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Location: therm/libraries/STM32L1xx_StdPeriph_Driver/src/stm32l1xx_tim.c - annotation
63171fecb213
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f23a287bb7c1 f23a287bb7c1 f23a287bb7c1 | /**
******************************************************************************
* @file stm32l1xx_tim.c
* @author MCD Application Team
* @version V1.2.0
* @date 22-February-2013
* @brief This file provides firmware functions to manage the following
* functionalities of the TIM peripheral:
* + TimeBase management
* + Output Compare management
* + Input Capture management
* + Interrupts, DMA and flags management
* + Clocks management
* + Synchronization management
* + Specific interface management
* + Specific remapping management
*
* @verbatim
===============================================================================
##### How to use this driver #####
===============================================================================
[..] This driver provides functions to configure and program the TIM
of all STM32L1xx devices These functions are split in 8 groups:
(#) TIM TimeBase management: this group includes all needed functions
to configure the TM Timebase unit:
(++) Set/Get Prescaler.
(++) Set/Get Autoreload.
(++) Counter modes configuration.
(++) Set Clock division.
(++) Select the One Pulse mode.
(++) Update Request Configuration.
(++) Update Disable Configuration.
(++) Auto-Preload Configuration.
(++) Enable/Disable the counter.
(#) TIM Output Compare management: this group includes all needed
functions to configure the Capture/Compare unit used in Output
compare mode:
(++) Configure each channel, independently, in Output Compare mode.
(++) Select the output compare modes.
(++) Select the Polarities of each channel.
(++) Set/Get the Capture/Compare register values.
(++) Select the Output Compare Fast mode.
(++) Select the Output Compare Forced mode.
(++) Output Compare-Preload Configuration.
(++) Clear Output Compare Reference.
(++) Select the OCREF Clear signal.
(++) Enable/Disable the Capture/Compare Channels.
(#) TIM Input Capture management: this group includes all needed
functions to configure the Capture/Compare unit used in
Input Capture mode:
(++) Configure each channel in input capture mode.
(++) Configure Channel1/2 in PWM Input mode.
(++) Set the Input Capture Prescaler.
(++) Get the Capture/Compare values.
(#) TIM interrupts, DMA and flags management.
(++) Enable/Disable interrupt sources.
(++) Get flags status.
(++) Clear flags/ Pending bits.
(++) Enable/Disable DMA requests.
(++) Configure DMA burst mode.
(++) Select CaptureCompare DMA request.
(#) TIM clocks management: this group includes all needed functions
to configure the clock controller unit:
(++) Select internal/External clock.
(++) Select the external clock mode: ETR(Mode1/Mode2), TIx or ITRx.
(#) TIM synchronization management: this group includes all needed.
functions to configure the Synchronization unit:
(++) Select Input Trigger.
(++) Select Output Trigger.
(++) Select Master Slave Mode.
(++) ETR Configuration when used as external trigger.
(#) TIM specific interface management, this group includes all
needed functions to use the specific TIM interface:
(++) Encoder Interface Configuration.
(++) Select Hall Sensor.
(#) TIM specific remapping management includes the Remapping
configuration of specific timers
@endverbatim
******************************************************************************
* @attention
*
* <h2><center>© COPYRIGHT 2013 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "stm32l1xx_tim.h"
#include "stm32l1xx_rcc.h"
/** @addtogroup STM32L1xx_StdPeriph_Driver
* @{
*/
/** @defgroup TIM
* @brief TIM driver modules
* @{
*/
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* ---------------------- TIM registers bit mask ------------------------ */
#define SMCR_ETR_MASK ((uint16_t)0x00FF)
#define CCMR_OFFSET ((uint16_t)0x0018)
#define CCER_CCE_SET ((uint16_t)0x0001)
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
static void TI1_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter);
static void TI2_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter);
static void TI3_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter);
static void TI4_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter);
/* Private functions ---------------------------------------------------------*/
/** @defgroup TIM_Private_Functions
* @{
*/
/** @defgroup TIM_Group1 TimeBase management functions
* @brief TimeBase management functions
*
@verbatim
===============================================================================
##### TimeBase management functions #####
===============================================================================
*** TIM Driver: how to use it in Timing(Time base) Mode ***
===============================================================================
[..] To use the Timer in Timing(Time base) mode, the following steps are
mandatory:
(#) Enable TIM clock using
RCC_APBxPeriphClockCmd(RCC_APBxPeriph_TIMx, ENABLE) function.
(#) Fill the TIM_TimeBaseInitStruct with the desired parameters.
(#) Call TIM_TimeBaseInit(TIMx, &TIM_TimeBaseInitStruct) to configure
the Time Base unit with the corresponding configuration.
