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targets/cmsis/TARGET_STM/TARGET_NUCLEO_L152RE/stm32l1xx_opamp.c@106:ced8cbb51063, 2014-02-26 (annotated)

Committer:: mbed_official
Date:: Wed Feb 26 09:45:12 2014 +0000
Revision:: 106:ced8cbb51063
Parent:: 80:66393a7b209d

Synchronized with git revision 4222735eff5868389433f0e9271976b39c8115cd



Full URL: https://github.com/mbedmicro/mbed/commit/4222735eff5868389433f0e9271976b39c8115cd/



[NUCLEO_xxx] Update STM32CubeF4 driver V1.0.0 + update license

Who changed what in which revision?

User	Revision	Line number	New contents of line
mbed_official	76:aeb1df146756	1	/**
mbed_official	76:aeb1df146756	2	******************************************************************************
mbed_official	76:aeb1df146756	3	* @file stm32l1xx_opamp.c
mbed_official	76:aeb1df146756	4	* @author MCD Application Team
mbed_official	80:66393a7b209d	5	* @version V1.3.0
mbed_official	80:66393a7b209d	6	* @date 31-January-2014
mbed_official	76:aeb1df146756	7	* @brief This file provides firmware functions to manage the following
mbed_official	76:aeb1df146756	8	* functionalities of the operational amplifiers (opamp) peripheral:
mbed_official	76:aeb1df146756	9	* + Initialization and configuration
mbed_official	76:aeb1df146756	10	* + Calibration management
mbed_official	76:aeb1df146756	11	*
mbed_official	76:aeb1df146756	12	* @verbatim
mbed_official	76:aeb1df146756	13	==============================================================================
mbed_official	76:aeb1df146756	14	##### How to use this driver #####
mbed_official	76:aeb1df146756	15	==============================================================================
mbed_official	76:aeb1df146756	16	[..] The device integrates three independent rail-to-rail operational amplifiers
mbed_official	76:aeb1df146756	17	OPAMP1, OPAMP2 and OPAMP3:
mbed_official	76:aeb1df146756	18	(+) Internal connections to the ADC.
mbed_official	76:aeb1df146756	19	(+) Internal connections to the DAC.
mbed_official	76:aeb1df146756	20	(+) Internal connection to COMP1 (only OPAMP3).
mbed_official	76:aeb1df146756	21	(+) Internal connection for unity gain (voltage follower) configuration.
mbed_official	76:aeb1df146756	22	(+) Calibration capability.
mbed_official	76:aeb1df146756	23	(+) Selectable gain-bandwidth (2MHz in normal mode, 500KHz in low power mode).
mbed_official	76:aeb1df146756	24	[..]
mbed_official	76:aeb1df146756	25	(#) COMP AHB clock must be enabled to get write access
mbed_official	76:aeb1df146756	26	to OPAMP registers using
mbed_official	76:aeb1df146756	27	(#) RCC_APB1PeriphClockCmd(RCC_APB1Periph_COMP, ENABLE)
mbed_official	76:aeb1df146756	28
mbed_official	76:aeb1df146756	29	(#) Configure the corresponding GPIO to OPAMPx INP, OPAMPx_INN (if used)
mbed_official	76:aeb1df146756	30	and OPAMPx_OUT in analog mode.
mbed_official	76:aeb1df146756	31
mbed_official	76:aeb1df146756	32	(#) Configure (close/open) the OPAMP switches using OPAMP_SwitchCmd()
mbed_official	76:aeb1df146756	33
mbed_official	76:aeb1df146756	34	(#) Enable the OPAMP peripheral using OPAMP_Cmd()
mbed_official	76:aeb1df146756	35
mbed_official	76:aeb1df146756	36	-@- In order to use OPAMP outputs as ADC inputs, the opamps must be enabled
mbed_official	76:aeb1df146756	37	and the ADC must use the OPAMP output channel number:
mbed_official	76:aeb1df146756	38	(+@) OPAMP1 output is connected to ADC channel 3.
mbed_official	76:aeb1df146756	39	(+@) OPAMP2 output is connected to ADC channel 8.
mbed_official	76:aeb1df146756	40	(+@) OPAMP3 output is connected to ADC channel 13 (SW1 switch must be closed).
mbed_official	76:aeb1df146756	41
mbed_official	76:aeb1df146756	42	* @endverbatim
mbed_official	76:aeb1df146756	43	*
mbed_official	76:aeb1df146756	44	******************************************************************************
mbed_official	76:aeb1df146756	45	* @attention
mbed_official	76:aeb1df146756	46	*
mbed_official	106:ced8cbb51063	47	* <h2><center>© COPYRIGHT(c) 2014 STMicroelectronics</center></h2>
mbed_official	76:aeb1df146756	48	*
mbed_official	106:ced8cbb51063	49	* Redistribution and use in source and binary forms, with or without modification,
mbed_official	106:ced8cbb51063	50	* are permitted provided that the following conditions are met:
mbed_official	106:ced8cbb51063	51	* 1. Redistributions of source code must retain the above copyright notice,
mbed_official	106:ced8cbb51063	52	* this list of conditions and the following disclaimer.
mbed_official	106:ced8cbb51063	53	* 2. Redistributions in binary form must reproduce the above copyright notice,
mbed_official	106:ced8cbb51063	54	* this list of conditions and the following disclaimer in the documentation
mbed_official	106:ced8cbb51063	55	* and/or other materials provided with the distribution.
mbed_official	106:ced8cbb51063	56	* 3. Neither the name of STMicroelectronics nor the names of its contributors
mbed_official	106:ced8cbb51063	57	* may be used to endorse or promote products derived from this software
mbed_official	106:ced8cbb51063	58	* without specific prior written permission.
