| /** |
| ****************************************************************************** |
| * @file stm32h7xx_hal_opamp_ex.c |
| * @author MCD Application Team |
| * @brief Extended OPAMP HAL module driver. |
| * This file provides firmware functions to manage the following |
| * functionalities of the operational amplifier(s)(OPAMP1, OPAMP2 etc) |
| * peripheral: |
| * + Extended Initialization and de-initialization functions |
| * + Extended Peripheral Control functions |
| * |
| @verbatim |
| ****************************************************************************** |
| * @attention |
| * |
| * <h2><center>© Copyright (c) 2017 STMicroelectronics. |
| * All rights reserved.</center></h2> |
| * |
| * This software component is licensed by ST under BSD 3-Clause license, |
| * the "License"; You may not use this file except in compliance with the |
| * License. You may obtain a copy of the License at: |
| * opensource.org/licenses/BSD-3-Clause |
| * |
| ****************************************************************************** |
| */ |
| |
| /* Includes ------------------------------------------------------------------*/ |
| #include "stm32h7xx_hal.h" |
| |
| /** @addtogroup STM32H7xx_HAL_Driver |
| * @{ |
| */ |
| |
| /** @defgroup OPAMPEx OPAMPEx |
| * @brief OPAMP Extended HAL module driver |
| * @{ |
| */ |
| |
| #ifdef HAL_OPAMP_MODULE_ENABLED |
| |
| /* Private typedef -----------------------------------------------------------*/ |
| /* Private define ------------------------------------------------------------*/ |
| /* Private macro -------------------------------------------------------------*/ |
| /* Private variables ---------------------------------------------------------*/ |
| /* Private function prototypes -----------------------------------------------*/ |
| /* Exported functions --------------------------------------------------------*/ |
| |
| /** @defgroup OPAMPEx_Exported_Functions OPAMP Extended Exported Functions |
| * @{ |
| */ |
| |
| /** @defgroup OPAMPEx_Exported_Functions_Group1 Extended Input and Output operation functions |
| * @brief Extended operation functions |
| * |
| @verbatim |
| =============================================================================== |
| ##### Extended IO operation functions ##### |
| =============================================================================== |
| [..] |
| (+) OPAMP Self calibration. |
| |
| @endverbatim |
| * @{ |
| */ |
| |
| /** |
| * @brief Run the self calibration of 2 OPAMPs in parallel. |
| * @note Trimming values (PMOS & NMOS) are updated and user trimming is |
| * enabled is calibration is successful. |
| * @note Calibration is performed in the mode specified in OPAMP init |
| * structure (mode normal or low power). To perform calibration for |
| * both modes, repeat this function twice after OPAMP init structure |
| * accordingly updated. |
