Pratyush Mallick
/
testing
this is testing
Diff: app/noos_mbed/drivers/impedance-analyzer/ad5933/ad5933.c
- Revision:
- 0:3afcd581558d
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/app/noos_mbed/drivers/impedance-analyzer/ad5933/ad5933.c Thu Jan 14 18:54:16 2021 +0530 @@ -0,0 +1,494 @@ +/***************************************************************************//** + * @file AD5933.c + * @brief Implementation of AD5933 Driver. + * @author DBogdan (dragos.bogdan@analog.com) +******************************************************************************** + * Copyright 2012(c) Analog Devices, Inc. + * + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * - Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * - Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * - Neither the name of Analog Devices, Inc. nor the names of its + * contributors may be used to endorse or promote products derived + * from this software without specific prior written permission. + * - The use of this software may or may not infringe the patent rights + * of one or more patent holders. This license does not release you + * from the requirement that you obtain separate licenses from these + * patent holders to use this software. + * - Use of the software either in source or binary form, must be run + * on or directly connected to an Analog Devices Inc. component. + * + * THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. + * IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, INTELLECTUAL PROPERTY RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR + * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER + * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, + * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +*******************************************************************************/ + +/*****************************************************************************/ +/***************************** Include Files *********************************/ +/*****************************************************************************/ +#include <stdint.h> +#include <stdlib.h> +#include "platform_drivers.h" +#include "ad5933.h" + + +/******************************************************************************/ +/************************** Constants Definitions *****************************/ +/******************************************************************************/ +const int32_t pow_2_27 = 134217728ul; // 2 to the power of 27 + +/******************************************************************************/ +/************************ Functions Definitions *******************************/ +/******************************************************************************/ + +/***************************************************************************//** + * @brief Initializes the communication peripheral and the initial Values for + * AD5933 Board. + * + * @param device - The device structure. + * @param init_param - The structure that contains the device initial + * parameters. + * + * @return ret - The result of the initialization procedure. + * Example: -1 - I2C peripheral was not initialized or the + * device is not present. + * 0 - I2C peripheral was initialized and the + * device is present. +*******************************************************************************/ +int32_t ad5933_init(struct ad5933_dev **device, + struct ad5933_init_param init_param) +{ + struct ad5933_dev *dev; + int32_t status; + + dev = (struct ad5933_dev *)malloc(sizeof(*dev)); + if (!dev) + return -1; + + dev->current_sys_clk = init_param.current_sys_clk; + dev->current_clock_source = init_param.current_clock_source; + dev->current_gain = init_param.current_gain; + dev->current_range = init_param.current_range; + dev->current_settling = init_param.current_settling; + + status = i2c_init(&dev->i2c_desc, &init_param.i2c_init); + + *device = dev; + + return status; +} + +/***************************************************************************//** + * @brief Free the resources allocated by ad5933_init(). + * + * @param dev - The device structure. + * + * @return ret - The result of the remove procedure. +*******************************************************************************/ +int32_t ad5933_remove(struct ad5933_dev *dev) +{ + int32_t status; + + status = i2c_remove(dev->i2c_desc); + + free(dev); + + return status; +} + +/***************************************************************************//** + * @brief Writes data into a register. + * + * @param dev - The device structure. + * @param register_address - Address of the register. + * @param register_value - Data value to write. + * @param bytes_number - Number of bytes. + * + * @return None. +*******************************************************************************/ +void ad5933_set_register_value(struct ad5933_dev *dev, + uint8_t register_address, + uint32_t register_value, + uint8_t bytes_number) +{ + uint8_t byte = 0; + uint8_t write_data[2] = {0, 0}; + + for(byte = 0; byte < bytes_number; byte++) { + write_data[0] = register_address + bytes_number - byte - 1; + write_data[1] = (uint8_t)((register_value >> (byte * 8)) & 0xFF); + i2c_write(dev->i2c_desc, write_data, 2, 