mbed_official	76:aeb1df146756	59	*
mbed_official	106:ced8cbb51063	60	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
mbed_official	106:ced8cbb51063	61	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
mbed_official	106:ced8cbb51063	62	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
mbed_official	106:ced8cbb51063	63	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
mbed_official	106:ced8cbb51063	64	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
mbed_official	106:ced8cbb51063	65	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
mbed_official	106:ced8cbb51063	66	* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
mbed_official	106:ced8cbb51063	67	* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
mbed_official	106:ced8cbb51063	68	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
mbed_official	106:ced8cbb51063	69	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
mbed_official	76:aeb1df146756	70	*
mbed_official	76:aeb1df146756	71	******************************************************************************
mbed_official	76:aeb1df146756	72	*/
mbed_official	76:aeb1df146756	73
mbed_official	76:aeb1df146756	74	/* Includes ------------------------------------------------------------------*/
mbed_official	76:aeb1df146756	75	#include "stm32l1xx_opamp.h"
mbed_official	76:aeb1df146756	76
mbed_official	76:aeb1df146756	77
mbed_official	76:aeb1df146756	78	/** @addtogroup STM32L1xx_StdPeriph_Driver
mbed_official	76:aeb1df146756	79	* @{
mbed_official	76:aeb1df146756	80	*/
mbed_official	76:aeb1df146756	81
mbed_official	76:aeb1df146756	82	/** @defgroup OPAMP
mbed_official	76:aeb1df146756	83	* @brief OPAMP driver modules
mbed_official	76:aeb1df146756	84	* @{
mbed_official	76:aeb1df146756	85	*/
mbed_official	76:aeb1df146756	86
mbed_official	76:aeb1df146756	87	/* Private typedef -----------------------------------------------------------*/
mbed_official	76:aeb1df146756	88	/* Private define ------------------------------------------------------------*/
mbed_official	76:aeb1df146756	89	/* Private macro -------------------------------------------------------------*/
mbed_official	76:aeb1df146756	90	/* Private variables ---------------------------------------------------------*/
mbed_official	76:aeb1df146756	91	/* Private function prototypes -----------------------------------------------*/
mbed_official	76:aeb1df146756	92	/* Private functions ---------------------------------------------------------*/
mbed_official	76:aeb1df146756	93
mbed_official	76:aeb1df146756	94	/** @defgroup OPAMP_Private_Functions
mbed_official	76:aeb1df146756	95	* @{
mbed_official	76:aeb1df146756	96	*/
mbed_official	76:aeb1df146756	97
mbed_official	76:aeb1df146756	98	/** @defgroup OPAMP_Group1 Initialization and configuration
mbed_official	76:aeb1df146756	99	* @brief Initialization and configuration
mbed_official	76:aeb1df146756	100	*
mbed_official	76:aeb1df146756	101	@verbatim
mbed_official	76:aeb1df146756	102	===============================================================================
mbed_official	76:aeb1df146756	103	##### Initialization and configuration #####
mbed_official	76:aeb1df146756	104	===============================================================================
mbed_official	76:aeb1df146756	105
mbed_official	76:aeb1df146756	106	@endverbatim
mbed_official	76:aeb1df146756	107	* @{
mbed_official	76:aeb1df146756	108	*/
mbed_official	76:aeb1df146756	109
mbed_official	76:aeb1df146756	110	/**
mbed_official	76:aeb1df146756	111	* @brief Deinitialize the OPAMPs register to its default reset value.
mbed_official	76:aeb1df146756	112	* @note At startup, OTR and LPOTR registers are set to factory programmed values.
mbed_official	76:aeb1df146756	113	* @param None.
mbed_official	76:aeb1df146756	114	* @retval None.
mbed_official	76:aeb1df146756	115	*/
mbed_official	76:aeb1df146756	116	void OPAMP_DeInit(void)
mbed_official	76:aeb1df146756	117	{
mbed_official	76:aeb1df146756	118	/!< Set OPAMP_CSR register to reset value /
mbed_official	76:aeb1df146756	119	OPAMP->CSR = 0x00010101;
mbed_official	76:aeb1df146756	120	/!< Set OPAMP_OTR register to reset value /
mbed_official	76:aeb1df146756	121	OPAMP->OTR = (uint32_t)(* (uint32_t*)FLASH_R_BASE + 0x00000038);
mbed_official	76:aeb1df146756	122	/!< Set OPAMP_LPOTR register to reset value /
mbed_official	76:aeb1df146756	123	OPAMP->LPOTR = (uint32_t)(* (uint32_t*)FLASH_R_BASE + 0x0000003C);
mbed_official	76:aeb1df146756	124	}
mbed_official	76:aeb1df146756	125
mbed_official	76:aeb1df146756	126	/**
mbed_official	76:aeb1df146756	127	* @brief Close or Open the OPAMP switches.
mbed_official	76:aeb1df146756	128	* @param OPAMP_OPAMPxSwitchy: selects the OPAMPx switch.
mbed_official	76:aeb1df146756	129	* This parameter can be any combinations of the following values:
mbed_official	76:aeb1df146756	130	* @arg OPAMP_OPAMP1Switch3: used to connect internally OPAMP1 output to
mbed_official	76:aeb1df146756	131	* OPAMP1 negative input (internal follower)
mbed_official	76:aeb1df146756	132	* @arg OPAMP_OPAMP1Switch4: used to connect PA2 to OPAMP1 negative input
mbed_official	76:aeb1df146756	133	* @arg OPAMP_OPAMP1Switch5: used to connect PA1 to OPAMP1 positive input
mbed_official	76:aeb1df146756	134	* @arg OPAMP_OPAMP1Switch6: used to connect DAC_OUT1 to OPAMP1 positive input
mbed_official	76:aeb1df146756	135	* @arg OPAMP_OPAMP1SwitchANA: used to meet 1 nA input leakage
mbed_official	76:aeb1df146756	136	* @arg OPAMP_OPAMP2Switch3: used to connect internally OPAMP2 output to
mbed_official	76:aeb1df146756	137	* OPAMP2 negative input (internal follower)
mbed_official	76:aeb1df146756	138	* @arg OPAMP_OPAMP2Switch4: used to connect PA7 to OPAMP2 negative input
mbed_official	76:aeb1df146756	139	* @arg OPAMP_OPAMP2Switch5: used to connect PA6 to OPAMP2 positive input
mbed_official	76:aeb1df146756	140	* @arg OPAMP_OPAMP2Switch6: used to connect DAC_OUT1 to OPAMP2 positive input
mbed_official	76:aeb1df146756	141	* @arg OPAMP_OPAMP2Switch7: used to connect DAC_OUT2 to OPAMP2 positive input
mbed_official	76:aeb1df146756	142	* @arg OPAMP_OPAMP2SwitchANA: used to meet 1 nA input leakage
mbed_official	76:aeb1df146756	143	* @arg OPAMP_OPAMP3Switch3: used to connect internally OPAMP3 output to
mbed_official	76:aeb1df146756	144	* OPAMP3 negative input (internal follower)
mbed_official	76:aeb1df146756	145	* @arg OPAMP_OPAMP3Switch4: used to connect PC2 to OPAMP3 negative input
mbed_official	76:aeb1df146756	146	* @arg OPAMP_OPAMP3Switch5: used to connect PC1 to OPAMP3 positive input
mbed_official	76:aeb1df146756	147	* @arg OPAMP_OPAMP3Switch6: used to connect DAC_OUT1 to OPAMP3 positive input
mbed_official	76:aeb1df146756	148	* @arg OPAMP_OPAMP3SwitchANA: used to meet 1 nA input leakage on negative input
mbed_official	76:aeb1df146756	149	*
mbed_official	76:aeb1df146756	150	* @param NewState: New state of the OPAMP switch.