| * @param hopamp1 handle |
| * @param hopamp2 handle |
| * @retval HAL status |
| */ |
| |
| HAL_StatusTypeDef HAL_OPAMPEx_SelfCalibrateAll(OPAMP_HandleTypeDef *hopamp1, OPAMP_HandleTypeDef *hopamp2) |
| { |
| HAL_StatusTypeDef status = HAL_OK; |
| |
| uint32_t trimmingvaluen1; |
| uint32_t trimmingvaluep1; |
| uint32_t trimmingvaluen2; |
| uint32_t trimmingvaluep2; |
| |
| /* Selection of register of trimming depending on power mode: OTR or HSOTR */ |
| __IO uint32_t* tmp_opamp1_reg_trimming; |
| __IO uint32_t* tmp_opamp2_reg_trimming; |
| |
| uint32_t delta; |
| uint32_t opampmode1; |
| uint32_t opampmode2; |
| |
| if((hopamp1 == NULL) || (hopamp2 == NULL)) |
| { |
| status = HAL_ERROR; |
| } |
| /* Check if OPAMP in calibration mode and calibration not yet enable */ |
| else if(hopamp1->State != HAL_OPAMP_STATE_READY) |
| { |
| status = HAL_ERROR; |
| } |
| else if(hopamp2->State != HAL_OPAMP_STATE_READY) |
| { |
| status = HAL_ERROR; |
| } |
| else |
| { |
| /* Check the parameter */ |
| assert_param(IS_OPAMP_ALL_INSTANCE(hopamp1->Instance)); |
| assert_param(IS_OPAMP_ALL_INSTANCE(hopamp2->Instance)); |
| |
| assert_param(IS_OPAMP_POWERMODE(hopamp1->Init.PowerMode)); |
| assert_param(IS_OPAMP_POWERMODE(hopamp2->Init.PowerMode)); |
| |
| /* Set Calibration mode */ |
| /* Non-inverting input connected to calibration reference voltage. */ |
| SET_BIT(hopamp1->Instance->CSR, OPAMP_CSR_FORCEVP); |
| SET_BIT(hopamp2->Instance->CSR, OPAMP_CSR_FORCEVP); |
| |
| /* Save OPAMP mode */ |
| opampmode1 = READ_BIT(hopamp1->Instance->CSR,OPAMP_CSR_VMSEL); |
| opampmode2 = READ_BIT(hopamp2->Instance->CSR,OPAMP_CSR_VMSEL); |
| |
| /* Use of standalone mode */ |
| MODIFY_REG(hopamp1->Instance->CSR, OPAMP_CSR_VMSEL, OPAMP_STANDALONE_MODE); |
| MODIFY_REG(hopamp2->Instance->CSR, OPAMP_CSR_VMSEL, OPAMP_STANDALONE_MODE); |
| |
| /* user trimming values are used for offset calibration */ |
| SET_BIT(hopamp1->Instance->CSR, OPAMP_CSR_USERTRIM); |
| SET_BIT(hopamp2->Instance->CSR, OPAMP_CSR_USERTRIM); |
| |
| /* Select trimming settings depending on power mode */ |
| if (hopamp1->Init.PowerMode == OPAMP_POWERMODE_NORMAL) |
| { |
| tmp_opamp1_reg_trimming = &OPAMP1->OTR; |
| } |
| else |
| { |
| tmp_opamp1_reg_trimming = &OPAMP1->HSOTR; |
| } |
| |
| if (hopamp2->Init.PowerMode == OPAMP_POWERMODE_NORMAL) |
| { |
| tmp_opamp2_reg_trimming = &OPAMP2->OTR; |
| } |
| else |
| { |
| tmp_opamp2_reg_trimming = &OPAMP2->HSOTR; |
| } |
| |
| /* Enable calibration */ |
| SET_BIT (hopamp1->Instance->CSR, OPAMP_CSR_CALON); |
| SET_BIT (hopamp2->Instance->CSR, OPAMP_CSR_CALON); |
| |
| /* 1st calibration - N */ |
| /* Select 90U% VREF */ |
| MODIFY_REG(hopamp1->Instance->CSR, OPAMP_CSR_CALSEL, OPAMP_VREF_90VDDA); |
| MODIFY_REG(hopamp2->Instance->CSR, OPAMP_CSR_CALSEL, OPAMP_VREF_90VDDA); |
| |
| /* Enable the selected opamp */ |
