/** ****************************************************************************** * @file stm32f401_discovery_gyroscope.c * @author MCD Application Team * @brief This file provides a set of functions needed to manage the * MEMS gyroscope available on STM32F401-Discovery Kit. ****************************************************************************** * @attention * * Copyright (c) 2017 STMicroelectronics. * All rights reserved. * * This software is licensed under terms that can be found in the LICENSE file * in the root directory of this software component. * If no LICENSE file comes with this software, it is provided AS-IS. * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "stm32f401_discovery_gyroscope.h" /** @addtogroup BSP * @{ */ /** @addtogroup STM32F401_DISCOVERY * @{ */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE STM32F401 DISCOVERY GYROSCOPE * @{ */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE_Private_TypesDefinitions STM32F401 DISCOVERY GYROSCOPE Private TypesDefinitions * @{ */ /** * @} */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE_Private_Defines STM32F401 DISCOVERY GYROSCOPE Private Defines * @{ */ /** * @} */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE_Private_Macros STM32F401 DISCOVERY GYROSCOPE Private Macros * @{ */ /** * @} */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE_Private_Variables STM32F401 DISCOVERY GYROSCOPE Private Variables * @{ */ static GYRO_DrvTypeDef *GyroscopeDrv; /** * @} */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE_Private_FunctionPrototypes STM32F401 DISCOVERY GYROSCOPE Private FunctionPrototypes * @{ */ /** * @} */ /** @defgroup STM32F401_DISCOVERY_GYROSCOPE_Private_Functions STM32F401 DISCOVERY GYROSCOPE Private Functions * @{ */ /** * @brief Set Gyroscope Initialization. * @retval GYRO_OK if no problem during initialization */ uint8_t BSP_GYRO_Init(void) { uint8_t ret = GYRO_ERROR; uint16_t ctrl = 0x0000; GYRO_InitTypeDef L3GD20_InitStructure; GYRO_FilterConfigTypeDef L3GD20_FilterStructure = {0,0}; if((L3gd20Drv.ReadID() == I_AM_L3GD20) || (L3gd20Drv.ReadID() == I_AM_L3GD20_TR)) { /* Initialize the Gyroscope driver structure */ GyroscopeDrv = &L3gd20Drv; /* MEMS configuration ----------------------------------------------------*/ /* Fill the Gyroscope structure */ L3GD20_InitStructure.Power_Mode = L3GD20_MODE_ACTIVE; L3GD20_InitStructure.Output_DataRate = L3GD20_OUTPUT_DATARATE_1; L3GD20_InitStructure.Axes_Enable = L3GD20_AXES_ENABLE; L3GD20_InitStructure.Band_Width = L3GD20_BANDWIDTH_4; L3GD20_InitStructure.BlockData_Update = L3GD20_BlockDataUpdate_Continous; L3GD20_InitStructure.Endianness = L3GD20_BLE_LSB; L3GD20_InitStructure.Full_Scale = L3GD20_FULLSCALE_500; /* Configure MEMS: data rate, power mode, full scale and axes */ ctrl = (uint16_t) (L3GD20_InitStructure.Power_Mode | L3GD20_InitStructure.Output_DataRate | \ L3GD20_InitStructure.Axes_Enable | L3GD20_InitStructure.Band_Width); ctrl |= (uint16_t) ((L3GD20_InitStructure.BlockData_Update | L3GD20_InitStructure.Endianness | \ L3GD20_InitStructure.Full_Scale) << 8); /* Configure the Gyroscope main parameters */ GyroscopeDrv->Init(ctrl); L3GD20_FilterStructure.HighPassFilter_Mode_Selection =L3GD20_HPM_NORMAL_MODE_RES; L3GD20_FilterStructure.HighPassFilter_CutOff_Frequency = L3GD20_HPFCF_0; ctrl = (uint8_t) ((L3GD20_FilterStructure.HighPassFilter_Mode_Selection |\ L3GD20_FilterStructure.HighPassFilter_CutOff_Frequency)); /* Configure the Gyroscope main parameters */ GyroscopeDrv->FilterConfig(ctrl) ; GyroscopeDrv->FilterCmd(L3GD20_HIGHPASSFILTER_ENABLE); ret = GYRO_OK; } return ret; } /** * @brief Read ID of Gyroscope component. * @retval ID */ uint8_t BSP_GYRO_ReadID(void) { uint8_t id = 0x00; if(GyroscopeDrv->ReadID != NULL) { id = GyroscopeDrv->ReadID(); } return id; } /** * @brief Reboot memory content of Gyroscope. */ void BSP_GYRO_Reset(void) { if(GyroscopeDrv->Reset != NULL) { GyroscopeDrv->Reset(); } } /** * @brief Configures INT1 interrupt. * @param pIntConfig: pointer to a L3GD20_InterruptConfig_TypeDef * structure that contains the configuration setting for the L3GD20 Interrupt. */ void BSP_GYRO_ITConfig(GYRO_InterruptConfigTypeDef *pIntConfig) { uint16_t interruptconfig = 0x0000; if(GyroscopeDrv->ConfigIT != NULL) { /* Configure latch Interrupt request and axe interrupts */ interruptconfig |= ((uint8_t)(pIntConfig->Latch_Request| \ pIntConfig->Interrupt_Axes) << 8); interruptconfig |= (uint8_t)(pIntConfig->Interrupt_ActiveEdge); GyroscopeDrv->ConfigIT(interruptconfig); } } /** * @brief Enables INT1 or INT2 interrupt. * @param IntPin: Interrupt pin * This parameter can be: * @arg L3GD20_INT1 * @arg L3GD20_INT2 */ void BSP_GYRO_EnableIT(uint8_t IntPin) { if(GyroscopeDrv->EnableIT != NULL) { GyroscopeDrv->EnableIT(IntPin); } } /** * @brief Disables INT1 or INT2 interrupt. * @param IntPin: Interrupt pin * This parameter can be: * @arg L3GD20_INT1 * @arg L3GD20_INT2 */ void BSP_GYRO_DisableIT(uint8_t IntPin) { if(GyroscopeDrv->DisableIT != NULL) { GyroscopeDrv->DisableIT(IntPin); } } /** * @brief Get XYZ angular acceleration. * @param pfData: pointer on floating array */ void BSP_GYRO_GetXYZ(float *pfData) { if(GyroscopeDrv->GetXYZ!= NULL) { GyroscopeDrv->GetXYZ(pfData); } } /** * @} */ /** * @} */ /** * @} */ /** * @} */