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LibrePilot/flight/PiOS/STM32F2xx/pios_imu3000.c
James Cotton c7034ef8a6 IMU3000: Fix a constant that made the sampling rate 1kh instead of 8 internaly.
No downsample that (in IMU3000) by 8 to get gyros at 1khz.  Well about 256 Hz
nyquist and shouldn't cause substantial issues for EKF.
2011-08-18 13:01:51 -05:00

325 lines
10 KiB
C

/**
******************************************************************************
* @addtogroup PIOS PIOS Core hardware abstraction layer
* @{
* @addtogroup PIOS_IMU3000 IMU3000 Functions
* @brief Deals with the hardware interface to the 3-axis gyro
* @{
*
* @file pios_IMU3000.c
* @author David "Buzz" Carlson (buzz@chebuzz.com)
* The OpenPilot Team, http://www.openpilot.org Copyright (C) 2011.
* @brief IMU3000 3-axis gyor functions from INS
* @see The GNU Public License (GPL) Version 3
*
******************************************************************************
*/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/* Project Includes */
#include "pios.h"
#if defined(PIOS_INCLUDE_IMU3000)
/* Global Variables */
/* Local Types */
typedef struct {
uint8_t Fifo_store; /* FIFO storage of different readings (See datasheet page 31 for more details) */
uint8_t Smpl_rate_div; /* Sample rate divider to use (See datasheet page 32 for more details) */
uint8_t DigLPF_Scale; /* Digital low-pass filter and full-range scale (See datasheet page 33 for more details) */
uint8_t Interrupt_cfg; /* Interrupt configuration (See datasheet page 35 for more details) */
uint8_t User_ctl; /* User control settings (See datasheet page 41 for more details) */
uint8_t Pwr_mgmt_clk; /* Power management and clock selection (See datasheet page 32 for more details) */
} PIOS_IMU3000_ConfigTypeDef;
/* Local Variables */
static void PIOS_IMU3000_Config(PIOS_IMU3000_ConfigTypeDef * IMU3000_Config_Struct);
static int32_t PIOS_IMU3000_Read(uint8_t address, uint8_t * buffer, uint8_t len);
static int32_t PIOS_IMU3000_Write(uint8_t address, uint8_t buffer);
int32_t imu3000_id = 0;
/**
* @brief Initialize the IMU3000 3-axis gyro sensor.
* @return none
*/
void PIOS_IMU3000_Init(const struct pios_imu3000_cfg * cfg)
{
/* Configure EOC pin as input floating */
GPIO_Init(cfg->drdy.gpio, &cfg->drdy.init);
/* Configure the End Of Conversion (EOC) interrupt */
SYSCFG_EXTILineConfig(cfg->eoc_exti.port_source, cfg->eoc_exti.pin_source);
EXTI_Init(&cfg->eoc_exti.init);
/* Enable and set EOC EXTI Interrupt to the lowest priority */
NVIC_Init(&cfg->eoc_irq.init);
/* Configure the IMU3000 Sensor */
PIOS_IMU3000_ConfigTypeDef IMU3000_InitStructure;
IMU3000_InitStructure.Fifo_store = PIOS_IMU3000_FIFO_TEMP_OUT | PIOS_IMU3000_FIFO_GYRO_X_OUT |
PIOS_IMU3000_FIFO_GYRO_Y_OUT | PIOS_IMU3000_FIFO_GYRO_Z_OUT | PIOS_IMU3000_FIFO_FOOTER;
IMU3000_InitStructure.Smpl_rate_div = 7; // Clock at 8 khz, downsampled by 8 for 1khz
IMU3000_InitStructure.DigLPF_Scale = PIOS_IMU3000_LOWPASS_256_HZ | PIOS_IMU3000_SCALE_500_DEG;
IMU3000_InitStructure.Interrupt_cfg = 0; //PIOS_IMU3000_INT_CLR_ANYRD | PIOS_IMU3000_INT_DATA_RDY;
IMU3000_InitStructure.User_ctl = PIOS_IMU3000_USERCTL_FIFO_EN;
IMU3000_InitStructure.Pwr_mgmt_clk = PIOS_IMU3000_PWRMGMT_PLL_X_CLK;
PIOS_IMU3000_Config(&IMU3000_InitStructure);
}
/**
* @brief Initialize the IMU3000 3-axis gyro sensor
* \return none
* \param[in] PIOS_IMU3000_ConfigTypeDef struct to be used to configure sensor.