(#) Enable the NVIC if you need to generate the update interrupt.
(#) Enable the corresponding interrupt using the function
TIM_ITConfig(TIMx, TIM_IT_Update).
(#) Call the TIM_Cmd(ENABLE) function to enable the TIM counter.
[..]
(@) All other functions can be used seperatly to modify, if needed,
a specific feature of the Timer.
@endverbatim
* @{
*/
/**
* @brief Deinitializes the TIMx peripheral registers to their default reset values.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @retval None
*
*/
void TIM_DeInit(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
if (TIMx == TIM2)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM2, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM2, DISABLE);
}
else if (TIMx == TIM3)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM3, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM3, DISABLE);
}
else if (TIMx == TIM4)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM4, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM4, DISABLE);
}
else if (TIMx == TIM5)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM5, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM5, DISABLE);
}
else if (TIMx == TIM6)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM6, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM6, DISABLE);
}
else if (TIMx == TIM7)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM7, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_TIM7, DISABLE);
}
else if (TIMx == TIM9)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_TIM9, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_TIM9, DISABLE);
}
else if (TIMx == TIM10)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_TIM10, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_TIM10, DISABLE);
}
else
{
if (TIMx == TIM11)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_TIM11, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_TIM11, DISABLE);
}
}
}
/**
* @brief Initializes the TIMx Time Base Unit peripheral according to
* the specified parameters in the TIM_TimeBaseInitStruct.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_TimeBaseInitStruct: pointer to a TIM_TimeBaseInitTypeDef
* structure that contains the configuration information for
* the specified TIM peripheral.
* @retval None
*/
void TIM_TimeBaseInit(TIM_TypeDef* TIMx, TIM_TimeBaseInitTypeDef* TIM_TimeBaseInitStruct)
{
uint16_t tmpcr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_COUNTER_MODE(TIM_TimeBaseInitStruct->TIM_CounterMode));
assert_param(IS_TIM_CKD_DIV(TIM_TimeBaseInitStruct->TIM_ClockDivision));
tmpcr1 = TIMx->CR1;
if(((TIMx) == TIM2) || ((TIMx) == TIM3) || ((TIMx) == TIM4) || ((TIMx) == TIM5))
{
/* Select the Counter Mode */
tmpcr1 &= (uint16_t)(~((uint16_t)(TIM_CR1_DIR | TIM_CR1_CMS)));
tmpcr1 |= (uint32_t)TIM_TimeBaseInitStruct->TIM_CounterMode;
}
if(((TIMx) != TIM6) && ((TIMx) != TIM7))
{
/* Set the clock division */
tmpcr1 &= (uint16_t)(~((uint16_t)TIM_CR1_CKD));
tmpcr1 |= (uint32_t)TIM_TimeBaseInitStruct->TIM_ClockDivision;
}
TIMx->CR1 = tmpcr1;
/* Set the Autoreload value */
TIMx->ARR = TIM_TimeBaseInitStruct->TIM_Period ;
/* Set the Prescaler value */
TIMx->PSC = TIM_TimeBaseInitStruct->TIM_Prescaler;
/* Generate an update event to reload the Prescaler value immediatly */
TIMx->EGR = TIM_PSCReloadMode_Immediate;
}
/**
* @brief Fills each TIM_TimeBaseInitStruct member with its default value.
* @param TIM_TimeBaseInitStruct : pointer to a TIM_TimeBaseInitTypeDef
* structure which will be initialized.
* @retval None
*/
void TIM_TimeBaseStructInit(TIM_TimeBaseInitTypeDef* TIM_TimeBaseInitStruct)
{
/* Set the default configuration */
TIM_TimeBaseInitStruct->TIM_Period = 0xFFFFFFFF;
TIM_TimeBaseInitStruct->TIM_Prescaler = 0x0000;
TIM_TimeBaseInitStruct->TIM_ClockDivision = TIM_CKD_DIV1;
TIM_TimeBaseInitStruct->TIM_CounterMode = TIM_CounterMode_Up;
}
/**
* @brief Configures the TIMx Prescaler.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param Prescaler: specifies the Prescaler Register value.
* @param TIM_PSCReloadMode: specifies the TIM Prescaler Reload mode
* This parameter can be one of the following values:
* @arg TIM_PSCReloadMode_Update: The Prescaler is loaded at the update event.
* @arg TIM_PSCReloadMode_Immediate: The Prescaler is loaded immediatly.
* @retval None
*/
void TIM_PrescalerConfig(TIM_TypeDef* TIMx, uint16_t Prescaler, uint16_t TIM_PSCReloadMode)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_PRESCALER_RELOAD(TIM_PSCReloadMode));
/* Set the Prescaler value */
TIMx->PSC = Prescaler;
/* Set or reset the UG Bit */
TIMx->EGR = TIM_PSCReloadMode;
}
/**
* @brief Specifies the TIMx Counter Mode to be used.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_CounterMode: specifies the Counter Mode to be used
* This parameter can be one of the following values:
* @arg TIM_CounterMode_Up: TIM Up Counting Mode.