mbed_official	76:aeb1df146756	151	* This parameter can be:
mbed_official	76:aeb1df146756	152	* ENABLE to close the OPAMP switch
mbed_official	76:aeb1df146756	153	* or DISABLE to open the OPAMP switch
mbed_official	76:aeb1df146756	154	* @note OPAMP_OPAMP2Switch6 and OPAMP_OPAMP2Switch7 mustn't be closed together.
mbed_official	76:aeb1df146756	155	* @retval None
mbed_official	76:aeb1df146756	156	*/
mbed_official	76:aeb1df146756	157	void OPAMP_SwitchCmd(uint32_t OPAMP_OPAMPxSwitchy, FunctionalState NewState)
mbed_official	76:aeb1df146756	158	{
mbed_official	76:aeb1df146756	159	/* Check the parameter */
mbed_official	76:aeb1df146756	160	assert_param(IS_OPAMP_SWITCH(OPAMP_OPAMPxSwitchy));
mbed_official	76:aeb1df146756	161	assert_param(IS_FUNCTIONAL_STATE(NewState));
mbed_official	76:aeb1df146756	162
mbed_official	76:aeb1df146756	163	if (NewState != DISABLE)
mbed_official	76:aeb1df146756	164	{
mbed_official	76:aeb1df146756	165	/* Close the selected switches */
mbed_official	76:aeb1df146756	166	OPAMP->CSR \|= (uint32_t) OPAMP_OPAMPxSwitchy;
mbed_official	76:aeb1df146756	167	}
mbed_official	76:aeb1df146756	168	else
mbed_official	76:aeb1df146756	169	{
mbed_official	76:aeb1df146756	170	/* Open the selected switches */
mbed_official	76:aeb1df146756	171	OPAMP->CSR &= (~(uint32_t)OPAMP_OPAMPxSwitchy);
mbed_official	76:aeb1df146756	172	}
mbed_official	76:aeb1df146756	173	}
mbed_official	76:aeb1df146756	174
mbed_official	76:aeb1df146756	175	/**
mbed_official	76:aeb1df146756	176	* @brief Enable or disable the OPAMP peripheral.
mbed_official	76:aeb1df146756	177	* @param OPAMP_Selection: the selected OPAMP.
mbed_official	76:aeb1df146756	178	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	179	* @arg OPAMP_Selection_OPAMP1: OPAMP1 is selected
mbed_official	76:aeb1df146756	180	* @arg OPAMP_Selection_OPAMP2: OPAMP2 is selected
mbed_official	76:aeb1df146756	181	* @arg OPAMP_Selection_OPAMP3: OPAMP3 is selected
mbed_official	76:aeb1df146756	182	* @param NewState: new state of the selected OPAMP peripheral.
mbed_official	76:aeb1df146756	183	* This parameter can be: ENABLE or DISABLE.
mbed_official	76:aeb1df146756	184	* @retval None
mbed_official	76:aeb1df146756	185	*/
mbed_official	76:aeb1df146756	186	void OPAMP_Cmd(uint32_t OPAMP_Selection, FunctionalState NewState)
mbed_official	76:aeb1df146756	187	{
mbed_official	76:aeb1df146756	188	/* Check the parameter */
mbed_official	76:aeb1df146756	189	assert_param(IS_OPAMP_ALL_PERIPH(OPAMP_Selection));
mbed_official	76:aeb1df146756	190	assert_param(IS_FUNCTIONAL_STATE(NewState));
mbed_official	76:aeb1df146756	191
mbed_official	76:aeb1df146756	192	if (NewState != DISABLE)
mbed_official	76:aeb1df146756	193	{
mbed_official	76:aeb1df146756	194	/* Enable the selected OPAMP */
mbed_official	76:aeb1df146756	195	OPAMP->CSR &= (~(uint32_t) OPAMP_Selection);
mbed_official	76:aeb1df146756	196	}
mbed_official	76:aeb1df146756	197	else
mbed_official	76:aeb1df146756	198	{
mbed_official	76:aeb1df146756	199	/* Disable the selected OPAMP */
mbed_official	76:aeb1df146756	200	OPAMP->CSR \|= (uint32_t) OPAMP_Selection;
mbed_official	76:aeb1df146756	201	}
mbed_official	76:aeb1df146756	202	}
mbed_official	76:aeb1df146756	203
mbed_official	76:aeb1df146756	204	/**
mbed_official	76:aeb1df146756	205	* @brief Enable or disable the low power mode for OPAMP peripheral.
mbed_official	76:aeb1df146756	206	* @param OPAMP_Selection: the selected OPAMP.