| SET_BIT (hopamp1->Instance->CSR, OPAMP_CSR_OPAMPxEN); |
| SET_BIT (hopamp2->Instance->CSR, OPAMP_CSR_OPAMPxEN); |
| |
| /* Init trimming counter */ |
| /* Medium value */ |
| trimmingvaluen1 = 16U; |
| trimmingvaluen2 = 16U; |
| delta = 8U; |
| |
| while (delta != 0U) |
| { |
| /* Set candidate trimming */ |
| /* OPAMP_POWERMODE_NORMAL */ |
| MODIFY_REG(*tmp_opamp1_reg_trimming, OPAMP_OTR_TRIMOFFSETN, trimmingvaluen1); |
| MODIFY_REG(*tmp_opamp2_reg_trimming, OPAMP_OTR_TRIMOFFSETN, trimmingvaluen2); |
| |
| /* OFFTRIMmax delay 2 ms as per datasheet (electrical characteristics */ |
| /* Offset trim time: during calibration, minimum time needed between */ |
| /* two steps to have 1 mV accuracy */ |
| HAL_Delay(OPAMP_TRIMMING_DELAY); |
| |
| if (READ_BIT(hopamp1->Instance->CSR, OPAMP_CSR_CALOUT)!= 0U) |
| { |
| /* OPAMP_CSR_CALOUT is Low try higher trimming */ |
| trimmingvaluen1 += delta; |
| } |
| else |
| { |
| /* OPAMP_CSR_CALOUT is High try lower trimming */ |
| trimmingvaluen1 -= delta; |
| } |
| |
| if (READ_BIT(hopamp2->Instance->CSR, OPAMP_CSR_CALOUT)!= 0U) |
| { |
| /* OPAMP_CSR_CALOUT is Low try higher trimming */ |
| trimmingvaluen2 += delta; |
| } |
| else |
| { |
| /* OPAMP_CSR_CALOUT is High try lower trimming */ |
| trimmingvaluen2 -= delta; |
| } |
| /* Divide range by 2 to continue dichotomy sweep */ |
| delta >>= 1U; |
| } |
| |
| /* Still need to check if right calibration is current value or one step below */ |
| /* Indeed the first value that causes the OUTCAL bit to change from 0 to 1 */ |
| /* Set candidate trimming */ |
| MODIFY_REG(*tmp_opamp1_reg_trimming, OPAMP_OTR_TRIMOFFSETN, trimmingvaluen1); |
| MODIFY_REG(*tmp_opamp2_reg_trimming, OPAMP_OTR_TRIMOFFSETN, trimmingvaluen2); |
| |
| /* OFFTRIMmax delay 2 ms as per datasheet (electrical characteristics */ |
| /* Offset trim time: during calibration, minimum time needed between */ |
| /* two steps to have 1 mV accuracy */ |
| HAL_Delay(OPAMP_TRIMMING_DELAY); |
| |
| if ((READ_BIT(hopamp1->Instance->CSR, OPAMP_CSR_CALOUT)) != 0U) |
| { |
| /* Trimming value is actually one value more */ |
| trimmingvaluen1++; |
| MODIFY_REG(*tmp_opamp1_reg_trimming, OPAMP_OTR_TRIMOFFSETN, trimmingvaluen1); |
| } |
| |
| if ((READ_BIT(hopamp2->Instance->CSR, OPAMP_CSR_CALOUT)) != 0U) |
| { |
| /* Trimming value is actually one value more */ |
| trimmingvaluen2++; |
| MODIFY_REG(*tmp_opamp2_reg_trimming, OPAMP_OTR_TRIMOFFSETN, trimmingvaluen2); |
| } |
| |
| /* 2nd calibration - P */ |
| /* Select 10U% VREF */ |
| MODIFY_REG(hopamp1->Instance->CSR, OPAMP_CSR_CALSEL, OPAMP_VREF_10VDDA); |
| MODIFY_REG(hopamp2->Instance->CSR, OPAMP_CSR_CALSEL, OPAMP_VREF_10VDDA); |
| |
| /* Init trimming counter */ |
| /* Medium value */ |
| trimmingvaluep1 = 16U; |
| trimmingvaluep2 = 16U; |
| delta = 8U; |
| |
| while (delta != 0U) |
| { |
| /* Set candidate trimming */ |
| /* OPAMP_POWERMODE_NORMAL */ |