1); + } +} + +/***************************************************************************//** + * @brief Reads the value of a register. + * + * @param dev - The device structure. + * @param register_address - Address of the register. + * @param bytes_number - Number of bytes. + * + * @return registerValue - Value of the register. +*******************************************************************************/ +uint32_t ad5933_get_register_value(struct ad5933_dev *dev, + uint8_t register_address, + uint8_t bytes_number) +{ + uint32_t register_value = 0; + uint8_t byte = 0; + uint8_t write_data[2] = {0, 0}; + uint8_t read_data[2] = {0, 0}; + + for(byte = 0; byte < bytes_number; byte ++) { + /* Set the register pointer. */ + write_data[0] = AD5933_ADDR_POINTER; + write_data[1] = register_address + byte; + i2c_write(dev->i2c_desc, write_data, 2, 1); + /* Read Register Data. */ + read_data[0] = 0xFF; + i2c_read(dev->i2c_desc, read_data, 1, 1); + register_value = register_value << 8; + register_value += read_data[0]; + } + + return register_value; +} + +/***************************************************************************//** + * @brief Resets the device. + * + * @param dev - The device structure. + * + * @return None. +*******************************************************************************/ +void ad5933_reset(struct ad5933_dev *dev) +{ + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_LB, + AD5933_CONTROL_RESET | dev->current_clock_source, + 1); +} + +/***************************************************************************//** + * @brief Selects the source of the system clock. + * + * @param dev - The device structure. + * @param clk_source - Selects the source of the system clock. + * Example: AD5933_CONTROL_INT_SYSCLK + * AD5933_CONTROL_EXT_SYSCLK + * @param ext_clk_freq - Frequency value of the external clock, if used. + * + * @return None. +*******************************************************************************/ +void ad5933_set_system_clk(struct ad5933_dev *dev, + int8_t clk_source, + uint32_t ext_clk_freq) +{ + dev->current_clock_source = clk_source; + if(clk_source == AD5933_CONTROL_EXT_SYSCLK) { + dev->current_sys_clk = ext_clk_freq; // External clock frequency + } else { + dev->current_sys_clk = AD5933_INTERNAL_SYS_CLK; // 16 MHz + } + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_LB, + dev->current_clock_source, + 1); +} + + +/***************************************************************************//** + * @brief Selects the range and gain of the device. + * + * @param dev - The device structure. + * @param range - Range option. + * Example: AD5933_RANGE_2000mVpp + * AD5933_RANGE_200mVpp + * AD5933_RANGE_400mVpp + + * AD5933_RANGE_1000mVpp + * @param gain - Gain option. + * Example: AD5933_GAIN_X5 + * AD5933_GAIN_X1 + * + * @return None. +*******************************************************************************/ +void ad5933_set_range_and_gain(struct ad5933_dev *dev, + int8_t range, + int8_t gain) +{ + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(AD5933_FUNCTION_NOP) | + AD5933_CONTROL_RANGE(range) | + AD5933_CONTROL_PGA_GAIN(gain), + 1); + /* Store the last settings made to range and gain. */ + dev->current_range = range; + dev->current_gain = gain; +} + +/***************************************************************************//** + * @brief Reads the temperature from the part and returns the data in + * degrees Celsius. + * + * @param dev - The device structure. + * + * @return temperature - Temperature. +*******************************************************************************/ +float ad5933_get_temperature(struct ad5933_dev *dev) +{ + float temperature = 0; + uint8_t status = 0; + + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(AD5933_FUNCTION_MEASURE_TEMP) | + AD5933_CONTROL_RANGE(dev->current_range) | + AD5933_CONTROL_PGA_GAIN(dev->current_gain), + 1); + while((status & AD5933_STAT_TEMP_VALID) == 0) { + status = ad5933_get_register_value(dev, + AD5933_REG_STATUS, + 1); + } + + temperature = ad5933_get_register_value(dev, + AD5933_REG_TEMP_DATA, + 2); + if(temperature < 8192) { + temperature /= 32; + } else { + temperature -= 16384; + temperature /= 32; + } + + return temperature; +} + +/***************************************************************************//** + * @brief Configures the sweep parameters: Start frequency, Frequency increment + * and Number of increments. + * + * @param dev - The device structure. + * @param start_freq - Start frequency in Hz; + * @param inc_freq - Frequency increment in Hz; + * @param inc_num - Number of increments. Maximum value is 511(0x1FF). + * + * @return None. +*******************************************************************************/ +void ad5933_config_sweep(struct ad5933_dev *dev, + uint32_t start_freq, + uint32_t inc_freq, + uint16_t inc_num) +{ + uint32_t start_freq_reg = 0; + uint32_t inc_freq_reg = 0; + uint16_t inc_num_reg = 0; + + /* Ensure that incNum is a valid data. */ + if(inc_num > AD5933_MAX_INC_NUM) { + inc_num_reg = AD5933_MAX_INC_NUM; + } else { + inc_num_reg = inc_num; + } + + /* Convert users start frequency to binary code. */ + start_freq_reg = (uint32_t)((double)start_freq * 4 / dev->current_sys_clk * + pow_2_27); + + /* Convert users increment frequency to binary code. */ + inc_freq_reg = (uint32_t)((double)inc_freq * 4 / dev->current_sys_clk * + pow_2_27); + + /* Configure the device with the sweep parameters. */ + ad5933_set_register_value(dev, + AD5933_REG_FREQ_START, + start_freq_reg, + 3); + ad5933_set_register_value(dev, + AD5933_REG_FREQ_INC, + inc_freq_reg, + 3); + ad5933_set_register_value(dev, + AD5933_REG_INC_NUM, + inc_num_reg, + 2); +} + +/***************************************************************************//** + * @brief Starts the sweep operation. + * + * @param dev - The device structure. + * + * @return None. +*******************************************************************************/ +void ad5933_start_sweep(struct ad5933_dev *dev) +{ + uint8_t status = 0; + + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(AD5933_FUNCTION_STANDBY) | + AD5933_CONTROL_RANGE(dev->current_range) | + AD5933_CONTROL_PGA_GAIN(dev->current_gain), + 1); + ad5933_reset(dev); + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(AD5933_FUNCTION_INIT_START_FREQ)| + AD5933_CONTROL_RANGE(dev->current_range) | + AD5933_CONTROL_PGA_GAIN(dev->current_gain), + 1); + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(AD5933_FUNCTION_START_SWEEP) | + AD5933_CONTROL_RANGE(dev->current_range) | + AD5933_CONTROL_PGA_GAIN(dev->current_gain), + 1); + status = 0; + while((status & AD5933_STAT_DATA_VALID) == 0) { + status = ad5933_get_register_value(dev, + AD5933_REG_STATUS, + 1); + }; +} + +/***************************************************************************//** + * @brief Reads the real and the imaginary data and calculates the Gain Factor. + * + * @param dev - The device structure. + * @param calibration_impedance - The calibration impedance value. + * @param freq_function - Frequency function. + * Example: AD5933_FUNCTION_INC_FREQ - Increment + freq.; + * AD5933_FUNCTION_REPEAT_FREQ - Repeat + freq.. + * + * @return gainFactor - Calculated gain factor. +*******************************************************************************/ +double ad5933_calculate_gain_factor(struct ad5933_dev *dev, + uint32_t calibration_impedance, + uint8_t freq_function) +{ + double gain_factor = 0; + double magnitude = 0; + signed short real_data = 0; + signed short imag_data = 0; + uint8_t status = 0; + + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(freq_function) | + AD5933_CONTROL_RANGE(dev->current_range) | + AD5933_CONTROL_PGA_GAIN(dev->current_gain), + 1); + status = 0; + while((status & AD5933_STAT_DATA_VALID) == 0) { + status = ad5933_get_register_value(dev, + AD5933_REG_STATUS, + 1); + } + real_data = ad5933_get_register_value(dev, + AD5933_REG_REAL_DATA, + 2); + imag_data = ad5933_get_register_value(dev, + AD5933_REG_IMAG_DATA, + 2); + magnitude = sqrt((real_data * real_data) + (imag_data * imag_data)); + gain_factor = 1 / (magnitude * calibration_impedance); + + return gain_factor; +} + +/***************************************************************************//** + * @brief Reads the real and the imaginary data and calculates the Impedance. + * + * @param dev - The device structure. + * @param gain_factor - The gain factor. + * @param freq_function - Frequency function. + * Example: AD5933_FUNCTION_INC_FREQ - Increment freq.; + * AD5933_FUNCTION_REPEAT_FREQ - Repeat freq.. + * + * @return ad5933_results - Struct of calculated values. +*******************************************************************************/ +ad5933_result ad5933_calculate_impedance(struct ad5933_dev *dev, + double gain_factor, + uint8_t freq_function) +{ + signed short real_data = 0; + signed short imag_data = 0; + double magnitude = 0; + uint8_t status = 0; + ad5933_result result; + + ad5933_set_register_value(dev, + AD5933_REG_CONTROL_HB, + AD5933_CONTROL_FUNCTION(freq_function) | + AD5933_CONTROL_RANGE(dev->current_range) | + AD5933_CONTROL_PGA_GAIN(dev->current_gain), + 1); + status = 0; + while((status & AD5933_STAT_DATA_VALID) == 0) { + status = ad5933_get_register_value(dev, + AD5933_REG_STATUS, + 1); + } + real_data = ad5933_get_register_value(dev, + AD5933_REG_REAL_DATA, + 2); + imag_data = ad5933_get_register_value(dev, + AD5933_REG_IMAG_DATA, + 2); + magnitude = sqrt((real_data * real_data) + (imag_data * imag_data)); + + + result.magnitude = magnitude; + result.phase = atan2(imag_data,real_data) * radToDeg180ovPi; + + return result; +} + +/***************************************************************************//** + * @brief Selects the number of settling cycles of the device. + * + * @param dev - The device structure. + * @param cycles - 9-bit number of cycles to wait before triggering ADC + * + * @param multiplier - Multiply number of cycles by X1, X2 or X4 + * Example: AD5933_SETTLING_X1 + * AD5933_SETTLING_X2 + * AD5933_SETTLING_X4 + * + * @return None. +*******************************************************************************/ +void ad5933_set_settling_time(struct ad5933_dev *dev, + uint8_t multiplier, + uint16_t number_cycles) +{ + + + if ((multiplier != AD5933_SETTLING_X2) && (multiplier != AD5933_SETTLING_X4)) + multiplier = AD5933_SETTLING_X1; + + ad5933_set_register_value(dev, + AD5933_REG_SETTLING_CYCLES, + number_cycles | (multiplier << 9), + 2); + /* Store the last settings made. */ + dev->current_settling = number_cycles; +}