* @arg TIM_CounterMode_Down: TIM Down Counting Mode.
* @arg TIM_CounterMode_CenterAligned1: TIM Center Aligned Mode1.
* @arg TIM_CounterMode_CenterAligned2: TIM Center Aligned Mode2.
* @arg TIM_CounterMode_CenterAligned3: TIM Center Aligned Mode3.
* @retval None
*/
void TIM_CounterModeConfig(TIM_TypeDef* TIMx, uint16_t TIM_CounterMode)
{
uint16_t tmpcr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_COUNTER_MODE(TIM_CounterMode));
tmpcr1 = TIMx->CR1;
/* Reset the CMS and DIR Bits */
tmpcr1 &= (uint16_t)(~((uint16_t)(TIM_CR1_DIR | TIM_CR1_CMS)));
/* Set the Counter Mode */
tmpcr1 |= TIM_CounterMode;
/* Write to TIMx CR1 register */
TIMx->CR1 = tmpcr1;
}
/**
* @brief Sets the TIMx Counter Register value
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param Counter: specifies the Counter register new value.
* @retval None
*/
void TIM_SetCounter(TIM_TypeDef* TIMx, uint32_t Counter)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
/* Set the Counter Register value */
TIMx->CNT = Counter;
}
/**
* @brief Sets the TIMx Autoreload Register value
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param Autoreload: specifies the Autoreload register new value.
* @retval None
*/
void TIM_SetAutoreload(TIM_TypeDef* TIMx, uint32_t Autoreload)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
/* Set the Autoreload Register value */
TIMx->ARR = Autoreload;
}
/**
* @brief Gets the TIMx Counter value.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @retval Counter Register value.
*/
uint32_t TIM_GetCounter(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
/* Get the Counter Register value */
return TIMx->CNT;
}
/**
* @brief Gets the TIMx Prescaler value.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @retval Prescaler Register value.
*/
uint16_t TIM_GetPrescaler(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
/* Get the Prescaler Register value */
return TIMx->PSC;
}
/**
* @brief Enables or Disables the TIMx Update event.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param NewState: new state of the TIMx UDIS bit
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_UpdateDisableConfig(TIM_TypeDef* TIMx, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Set the Update Disable Bit */
TIMx->CR1 |= TIM_CR1_UDIS;
}
else
{
/* Reset the Update Disable Bit */
TIMx->CR1 &= (uint16_t)~((uint16_t)TIM_CR1_UDIS);
}
}
/**
* @brief Configures the TIMx Update Request Interrupt source.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_UpdateSource: specifies the Update source.
* This parameter can be one of the following values:
* @arg TIM_UpdateSource_Global: Source of update is the counter overflow/underflow
or the setting of UG bit, or an update generation
through the slave mode controller.
* @arg TIM_UpdateSource_Regular: Source of update is counter overflow/underflow.
* @retval None
*/
void TIM_UpdateRequestConfig(TIM_TypeDef* TIMx, uint16_t TIM_UpdateSource)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_UPDATE_SOURCE(TIM_UpdateSource));
if (TIM_UpdateSource != TIM_UpdateSource_Global)
{
/* Set the URS Bit */
TIMx->CR1 |= TIM_CR1_URS;
}
else
{
/* Reset the URS Bit */
TIMx->CR1 &= (uint16_t)~((uint16_t)TIM_CR1_URS);
}
}
/**
* @brief Enables or disables TIMx peripheral Preload register on ARR.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param NewState: new state of the TIMx peripheral Preload register
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_ARRPreloadConfig(TIM_TypeDef* TIMx, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Set the ARR Preload Bit */
TIMx->CR1 |= TIM_CR1_ARPE;
}
else
{
/* Reset the ARR Preload Bit */
TIMx->CR1 &= (uint16_t)~((uint16_t)TIM_CR1_ARPE);
}
}
/**
* @brief Selects the TIMx's One Pulse Mode.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_OPMode: specifies the OPM Mode to be used.
* This parameter can be one of the following values:
* @arg TIM_OPMode_Single:: TIM One Pulse Single Mode (Counter stops counting
* at the next update event (clearing the bit CEN)).
* @arg TIM_OPMode_Repetitive: TIM One Pulse Repetitive Mode
* (Counter is not stopped at update event).