mbed_official	76:aeb1df146756	207	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	208	* @arg OPAMP_Selection_OPAMP1: OPAMP1 selected
mbed_official	76:aeb1df146756	209	* @arg OPAMP_Selection_OPAMP2: OPAMP2 selected
mbed_official	76:aeb1df146756	210	* @arg OPAMP_Selection_OPAMP3: OPAMP3 selected
mbed_official	76:aeb1df146756	211	* @param NewState: new low power state of the selected OPAMP peripheral.
mbed_official	76:aeb1df146756	212	* This parameter can be: ENABLE or DISABLE.
mbed_official	76:aeb1df146756	213	* @retval None
mbed_official	76:aeb1df146756	214	*/
mbed_official	76:aeb1df146756	215	void OPAMP_LowPowerCmd(uint32_t OPAMP_Selection, FunctionalState NewState)
mbed_official	76:aeb1df146756	216	{
mbed_official	76:aeb1df146756	217	/* Check the parameter */
mbed_official	76:aeb1df146756	218	assert_param(IS_OPAMP_ALL_PERIPH(OPAMP_Selection));
mbed_official	76:aeb1df146756	219	assert_param(IS_FUNCTIONAL_STATE(NewState));
mbed_official	76:aeb1df146756	220
mbed_official	76:aeb1df146756	221	if (NewState != DISABLE)
mbed_official	76:aeb1df146756	222	{
mbed_official	76:aeb1df146756	223	/* Set the selected OPAMP in low power mode */
mbed_official	76:aeb1df146756	224	OPAMP->CSR \|= (uint32_t) (OPAMP_Selection << 7);
mbed_official	76:aeb1df146756	225	}
mbed_official	76:aeb1df146756	226	else
mbed_official	76:aeb1df146756	227	{
mbed_official	76:aeb1df146756	228	/* Disable the low power mode for the selected OPAMP */
mbed_official	76:aeb1df146756	229	OPAMP->CSR &= (~(uint32_t) (OPAMP_Selection << 7));
mbed_official	76:aeb1df146756	230	}
mbed_official	76:aeb1df146756	231	}
mbed_official	76:aeb1df146756	232
mbed_official	76:aeb1df146756	233	/**
mbed_official	76:aeb1df146756	234	* @brief Select the OPAMP power range.
mbed_official	76:aeb1df146756	235	* @note The OPAMP power range selection must be performed while OPAMPs are powered down.
mbed_official	76:aeb1df146756	236	* @param OPAMP_Range: the selected OPAMP power range.
mbed_official	76:aeb1df146756	237	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	238	* @arg OPAMP_PowerRange_Low: Low power range is selected (VDDA is lower than 2.4V).
mbed_official	76:aeb1df146756	239	* @arg OPAMP_PowerRange_High: High power range is selected (VDDA is higher than 2.4V).
mbed_official	76:aeb1df146756	240	* @retval None
mbed_official	76:aeb1df146756	241	*/
mbed_official	76:aeb1df146756	242	void OPAMP_PowerRangeSelect(uint32_t OPAMP_PowerRange)
mbed_official	76:aeb1df146756	243	{
mbed_official	76:aeb1df146756	244	/* Check the parameter */
mbed_official	76:aeb1df146756	245	assert_param(IS_OPAMP_RANGE(OPAMP_PowerRange));
mbed_official	76:aeb1df146756	246
mbed_official	76:aeb1df146756	247	/* Reset the OPAMP range bit */
mbed_official	76:aeb1df146756	248	OPAMP->CSR &= (~(uint32_t) (OPAMP_CSR_AOP_RANGE));
mbed_official	76:aeb1df146756	249
mbed_official	76:aeb1df146756	250	/* Select the OPAMP power range */
mbed_official	76:aeb1df146756	251	OPAMP->CSR \|= OPAMP_PowerRange;
mbed_official	76:aeb1df146756	252	}
mbed_official	76:aeb1df146756	253
mbed_official	76:aeb1df146756	254	/**
mbed_official	76:aeb1df146756	255	* @}
mbed_official	76:aeb1df146756	256	*/
mbed_official	76:aeb1df146756	257
mbed_official	76:aeb1df146756	258	/** @defgroup OPAMP_Group2 Calibration functions
mbed_official	76:aeb1df146756	259	* @brief Calibration functions
mbed_official	76:aeb1df146756	260	*
mbed_official	76:aeb1df146756	261	@verbatim
mbed_official	76:aeb1df146756	262	===============================================================================
mbed_official	76:aeb1df146756	263	##### Calibration functions #####
mbed_official	76:aeb1df146756	264	===============================================================================
mbed_official	76:aeb1df146756	265
mbed_official	76:aeb1df146756	266	@endverbatim
mbed_official	76:aeb1df146756	267	* @{
mbed_official	76:aeb1df146756	268	*/
mbed_official	76:aeb1df146756	269
mbed_official	76:aeb1df146756	270	/**
mbed_official	76:aeb1df146756	271	* @brief Select the trimming mode.
mbed_official	76:aeb1df146756	272	* @param OffsetTrimming: the selected offset trimming mode.
mbed_official	76:aeb1df146756	273	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	274	* @arg OffsetTrimming_Factory: factory trimming values are used for offset
mbed_official	76:aeb1df146756	275	* calibration.
mbed_official	76:aeb1df146756	276	* @arg OffsetTrimming_User: user trimming values are used for offset
mbed_official	76:aeb1df146756	277	* calibration.
mbed_official	76:aeb1df146756	278	* @note When OffsetTrimming_User is selected, use OPAMP_OffsetTrimConfig()
mbed_official	76:aeb1df146756	279	* function or OPAMP_OffsetTrimLowPowerConfig() function to adjust
mbed_official	76:aeb1df146756	280	* trimming value.