| MODIFY_REG(*tmp_opamp1_reg_trimming, OPAMP_OTR_TRIMOFFSETP, (trimmingvaluep1<<OPAMP_INPUT_NONINVERTING)); |
| MODIFY_REG(*tmp_opamp2_reg_trimming, OPAMP_OTR_TRIMOFFSETP, (trimmingvaluep2<<OPAMP_INPUT_NONINVERTING)); |
| |
| /* OFFTRIMmax delay 2 ms as per datasheet (electrical characteristics */ |
| /* Offset trim time: during calibration, minimum time needed between */ |
| /* two steps to have 1 mV accuracy */ |
| HAL_Delay(OPAMP_TRIMMING_DELAY); |
| |
| if (READ_BIT(hopamp1->Instance->CSR, OPAMP_CSR_CALOUT)!= 0U) |
| { |
| /* OPAMP_CSR_CALOUT is Low try higher trimming */ |
| trimmingvaluep1 += delta; |
| } |
| else |
| { |
| /* OPAMP_CSR_CALOUT is HIGH try lower trimming */ |
| trimmingvaluep1 -= delta; |
| } |
| |
| if (READ_BIT(hopamp2->Instance->CSR, OPAMP_CSR_CALOUT)!= 0U) |
| { |
| /* OPAMP_CSR_CALOUT is Low try higher trimming */ |
| trimmingvaluep2 += delta; |
| } |
| else |
| { |
| /* OPAMP_CSR_CALOUT is High try lower trimming */ |
| trimmingvaluep2 -= delta; |
| } |
| /* Divide range by 2 to continue dichotomy sweep */ |
| delta >>= 1U; |
| } |
| |
| /* Still need to check if right calibration is current value or one step below */ |
| /* Indeed the first value that causes the OUTCAL bit to change from 1 to 0 */ |
| /* Set candidate trimming */ |
| MODIFY_REG(*tmp_opamp1_reg_trimming, OPAMP_OTR_TRIMOFFSETP, (trimmingvaluep1<<OPAMP_INPUT_NONINVERTING)); |
| MODIFY_REG(*tmp_opamp2_reg_trimming, OPAMP_OTR_TRIMOFFSETP, (trimmingvaluep2<<OPAMP_INPUT_NONINVERTING)); |
| |
| /* OFFTRIMmax delay 2 ms as per datasheet (electrical characteristics */ |
| /* Offset trim time: during calibration, minimum time needed between */ |
| /* two steps to have 1 mV accuracy */ |
| HAL_Delay(OPAMP_TRIMMING_DELAY); |
| |
| if (READ_BIT(hopamp1->Instance->CSR, OPAMP_CSR_CALOUT)!= 0U) |
| { |
| /* Trimming value is actually one value more */ |
| trimmingvaluep1++; |
| MODIFY_REG(*tmp_opamp1_reg_trimming, OPAMP_OTR_TRIMOFFSETP, (trimmingvaluep1<<OPAMP_INPUT_NONINVERTING)); |
| } |
| |
| if (READ_BIT(hopamp2->Instance->CSR, OPAMP_CSR_CALOUT)!= 0U) |
| { |
| /* Trimming value is actually one value more */ |
| trimmingvaluep2++; |
| MODIFY_REG(*tmp_opamp2_reg_trimming, OPAMP_OTR_TRIMOFFSETP, (trimmingvaluep2<<OPAMP_INPUT_NONINVERTING)); |
| } |
| |
| /* Disable calibration & set normal mode (operating mode) */ |
| CLEAR_BIT (hopamp1->Instance->CSR, OPAMP_CSR_CALON); |
| CLEAR_BIT (hopamp2->Instance->CSR, OPAMP_CSR_CALON); |
| |
| /* Disable the OPAMPs */ |
| CLEAR_BIT (hopamp1->Instance->CSR, OPAMP_CSR_OPAMPxEN); |
| CLEAR_BIT (hopamp2->Instance->CSR, OPAMP_CSR_OPAMPxEN); |
| |
| /* Self calibration is successful */ |
| /* Store calibration (user trimming) results in init structure. */ |
| |
| /* Set user trimming mode */ |
| hopamp1->Init.UserTrimming = OPAMP_TRIMMING_USER; |
| hopamp2->Init.UserTrimming = OPAMP_TRIMMING_USER; |
| |
