #define MAX31865_CONF_AUTO_CONVERT (1<<6) #define MAX31865_CONF_1SHOT (1<<5) #define MAX31865_CONF_3WIRE (1<<4) #define MAX31865_CONF_FAULT_NOACTION 0b0000 #define MAX31865_CONF_FAULT_AUTODELAY 0b0100 #define MAX31865_CONF_FAULT_MANUALELAY1 0b1000 #define MAX31865_CONF_FAULT_MANUALELAY2 0b1100 #define MAX31865_CONF_FAULT_CLEAR (1<<1) #define MAX31865_CONF_50_60HZ_FILTER (1<<0) void max31865_config(SPI_HandleTypeDef* hspi1) { uint8_t config = 0x00; config |= MAX31865_CONF_VBIAS; config |= MAX31865_CONF_AUTO_CONVERT; config |= MAX31865_CONF_FAULT_CLEAR; uint8_t reg = (MAX31865_REG_WRITE_MODIFIER | MAX31865_REG_CONFIG); // Assert CS HAL_GPIO_WritePin(MAX_CS, 0); HAL_SPI_Transmit(hspi1, ®, 1, 100); HAL_SPI_Transmit(hspi1, &config, 1, 100); // Release CS HAL_GPIO_WritePin(MAX_CS, 1); } void max31865_clear_errors(SPI_HandleTypeDef* hspi1) { max31865_config(hspi1); } // Grab temperature reading from MAX31865 void max31865_readtemp(SPI_HandleTypeDef* hspi1, therm_settings_t* set, therm_status_t* status) { /////////////////////////////////// // This is duplicated from MAX31855, update for MAX31865 registers/etc /////////////////////////////////// // TODO: Set configuration register based on params in config.h (2-wire, 4-wire, etc RTD). This is register 0x00. // 2-wire RTC or 2-wire (duh) NTC thermistor will be the only options // Need option for resistance of RTD // These options should be stored in the set structure and should be menu-selectable // TODO: Read RTD msbs (0x01) // TODO: Read RTD LSBs (0x02) // Assert CS HAL_GPIO_WritePin(MAX_CS, 0); uint8_t regh = MAX31865_REG_RTD_MSB; uint8_t rxdatah[1] = {0x00}; uint8_t rxdatal[1] = {0x00}; HAL_SPI_Transmit(hspi1, ®h, 1, 100); HAL_SPI_Receive(hspi1, rxdatah, 1, 100); HAL_SPI_Receive(hspi1, rxdatal, 1, 100); // Release CS HAL_GPIO_WritePin(MAX_CS, 1); // Assemble data array into one var uint16_t temp_pre = (rxdatah[0]<<8) | rxdatal[0]; if((rxdatah[0] & 0x80) && !set->val.ignore_error) { // Assert CS HAL_GPIO_WritePin(MAX_CS, 0); uint8_t reg = MAX31865_REG_FAULTSTATUS; uint8_t data[1] = {0x11}; HAL_SPI_Transmit(hspi1, ®, 1, 100); HAL_SPI_Receive(hspi1, data, 1, 100); // Release CS HAL_GPIO_WritePin(MAX_CS, 1); status->error_code = data[0]; HAL_Delay(400); // FIXME: remove? status->state_resume = status->state; status->state = STATE_TC_ERROR; status->temp = 0; status->temp_frac = 0; } else { // Convert to decimal //temp_pre = temp_pre >> 1; uint16_t adc_count = temp_pre & 0x7FFF; //do some scaling? // Convert to Fahrenheit if(set->val.temp_units == TEMP_UNITS_FAHRENHEIT) { status->temp = adc_count; //convert to fahrenheit status->temp += set->val.temp_offset; } // Use Celsius values else { //convert to celsius int32_t temp = (((int32_t) adc_count) / 32) - 256; status->temp = temp; status->temp += set->val.temp_offset; } } } // vim:softtabstop=4 shiftwidth=4 expandtab