mbed_official	76:aeb1df146756	281	* @retval None
mbed_official	76:aeb1df146756	282	*/
mbed_official	76:aeb1df146756	283	void OPAMP_OffsetTrimmingModeSelect(uint32_t OPAMP_Trimming)
mbed_official	76:aeb1df146756	284	{
mbed_official	76:aeb1df146756	285	/* Check the parameter */
mbed_official	76:aeb1df146756	286	assert_param(IS_OPAMP_TRIMMING(OPAMP_Trimming));
mbed_official	76:aeb1df146756	287
mbed_official	76:aeb1df146756	288	/* Reset the OPAMP_OTR range bit */
mbed_official	80:66393a7b209d	289	OPAMP->OTR &= (~(uint32_t) (OPAMP_OTR_OT_USER));
mbed_official	76:aeb1df146756	290
mbed_official	76:aeb1df146756	291	/* Select the OPAMP offset trimming */
mbed_official	80:66393a7b209d	292	OPAMP->OTR \|= OPAMP_Trimming;
mbed_official	76:aeb1df146756	293
mbed_official	76:aeb1df146756	294	}
mbed_official	76:aeb1df146756	295
mbed_official	76:aeb1df146756	296	/**
mbed_official	76:aeb1df146756	297	* @brief Configure the trimming value of OPAMPs in normal mode.
mbed_official	76:aeb1df146756	298	* @param OPAMP_Selection: the selected OPAMP.
mbed_official	76:aeb1df146756	299	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	300	* @arg OPAMP_Selection_OPAMP1: OPAMP1 is selected to configure the trimming value.
mbed_official	76:aeb1df146756	301	* @arg OPAMP_Selection_OPAMP2: OPAMP2 is selected to configure the trimming value.
mbed_official	76:aeb1df146756	302	* @arg OPAMP_Selection_OPAMP3: OPAMP3 is selected to configure the trimming value.
mbed_official	76:aeb1df146756	303	* @param OPAMP_Input: the selected OPAMP input.
mbed_official	76:aeb1df146756	304	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	305	* @arg OPAMP_Input_NMOS: NMOS input is selected to configure the trimming value.
mbed_official	76:aeb1df146756	306	* @arg OPAMP_Input_PMOS: PMOS input is selected to configure the trimming value.
mbed_official	76:aeb1df146756	307	* @param OPAMP_TrimValue: the trimming value. This parameter can be any value lower
mbed_official	76:aeb1df146756	308	* or equal to 0x0000001F.
mbed_official	76:aeb1df146756	309	* @retval None
mbed_official	76:aeb1df146756	310	*/
mbed_official	76:aeb1df146756	311	void OPAMP_OffsetTrimConfig(uint32_t OPAMP_Selection, uint32_t OPAMP_Input, uint32_t OPAMP_TrimValue)
mbed_official	76:aeb1df146756	312	{
mbed_official	76:aeb1df146756	313	uint32_t tmpreg = 0;
mbed_official	76:aeb1df146756	314
mbed_official	76:aeb1df146756	315	/* Check the parameter */
mbed_official	76:aeb1df146756	316	assert_param(IS_OPAMP_ALL_PERIPH(OPAMP_Selection));
mbed_official	76:aeb1df146756	317	assert_param(IS_OPAMP_INPUT(OPAMP_Input));
mbed_official	76:aeb1df146756	318	assert_param(IS_OPAMP_TRIMMINGVALUE(OPAMP_TrimValue));
mbed_official	76:aeb1df146756	319
mbed_official	76:aeb1df146756	320	/* Get the OPAMP_OTR value */
mbed_official	76:aeb1df146756	321	tmpreg = OPAMP->OTR;
mbed_official	76:aeb1df146756	322
mbed_official	76:aeb1df146756	323	if(OPAMP_Selection == OPAMP_Selection_OPAMP1)
mbed_official	76:aeb1df146756	324	{
mbed_official	76:aeb1df146756	325	/* Reset the OPAMP inputs selection */
mbed_official	76:aeb1df146756	326	tmpreg &= (uint32_t)~(OPAMP_CSR_OPA1CAL_L \| OPAMP_CSR_OPA1CAL_H);
mbed_official	76:aeb1df146756	327	/* Select the OPAMP input */
mbed_official	76:aeb1df146756	328	tmpreg \|= OPAMP_Input;
mbed_official	76:aeb1df146756	329
mbed_official	76:aeb1df146756	330	if(OPAMP_Input == OPAMP_Input_PMOS)
mbed_official	76:aeb1df146756	331	{
mbed_official	76:aeb1df146756	332	/* Reset the trimming value corresponding to OPAMP1 PMOS input */
mbed_official	76:aeb1df146756	333	tmpreg &= (0xFFFFFFE0);
mbed_official	76:aeb1df146756	334	/* Set the new trimming value corresponding to OPAMP1 PMOS input */
mbed_official	76:aeb1df146756	335	tmpreg \|= (OPAMP_TrimValue);
mbed_official	76:aeb1df146756	336	}
mbed_official	76:aeb1df146756	337	else
mbed_official	76:aeb1df146756	338	{
mbed_official	76:aeb1df146756	339	/* Reset the trimming value corresponding to OPAMP1 NMOS input */
mbed_official	76:aeb1df146756	340	tmpreg &= (0xFFFFFC1F);
mbed_official	76:aeb1df146756	341	/* Set the new trimming value corresponding to OPAMP1 NMOS input */
mbed_official	76:aeb1df146756	342	tmpreg \|= (OPAMP_TrimValue<<5);
mbed_official	76:aeb1df146756	343	}