| /* Affect calibration parameters depending on mode normal/high speed */ |
| if (hopamp1->Init.PowerMode != OPAMP_POWERMODE_HIGHSPEED) |
| { |
| /* Write calibration result N */ |
| hopamp1->Init.TrimmingValueN = trimmingvaluen1; |
| /* Write calibration result P */ |
| hopamp1->Init.TrimmingValueP = trimmingvaluep1; |
| } |
| else |
| { |
| /* Write calibration result N */ |
| hopamp1->Init.TrimmingValueNHighSpeed = trimmingvaluen1; |
| /* Write calibration result P */ |
| hopamp1->Init.TrimmingValuePHighSpeed = trimmingvaluep1; |
| } |
| |
| if (hopamp2->Init.PowerMode != OPAMP_POWERMODE_HIGHSPEED) |
| { |
| /* Write calibration result N */ |
| hopamp2->Init.TrimmingValueN = trimmingvaluen2; |
| /* Write calibration result P */ |
| hopamp2->Init.TrimmingValueP = trimmingvaluep2; |
| } |
| else |
| { |
| /* Write calibration result N */ |
| hopamp2->Init.TrimmingValueNHighSpeed = trimmingvaluen2; |
| /* Write calibration result P */ |
| hopamp2->Init.TrimmingValuePHighSpeed = trimmingvaluep2; |
| |
| } |
| /* Update OPAMP state */ |
| hopamp1->State = HAL_OPAMP_STATE_READY; |
| hopamp2->State = HAL_OPAMP_STATE_READY; |
| |
| /* Restore OPAMP mode after calibration */ |
| MODIFY_REG(hopamp1->Instance->CSR, OPAMP_CSR_VMSEL, opampmode1); |
| MODIFY_REG(hopamp2->Instance->CSR, OPAMP_CSR_VMSEL, opampmode2); |
| } |
| |
| return status; |
| } |
| |
| /** |
| * @} |
| */ |
| |
| /** @defgroup OPAMPEx_Exported_Functions_Group2 Peripheral Control functions |
| * @brief Peripheral Control functions |
| * |
| @verbatim |
| =============================================================================== |
| ##### Peripheral Control functions ##### |
| =============================================================================== |
| [..] |
| (+) OPAMP unlock. |
| |
| @endverbatim |
| * @{ |
| */ |
| |
| /** |
| * @brief Unlock the selected OPAMP configuration. |
| * @note This function must be called only when OPAMP is in state "locked". |
| * @param hopamp: OPAMP handle |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_OPAMPEx_Unlock(OPAMP_HandleTypeDef* hopamp) |
| { |
| HAL_StatusTypeDef status = HAL_OK; |
| |
| /* Check the OPAMP handle allocation */ |
| /* Check if OPAMP locked */ |
| if(hopamp == NULL) |
| { |
| status = HAL_ERROR; |
| } |
| /* Check the OPAMP handle allocation */ |
| /* Check if OPAMP locked */ |
| else if(hopamp->State == HAL_OPAMP_STATE_BUSYLOCKED) |
| { |
| /* Check the parameter */ |
| assert_param(IS_OPAMP_ALL_INSTANCE(hopamp->Instance)); |
| |
| /* OPAMP state changed to locked */ |
| hopamp->State = HAL_OPAMP_STATE_BUSY; |
| } |
| else |
| { |
| status = HAL_ERROR; |
| } |
| |
| return status; |
| } |
| |
| /** |
| * @} |
| */ |
| |
| /** |
| * @} |
| */ |
| |
| /** |
| * @} |
| */ |
| |
| /** |
| * @} |
| */ |
| |
| #endif /* HAL_OPAMP_MODULE_ENABLED */ |
| /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/ |