adt7310.c
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/*
* Copyright (C) 2015 Eistec AB
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*
*/
/**
* @ingroup drivers_adt7310
* @{
*
* @file
* @brief Driver for the ADT7310 ±0.5°C Accurate, 16-Bit Digital SPI
* Temperature Sensor from Analog Devices
*
* @author Joakim Nohlgård <joakim.nohlgard@eistec.se>
*
* @}
*/
#include <stdint.h>
#include <stdbool.h>
#include <math.h>
#include "adt7310.h"
#include "byteorder.h"
#define ENABLE_DEBUG (0)
#include "debug.h"
/* SPI command byte parameters */
#define ADT7310_CMD_READ (0x40)
#define ADT7310_CMD_WRITE (0x00)
#define ADT7310_CMD_ADDR_SHIFT (3)
#define ADT7310_CMD_CONTINUOUS (0x04)
/* ****************** *
* Register addresses *
* ****************** */
#define ADT7310_REG_STATUS (0x00)
#define ADT7310_REG_CONFIG (0x01)
#define ADT7310_REG_VALUE (0x02)
#define ADT7310_REG_ID (0x03)
#define ADT7310_REG_TCRIT (0x04)
#define ADT7310_REG_THYST (0x05)
#define ADT7310_REG_THIGH (0x06)
#define ADT7310_REG_TLOW (0x07)
/* ************** *
* Register sizes *
* ************** */
#define ADT7310_REG_SIZE_STATUS (1)
#define ADT7310_REG_SIZE_CONFIG (1)
#define ADT7310_REG_SIZE_VALUE (2)
#define ADT7310_REG_SIZE_ID (1)
#define ADT7310_REG_SIZE_TCRIT (2)
#define ADT7310_REG_SIZE_THYST (1)
#define ADT7310_REG_SIZE_THIGH (2)
#define ADT7310_REG_SIZE_TLOW (2)
/* Register bit masks */
/** @brief Manufacturer ID */
#define ADT7310_REG_ID_MASK_MANUFACTURER_ID (0xF8)
/** @brief Silicon version */
#define ADT7310_REG_ID_MASK_SILICON_VERSION (0x07)
/** @brief Expected manufacturer ID */
#define ADT7310_EXPECTED_MANUF_ID (0b11000000)
/** @brief 13 bit temperature mask */
#define ADT7310_REG_VALUE_MASK_13BIT (0xF8)
/** @brief Number of fractional bits in the raw readings */
#define ADT7310_VALUE_FRAC_BITS (7)
/** @brief Scale factor for converting raw temperature readings to degrees
* Celsius, floating point number */
#define ADT7310_TEMPERATURE_LSB_FLOAT (1.f/((float)((int)1 << ADT7310_VALUE_FRAC_BITS)))
/**
* @brief Read a register from the sensor
*
* @param[in] dev device descriptor
* @param[in] addr register address
* @param[in] len register size
* @param[out] buf destination buffer
*
* @return 0 on success
* @return -1 on communication errors
*/
static int adt7310_read_reg(const adt7310_t *dev, const uint8_t addr, const uint8_t len,
uint8_t *buf)
{
int status = 0;
uint8_t command = ADT7310_CMD_READ | (addr << ADT7310_CMD_ADDR_SHIFT);
/* Acquire exclusive access to the bus. */
spi_acquire(dev->spi);
/* Perform the transaction */
gpio_clear(dev->cs);
if (spi_transfer_regs(dev->spi, command, NULL, (char *)buf, len) < len) {
status = -1;
}
gpio_set(dev->cs);
/* Release the bus for other threads. */
spi_release(dev->spi);
return status;
}
/**
* @brief Write a register value to the sensor
*
* @param[in] dev device descriptor
* @param[in] addr register address
* @param[in] len register size
* @param[in] buf source buffer
*
* @return 0 on success
* @return -1 on communication errors
*/
static int adt7310_write_reg(const adt7310_t *dev, const uint8_t addr,
const uint8_t len, uint8_t *buf)
{
int status = 0;
uint8_t command = ADT7310_CMD_WRITE | (addr << ADT7310_CMD_ADDR_SHIFT);
/* Acquire exclusive access to the bus. */
spi_acquire(dev->spi);
/* Perform the transaction */
gpio_clear(dev->cs);
if (spi_transfer_regs(dev->spi, command, (char *)buf, NULL, len) < len) {
status = -1;
}
gpio_set(dev->cs);
/* Release the bus for other threads. */
spi_release(dev->spi);
return status;
}
int adt7310_init(adt7310_t *dev, spi_t spi, gpio_t cs)
{
int status;
uint8_t reg = 0;
/* write device descriptor */
dev->spi = spi;
dev->cs = cs;
dev->initialized = false;
dev->high_res = false;
/* CS */
gpio_init(dev->cs, GPIO_OUT);
gpio_set(dev->cs);
#if ENABLE_DEBUG
for (int i = 0; i < 8; ++i) {
uint16_t dbg_reg = 0;
status = adt7310_read_reg(dev, i, sizeof(dbg_reg), (uint8_t *)&dbg_reg);
if (status != 0) {
printf("Error reading address 0x%02x", i);
}
dbg_reg = HTONS(dbg_reg);
printf("%02x: %04" PRIx16 "\n", i, dbg_reg);
}
#endif
/* Read ID register from device */
status = adt7310_read_reg(dev, ADT7310_REG_ID, ADT7310_REG_SIZE_ID, ®);
if (status != 0) {
/* SPI bus error */
return -1;
}
if ((reg & ADT7310_REG_ID_MASK_MANUFACTURER_ID) != ADT7310_EXPECTED_MANUF_ID) {
/* Wrong part ID */
return -2;
}
/* Set a configuration, go to shut down mode to save power until the sensor is needed. */
if (adt7310_set_config(dev, ADT7310_MODE_SHUTDOWN) != 0) {
/* communication error */
return -3;
}
dev->initialized = true;
return 0;
}
int adt7310_set_config(adt7310_t *dev, uint8_t config)
{
if (config & ADT7310_CONF_RESOLUTION_MASK) {
dev->high_res = true;
}
return adt7310_write_reg(dev, ADT7310_REG_CONFIG, ADT7310_REG_SIZE_CONFIG, &config);
}
int16_t adt7310_read_raw(adt7310_t *dev)
{
int status;
int16_t raw;
/* Read the temperature value register */
status = adt7310_read_reg(dev, ADT7310_REG_VALUE, ADT7310_REG_SIZE_VALUE, (uint8_t*)&raw);
if (status < 0) {
/* communication error */
return INT16_MIN;
}
/* The temperature value is sent big endian (network byte order) */
raw = (int16_t)NTOHS((uint16_t)raw);
return raw;
}
int32_t adt7310_read(adt7310_t *dev)
{
int16_t raw = adt7310_read_raw(dev);
if (raw == INT16_MIN) {
return INT32_MIN;
}
if (!dev->high_res) {
/* filter out the flag bits */
raw &= ADT7310_REG_VALUE_MASK_13BIT;
}
return ((((int32_t)raw) * 1000) >> ADT7310_VALUE_FRAC_BITS);
}
float adt7310_read_float(adt7310_t *dev)
{
int16_t raw = adt7310_read_raw(dev);
if (raw == INT16_MIN) {
return (0.0f / 0.0f); /* return NaN */
}
if (!dev->high_res) {
/* filter out the flag bits */
raw &= ADT7310_REG_VALUE_MASK_13BIT;
}
return (((float) raw) * ADT7310_TEMPERATURE_LSB_FLOAT);
}