mbed_official	76:aeb1df146756	344	}
mbed_official	76:aeb1df146756	345	else if (OPAMP_Selection == OPAMP_Selection_OPAMP2)
mbed_official	76:aeb1df146756	346	{
mbed_official	76:aeb1df146756	347	/* Reset the OPAMP inputs selection */
mbed_official	76:aeb1df146756	348	tmpreg &= (uint32_t)~(OPAMP_CSR_OPA2CAL_L \| OPAMP_CSR_OPA2CAL_H);
mbed_official	76:aeb1df146756	349	/* Select the OPAMP input */
mbed_official	76:aeb1df146756	350	tmpreg \|= (uint32_t)(OPAMP_Input<<8);
mbed_official	76:aeb1df146756	351
mbed_official	76:aeb1df146756	352	if(OPAMP_Input == OPAMP_Input_PMOS)
mbed_official	76:aeb1df146756	353	{
mbed_official	76:aeb1df146756	354	/* Reset the trimming value corresponding to OPAMP2 PMOS input */
mbed_official	76:aeb1df146756	355	tmpreg &= (0xFFFF83FF);
mbed_official	76:aeb1df146756	356	/* Set the new trimming value corresponding to OPAMP2 PMOS input */
mbed_official	76:aeb1df146756	357	tmpreg \|= (OPAMP_TrimValue<<10);
mbed_official	76:aeb1df146756	358	}
mbed_official	76:aeb1df146756	359	else
mbed_official	76:aeb1df146756	360	{
mbed_official	76:aeb1df146756	361	/* Reset the trimming value corresponding to OPAMP2 NMOS input */
mbed_official	76:aeb1df146756	362	tmpreg &= (0xFFF07FFF);
mbed_official	76:aeb1df146756	363	/* Set the new trimming value corresponding to OPAMP2 NMOS input */
mbed_official	76:aeb1df146756	364	tmpreg \|= (OPAMP_TrimValue<<15);
mbed_official	76:aeb1df146756	365	}
mbed_official	76:aeb1df146756	366	}
mbed_official	76:aeb1df146756	367	else
mbed_official	76:aeb1df146756	368	{
mbed_official	76:aeb1df146756	369	/* Reset the OPAMP inputs selection */
mbed_official	76:aeb1df146756	370	tmpreg &= (uint32_t)~(OPAMP_CSR_OPA3CAL_L \| OPAMP_CSR_OPA3CAL_H);
mbed_official	76:aeb1df146756	371	/* Select the OPAMP input */
mbed_official	76:aeb1df146756	372	tmpreg \|= (uint32_t)(OPAMP_Input<<16);
mbed_official	76:aeb1df146756	373
mbed_official	76:aeb1df146756	374	if(OPAMP_Input == OPAMP_Input_PMOS)
mbed_official	76:aeb1df146756	375	{
mbed_official	76:aeb1df146756	376	/* Reset the trimming value corresponding to OPAMP3 PMOS input */
mbed_official	76:aeb1df146756	377	tmpreg &= (0xFE0FFFFF);
mbed_official	76:aeb1df146756	378	/* Set the new trimming value corresponding to OPAMP3 PMOS input */
mbed_official	76:aeb1df146756	379	tmpreg \|= (OPAMP_TrimValue<<20);
mbed_official	76:aeb1df146756	380	}
mbed_official	76:aeb1df146756	381	else
mbed_official	76:aeb1df146756	382	{
mbed_official	76:aeb1df146756	383	/* Reset the trimming value corresponding to OPAMP3 NMOS input */
mbed_official	76:aeb1df146756	384	tmpreg &= (0xC1FFFFFF);
mbed_official	76:aeb1df146756	385	/* Set the new trimming value corresponding to OPAMP3 NMOS input */
mbed_official	76:aeb1df146756	386	tmpreg \|= (OPAMP_TrimValue<<25);
mbed_official	76:aeb1df146756	387	}
mbed_official	76:aeb1df146756	388	}
mbed_official	76:aeb1df146756	389
mbed_official	76:aeb1df146756	390	/* Set the OPAMP_OTR register */
mbed_official	76:aeb1df146756	391	OPAMP->OTR = tmpreg;
mbed_official	76:aeb1df146756	392	}
mbed_official	76:aeb1df146756	393
mbed_official	76:aeb1df146756	394	/**
mbed_official	76:aeb1df146756	395	* @brief Configure the trimming value of OPAMPs in low power mode.
mbed_official	76:aeb1df146756	396	* @param OPAMP_Selection: the selected OPAMP.
mbed_official	76:aeb1df146756	397	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	398	* @arg OPAMP_Selection_OPAMP1: OPAMP1 is selected to configure the trimming value.
mbed_official	76:aeb1df146756	399	* @arg OPAMP_Selection_OPAMP2: OPAMP2 is selected to configure the trimming value.
mbed_official	76:aeb1df146756	400	* @arg OPAMP_Selection_OPAMP3: OPAMP3 is selected to configure the trimming value.
mbed_official	76:aeb1df146756	401	* @param OPAMP_Input: the selected OPAMP input.
mbed_official	76:aeb1df146756	402	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	403	* @arg OPAMP_Input_NMOS: NMOS input is selected to configure the trimming value.
mbed_official	76:aeb1df146756	404	* @arg OPAMP_Input_PMOS: PMOS input is selected to configure the trimming value.
mbed_official	76:aeb1df146756	405	* @param OPAMP_TrimValue: the trimming value.
mbed_official	76:aeb1df146756	406	* This parameter can be any value lower or equal to 0x0000001F.