*
*/
static void PIOS_IMU3000_Config(PIOS_IMU3000_ConfigTypeDef * IMU3000_Config_Struct)
{
// TODO: Add checks against current config so we only update what has changed
// Reset chip and fifo
while (PIOS_IMU3000_Write(PIOS_IMU3000_USER_CTRL_REG, 0x01 | 0x02) != 0);
PIOS_DELAY_WaituS(20);
while (PIOS_IMU3000_Write(PIOS_IMU3000_USER_CTRL_REG, 0x00) != 0);
// FIFO storage
while (PIOS_IMU3000_Write(PIOS_IMU3000_FIFO_EN_REG, IMU3000_Config_Struct->Fifo_store) != 0);
// Sample rate divider
while (PIOS_IMU3000_Write(PIOS_IMU3000_SMPLRT_DIV_REG, IMU3000_Config_Struct->Smpl_rate_div) != 0) ;
// Digital low-pass filter and scale
while (PIOS_IMU3000_Write(PIOS_IMU3000_DLPF_CFG_REG, IMU3000_Config_Struct->DigLPF_Scale) != 0) ;
// Interrupt configuration
while (PIOS_IMU3000_Write(PIOS_IMU3000_INT_CFG_REG, IMU3000_Config_Struct->Interrupt_cfg) != 0) ;
// Interrupt configuration
while (PIOS_IMU3000_Write(PIOS_IMU3000_USER_CTRL_REG, IMU3000_Config_Struct->User_ctl) != 0) ;
// Interrupt configuration
while (PIOS_IMU3000_Write(PIOS_IMU3000_PWR_MGMT_REG, IMU3000_Config_Struct->Pwr_mgmt_clk) != 0) ;
}
/**
* @brief Read current X, Z, Y values (in that order)
* \param[out] int16_t array of size 3 to store X, Z, and Y magnetometer readings
* \returns The number of samples remaining in the fifo
*/
int32_t PIOS_IMU3000_ReadGyros(int16_t * data)
{
uint8_t buf[6];
if(PIOS_IMU3000_Read(PIOS_IMU3000_GYRO_X_OUT_MSB, (uint8_t *) buf, sizeof(buf)) < 0)
return -1;
data[0] = buf[0] << 8 | buf[1];
data[1] = buf[2] << 8 | buf[3];
data[2] = buf[4] << 8 | buf[5];
return 0;
}
/**
* @brief Read the identification bytes from the IMU3000 sensor
* \return ID read from IMU3000 or -1 if failure
*/
int32_t PIOS_IMU3000_ReadID()
{
uint8_t id;
if(PIOS_IMU3000_Read(0x00, (uint8_t *) &imu3000_id, 1) != 0)
return -1;
id = imu3000_id;
return id;
}
/**
* \brief Reads the data from the IMU3000 FIFO
* \param[out] buffer destination buffer
* \param[in] len maximum number of bytes which should be read
* \note This returns the data as X, Y, Z the temperature
* \return number of bytes transferred if operation was successful
* \return -1 if error during I2C transfer
*/
uint32_t imu_read = 0;
uint16_t fifo_level;
uint8_t fifo_level_data[2];
int16_t footer_flush;
uint8_t imu3000_read_buffer[10]; // Right now using temp,X,Y,Z,fifo
bool first_read = true;
uint32_t imu3000_readtime;
int32_t PIOS_IMU3000_ReadFifo(int16_t * buffer)
{
// Get the number of bytes in the fifo
if(PIOS_IMU3000_Read(PIOS_IMU3000_FIFO_CNT_MSB, (uint8_t *) &fifo_level_data, sizeof(fifo_level_data)) != 0)
return -1;
fifo_level = (fifo_level_data[0] << 8) + fifo_level_data[1];
if(first_read) {
// Stupid system for IMU3000. If first read from buffer then we will read 4 sensors without fifo
// footer. After this we will read out a fifo footer
if(fifo_level < sizeof(imu3000_read_buffer))
return -1;
// Leave footer in buffer
if(PIOS_IMU3000_Read(PIOS_IMU3000_FIFO_REG, imu3000_read_buffer, sizeof(imu3000_read_buffer) - 2) != 0)
return -1;
buffer[0] = imu3000_read_buffer[2] << 8 | imu3000_read_buffer[3];