mbed_official	76:aeb1df146756	407	* @retval None
mbed_official	76:aeb1df146756	408	*/
mbed_official	76:aeb1df146756	409	void OPAMP_OffsetTrimLowPowerConfig(uint32_t OPAMP_Selection, uint32_t OPAMP_Input, uint32_t OPAMP_TrimValue)
mbed_official	76:aeb1df146756	410	{
mbed_official	76:aeb1df146756	411	uint32_t tmpreg = 0;
mbed_official	76:aeb1df146756	412
mbed_official	76:aeb1df146756	413	/* Check the parameter */
mbed_official	76:aeb1df146756	414	assert_param(IS_OPAMP_ALL_PERIPH(OPAMP_Selection));
mbed_official	76:aeb1df146756	415	assert_param(IS_OPAMP_INPUT(OPAMP_Input));
mbed_official	76:aeb1df146756	416	assert_param(IS_OPAMP_TRIMMINGVALUE(OPAMP_TrimValue));
mbed_official	76:aeb1df146756	417
mbed_official	76:aeb1df146756	418	/* Get the OPAMP_LPOTR value */
mbed_official	76:aeb1df146756	419	tmpreg = OPAMP->LPOTR;
mbed_official	76:aeb1df146756	420
mbed_official	76:aeb1df146756	421	if(OPAMP_Selection == OPAMP_Selection_OPAMP1)
mbed_official	76:aeb1df146756	422	{
mbed_official	76:aeb1df146756	423	/* Reset the OPAMP inputs selection */
mbed_official	76:aeb1df146756	424	tmpreg &= (uint32_t)~(OPAMP_CSR_OPA1CAL_L \| OPAMP_CSR_OPA1CAL_H);
mbed_official	76:aeb1df146756	425	/* Select the OPAMP input */
mbed_official	76:aeb1df146756	426	tmpreg \|= OPAMP_Input;
mbed_official	76:aeb1df146756	427
mbed_official	76:aeb1df146756	428	if(OPAMP_Input == OPAMP_Input_PMOS)
mbed_official	76:aeb1df146756	429	{
mbed_official	76:aeb1df146756	430	/* Reset the trimming value corresponding to OPAMP1 PMOS input */
mbed_official	76:aeb1df146756	431	tmpreg &= (0xFFFFFFE0);
mbed_official	76:aeb1df146756	432	/* Set the new trimming value corresponding to OPAMP1 PMOS input */
mbed_official	76:aeb1df146756	433	tmpreg \|= (OPAMP_TrimValue);
mbed_official	76:aeb1df146756	434	}
mbed_official	76:aeb1df146756	435	else
mbed_official	76:aeb1df146756	436	{
mbed_official	76:aeb1df146756	437	/* Reset the trimming value corresponding to OPAMP1 NMOS input */
mbed_official	76:aeb1df146756	438	tmpreg &= (0xFFFFFC1F);
mbed_official	76:aeb1df146756	439	/* Set the new trimming value corresponding to OPAMP1 NMOS input */
mbed_official	76:aeb1df146756	440	tmpreg \|= (OPAMP_TrimValue<<5);
mbed_official	76:aeb1df146756	441	}
mbed_official	76:aeb1df146756	442	}
mbed_official	76:aeb1df146756	443	else if (OPAMP_Selection == OPAMP_Selection_OPAMP2)
mbed_official	76:aeb1df146756	444	{
mbed_official	76:aeb1df146756	445	/* Reset the OPAMP inputs selection */
mbed_official	76:aeb1df146756	446	tmpreg &= (uint32_t)~(OPAMP_CSR_OPA2CAL_L \| OPAMP_CSR_OPA2CAL_H);
mbed_official	76:aeb1df146756	447	/* Select the OPAMP input */
mbed_official	76:aeb1df146756	448	tmpreg \|= (uint32_t)(OPAMP_Input<<8);
mbed_official	76:aeb1df146756	449
mbed_official	76:aeb1df146756	450	if(OPAMP_Input == OPAMP_Input_PMOS)
mbed_official	76:aeb1df146756	451	{
mbed_official	76:aeb1df146756	452	/* Reset the trimming value corresponding to OPAMP2 PMOS input */
mbed_official	76:aeb1df146756	453	tmpreg &= (0xFFFF83FF);
mbed_official	76:aeb1df146756	454	/* Set the new trimming value corresponding to OPAMP2 PMOS input */
mbed_official	76:aeb1df146756	455	tmpreg \|= (OPAMP_TrimValue<<10);
mbed_official	76:aeb1df146756	456	}
mbed_official	76:aeb1df146756	457	else
mbed_official	76:aeb1df146756	458	{
mbed_official	76:aeb1df146756	459	/* Reset the trimming value corresponding to OPAMP2 NMOS input */
mbed_official	76:aeb1df146756	460	tmpreg &= (0xFFF07FFF);
mbed_official	76:aeb1df146756	461	/* Set the new trimming value corresponding to OPAMP2 NMOS input */
mbed_official	76:aeb1df146756	462	tmpreg \|= (OPAMP_TrimValue<<15);
mbed_official	76:aeb1df146756	463	}
mbed_official	76:aeb1df146756	464	}
mbed_official	76:aeb1df146756	465	else
mbed_official	76:aeb1df146756	466	{
mbed_official	76:aeb1df146756	467	/* Reset the OPAMP inputs selection */
mbed_official	76:aeb1df146756	468	tmpreg &= (uint32_t)~(OPAMP_CSR_OPA3CAL_L \| OPAMP_CSR_OPA3CAL_H);
mbed_official	76:aeb1df146756	469	/* Select the OPAMP input */
mbed_official	76:aeb1df146756	470	tmpreg \|= (uint32_t)(OPAMP_Input<<16);
mbed_official	76:aeb1df146756	471
mbed_official	76:aeb1df146756	472	if(OPAMP_Input == OPAMP_Input_PMOS)
mbed_official	76:aeb1df146756	473	{
mbed_official	76:aeb1df146756	474	/* Reset the trimming value corresponding to OPAMP3 PMOS input */
mbed_official	76:aeb1df146756	475	tmpreg &= (0xFE0FFFFF);
mbed_official	76:aeb1df146756	476	/* Set the new trimming value corresponding to OPAMP3 PMOS input */
mbed_official	76:aeb1df146756	477	tmpreg \|= (OPAMP_TrimValue<<20);
mbed_official	76:aeb1df146756	478	}
mbed_official	76:aeb1df146756	479	else
mbed_official	76:aeb1df146756	480	{
mbed_official	76:aeb1df146756	481	/* Reset the trimming value corresponding to OPAMP3 NMOS input */
mbed_official	76:aeb1df146756	482	tmpreg &= (0xC1FFFFFF);
mbed_official	76:aeb1df146756	483	/* Set the new trimming value corresponding to OPAMP3 NMOS input */
mbed_official	76:aeb1df146756	484	tmpreg \|= (OPAMP_TrimValue<<25);
mbed_official	76:aeb1df146756	485	}
mbed_official	76:aeb1df146756	486	}
mbed_official	76:aeb1df146756	487
mbed_official	76:aeb1df146756	488	/* Set the OPAMP_LPOTR register */
mbed_official	76:aeb1df146756	489	OPAMP->LPOTR = tmpreg;
mbed_official	76:aeb1df146756	490	}
mbed_official	76:aeb1df146756	491
mbed_official	76:aeb1df146756	492	/**
mbed_official	76:aeb1df146756	493	* @brief Checks whether the specified OPAMP calibration flag is set or not.