buffer[1] = imu3000_read_buffer[4] << 8 | imu3000_read_buffer[5];
buffer[2] = imu3000_read_buffer[6] << 8 | imu3000_read_buffer[7];
buffer[3] = imu3000_read_buffer[0] << 8 | imu3000_read_buffer[1];
first_read = false;
} else {
// Stupid system for IMU3000. Ensure something is left in buffer
if(fifo_level < (sizeof(imu3000_read_buffer) + 2))
return -1;
uint32_t timeval = PIOS_DELAY_GetRaw();
// Leave footer in buffer
if(PIOS_IMU3000_Read(PIOS_IMU3000_FIFO_REG, imu3000_read_buffer, sizeof(imu3000_read_buffer)) != 0)
return -1;
imu3000_readtime = PIOS_DELAY_DiffuS(timeval);
// First two bytes are left over fifo from last call
buffer[0] = imu3000_read_buffer[4] << 8 | imu3000_read_buffer[5];
buffer[1] = imu3000_read_buffer[6] << 8 | imu3000_read_buffer[7];
buffer[2] = imu3000_read_buffer[8] << 8 | imu3000_read_buffer[9];
buffer[3] = imu3000_read_buffer[2] << 8 | imu3000_read_buffer[3];
}
imu_read += sizeof(imu3000_read_buffer);
return 0;
}
/**
* @brief Reads one or more bytes from IMU3000 into a buffer
* \param[in] address IMU3000 register address (depends on size)
* \param[out] buffer destination buffer
* \param[in] len number of bytes which should be read
* \return 0 if operation was successful
* \return -1 if error during I2C transfer
* \return -4 if invalid length
*/
static int32_t PIOS_IMU3000_Read(uint8_t address, uint8_t * buffer, uint8_t len)
{
uint8_t addr_buffer[] = {
address,
};
const struct pios_i2c_txn txn_list[] = {
{
.info = __func__,
.addr = PIOS_IMU3000_I2C_ADDR,
.rw = PIOS_I2C_TXN_WRITE,
.len = sizeof(addr_buffer),
.buf = addr_buffer,
}
,
{
.info = __func__,
.addr = PIOS_IMU3000_I2C_ADDR,
.rw = PIOS_I2C_TXN_READ,
.len = len,
.buf = buffer,
}
};
return PIOS_I2C_Transfer(PIOS_I2C_GYRO_ADAPTER, txn_list, NELEMENTS(txn_list)) ? 0 : -1;
}
/**
* @brief Writes one or more bytes to the IMU3000
* \param[in] address Register address
* \param[in] buffer source buffer
* \return 0 if operation was successful
* \return -1 if error during I2C transfer
*/
static int32_t PIOS_IMU3000_Write(uint8_t address, uint8_t buffer)
{
uint8_t data[] = {
address,
buffer,
};
const struct pios_i2c_txn txn_list[] = {
{
.info = __func__,
.addr = PIOS_IMU3000_I2C_ADDR,
.rw = PIOS_I2C_TXN_WRITE,
.len = sizeof(data),
.buf = data,
}
,
};
return PIOS_I2C_Transfer(PIOS_I2C_GYRO_ADAPTER, txn_list, NELEMENTS(txn_list)) ? 0 : -1;
}
/**
* @brief Run self-test operation.
* \return 0 if test succeeded
* \return non-zero value if test succeeded
*/
uint8_t PIOS_IMU3000_Test(void)
{
/* Verify that ID matches (IMU3000 ID is 0x69) */
int32_t id = 0;
id = PIOS_IMU3000_ReadID();
if(id < 0)
return -1;
if(id != PIOS_IMU3000_I2C_ADDR)
return -2;
return 0;
}
/**
* @brief IRQ Handler
*/
uint32_t imu3000_irq = 0;
void PIOS_IMU3000_IRQHandler(void)
{
imu3000_irq++;
}
/**
* The physical IRQ handler
* Soon this will be generic in pios_exti and the BMA180 will register
* against it. Right now this is crap!
*/
void EXTI1_IRQHandler(void)
{
if (EXTI_GetITStatus(EXTI_Line1) != RESET)
{
PIOS_IMU3000_IRQHandler();
EXTI_ClearITPendingBit(EXTI_Line1);
}
}
#endif
/**
* @}
* @}
*/