mbed_official	76:aeb1df146756	494	* @note User should wait until calibration flag change the value when changing
mbed_official	76:aeb1df146756	495	* the trimming value.
mbed_official	76:aeb1df146756	496	* @param OPAMP_Selection: the selected OPAMP.
mbed_official	76:aeb1df146756	497	* This parameter can be one of the following values:
mbed_official	76:aeb1df146756	498	* @arg OPAMP_Selection_OPAMP1: OPAMP1 is selected.
mbed_official	76:aeb1df146756	499	* @arg OPAMP_Selection_OPAMP2: OPAMP2 is selected.
mbed_official	76:aeb1df146756	500	* @arg OPAMP_Selection_OPAMP3: OPAMP3 is selected.
mbed_official	76:aeb1df146756	501	* @retval The new state of the OPAMP calibration flag (SET or RESET).
mbed_official	76:aeb1df146756	502	*/
mbed_official	76:aeb1df146756	503	FlagStatus OPAMP_GetFlagStatus(uint32_t OPAMP_Selection)
mbed_official	76:aeb1df146756	504	{
mbed_official	76:aeb1df146756	505	FlagStatus bitstatus = RESET;
mbed_official	76:aeb1df146756	506	uint32_t tmpreg = 0;
mbed_official	76:aeb1df146756	507
mbed_official	76:aeb1df146756	508	/* Check the parameter */
mbed_official	76:aeb1df146756	509	assert_param(IS_OPAMP_ALL_PERIPH(OPAMP_Selection));
mbed_official	76:aeb1df146756	510
mbed_official	76:aeb1df146756	511	/* Get the CSR register value */
mbed_official	76:aeb1df146756	512	tmpreg = OPAMP->CSR;
mbed_official	76:aeb1df146756	513
mbed_official	76:aeb1df146756	514	/* Check if OPAMP1 is selected */
mbed_official	76:aeb1df146756	515	if(OPAMP_Selection == OPAMP_Selection_OPAMP1)
mbed_official	76:aeb1df146756	516	{
mbed_official	76:aeb1df146756	517	/* Check OPAMP1 CAL bit status */
mbed_official	76:aeb1df146756	518	if ((tmpreg & OPAMP_CSR_OPA1CALOUT) != (uint32_t)RESET)
mbed_official	76:aeb1df146756	519	{
mbed_official	76:aeb1df146756	520	bitstatus = SET;
mbed_official	76:aeb1df146756	521	}
mbed_official	76:aeb1df146756	522	else
mbed_official	76:aeb1df146756	523	{
mbed_official	76:aeb1df146756	524	bitstatus = RESET;
mbed_official	76:aeb1df146756	525	}
mbed_official	76:aeb1df146756	526	}
mbed_official	76:aeb1df146756	527	/* Check if OPAMP2 is selected */
mbed_official	76:aeb1df146756	528	else if(OPAMP_Selection == OPAMP_Selection_OPAMP2)
mbed_official	76:aeb1df146756	529	{
mbed_official	76:aeb1df146756	530	/* Check OPAMP2 CAL bit status */
mbed_official	76:aeb1df146756	531	if ((tmpreg & OPAMP_CSR_OPA2CALOUT) != (uint32_t)RESET)
mbed_official	76:aeb1df146756	532	{
mbed_official	76:aeb1df146756	533	bitstatus = SET;
mbed_official	76:aeb1df146756	534	}
mbed_official	76:aeb1df146756	535	else
mbed_official	76:aeb1df146756	536	{
mbed_official	76:aeb1df146756	537	bitstatus = RESET;
mbed_official	76:aeb1df146756	538	}
mbed_official	76:aeb1df146756	539	}
mbed_official	76:aeb1df146756	540	else
mbed_official	76:aeb1df146756	541	{
mbed_official	76:aeb1df146756	542	/* Check OPAMP3 CAL bit status */
mbed_official	76:aeb1df146756	543	if ((tmpreg & OPAMP_CSR_OPA3CALOUT) != (uint32_t)RESET)
mbed_official	76:aeb1df146756	544	{
mbed_official	76:aeb1df146756	545	bitstatus = SET;
mbed_official	76:aeb1df146756	546	}
mbed_official	76:aeb1df146756	547	else
mbed_official	76:aeb1df146756	548	{
mbed_official	76:aeb1df146756	549	bitstatus = RESET;
mbed_official	76:aeb1df146756	550	}
mbed_official	76:aeb1df146756	551	}
mbed_official	76:aeb1df146756	552	return bitstatus;
mbed_official	76:aeb1df146756	553	}
mbed_official	76:aeb1df146756	554
mbed_official	76:aeb1df146756	555	/**
mbed_official	76:aeb1df146756	556	* @}
mbed_official	76:aeb1df146756	557	*/
mbed_official	76:aeb1df146756	558
mbed_official	76:aeb1df146756	559	/**
mbed_official	76:aeb1df146756	560	* @}
mbed_official	76:aeb1df146756	561	*/
mbed_official	76:aeb1df146756	562
mbed_official	76:aeb1df146756	563	/**
mbed_official	76:aeb1df146756	564	* @}
mbed_official	76:aeb1df146756	565	*/
mbed_official	76:aeb1df146756	566
mbed_official	76:aeb1df146756	567	/********************** (C) COPYRIGHT STMicroelectronics *END OF FILE**/

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Type:	Library
Created:	23 Oct 2014
Imports:	5
Forks:	0
Commits:	350
Dependents:	0
Dependencies:	0
Followers:	6

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targets/cmsis/TARGET_STM/TARGET_NUCLEO_L152RE/stm32l1xx_opamp.c@106:ced8cbb51063, 2014-02-26 (annotated)

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targets/cmsis/TARGET_STM/TARGET_NUCLEO_L152RE/stm32l1xx_opamp.c@106:ced8cbb51063, 2014-02-26 (annotated)

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