* @retval None
*/
void TIM_SelectOnePulseMode(TIM_TypeDef* TIMx, uint16_t TIM_OPMode)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_OPM_MODE(TIM_OPMode));
/* Reset the OPM Bit */
TIMx->CR1 &= (uint16_t)~((uint16_t)TIM_CR1_OPM);
/* Configure the OPM Mode */
TIMx->CR1 |= TIM_OPMode;
}
/**
* @brief Sets the TIMx Clock Division value.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_CKD: specifies the clock division value.
* This parameter can be one of the following value:
* @arg TIM_CKD_DIV1: TDTS = Tck_tim.
* @arg TIM_CKD_DIV2: TDTS = 2*Tck_tim.
* @arg TIM_CKD_DIV4: TDTS = 4*Tck_tim.
* @retval None
*/
void TIM_SetClockDivision(TIM_TypeDef* TIMx, uint16_t TIM_CKD)
{
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_CKD_DIV(TIM_CKD));
/* Reset the CKD Bits */
TIMx->CR1 &= (uint16_t)~((uint16_t)TIM_CR1_CKD);
/* Set the CKD value */
TIMx->CR1 |= TIM_CKD;
}
/**
* @brief Enables or disables the specified TIM peripheral.
* @param TIMx: where x can be 2 to 11 to select the TIMx peripheral.
* @param NewState: new state of the TIMx peripheral.
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_Cmd(TIM_TypeDef* TIMx, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Enable the TIM Counter */
TIMx->CR1 |= TIM_CR1_CEN;
}
else
{
/* Disable the TIM Counter */
TIMx->CR1 &= (uint16_t)(~((uint16_t)TIM_CR1_CEN));
}
}
/**
* @}
*/
/** @defgroup TIM_Group2 Output Compare management functions
* @brief Output Compare management functions
*
@verbatim
===============================================================================
##### Output Compare management functions #####
===============================================================================
*** TIM Driver: how to use it in Output Compare Mode ***
===============================================================================
[..] To use the Timer in Output Compare mode, the following steps are mandatory:
(#) Enable TIM clock using
RCC_APBxPeriphClockCmd(RCC_APBxPeriph_TIMx, ENABLE) function.
(#) Configure the TIM pins by configuring the corresponding GPIO pins
(#) Configure the Time base unit as described in the first part of this
driver, if needed, else the Timer will run with the default
configuration:
(++) Autoreload value = 0xFFFF.
(++) Prescaler value = 0x0000.
(++) Counter mode = Up counting.
(++) Clock Division = TIM_CKD_DIV1.
(#) Fill the TIM_OCInitStruct with the desired parameters including:
(++) The TIM Output Compare mode: TIM_OCMode.
(++) TIM Output State: TIM_OutputState.
(++) TIM Pulse value: TIM_Pulse.
(++) TIM Output Compare Polarity : TIM_OCPolarity.
(#) Call TIM_OCxInit(TIMx, &TIM_OCInitStruct) to configure the desired
channel with the corresponding configuration.
(#) Call the TIM_Cmd(ENABLE) function to enable the TIM counter.
[..]
(@) All other functions can be used separately to modify, if needed,
a specific feature of the Timer.
(@) In case of PWM mode, this function is mandatory:
TIM_OCxPreloadConfig(TIMx, TIM_OCPreload_ENABLE).
(@) If the corresponding interrupt or DMA request are needed, the user should:
(#@) Enable the NVIC (or the DMA) to use the TIM interrupts (or DMA requests).
(#@) Enable the corresponding interrupt (or DMA request) using the function
TIM_ITConfig(TIMx, TIM_IT_CCx) (or TIM_DMA_Cmd(TIMx, TIM_DMA_CCx)).
@endverbatim
* @{
*/
/**
* @brief Initializes the TIMx Channel1 according to the specified
* parameters in the TIM_OCInitStruct.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_OCInitStruct: pointer to a TIM_OCInitTypeDef structure
* that contains the configuration information for the specified TIM
* peripheral.
* @retval None
*/
void TIM_OC1Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct)
{
uint16_t tmpccmrx = 0, tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_OC_MODE(TIM_OCInitStruct->TIM_OCMode));
assert_param(IS_TIM_OUTPUT_STATE(TIM_OCInitStruct->TIM_OutputState));
assert_param(IS_TIM_OC_POLARITY(TIM_OCInitStruct->TIM_OCPolarity));
/* Disable the Channel 1: Reset the CC1E Bit */
TIMx->CCER &= (uint16_t)(~(uint16_t)TIM_CCER_CC1E);
/* Get the TIMx CCER register value */
tmpccer = TIMx->CCER;
/* Get the TIMx CCMR1 register value */
tmpccmrx = TIMx->CCMR1;
/* Reset the Output Compare Mode Bits */
tmpccmrx &= (uint16_t)(~((uint16_t)TIM_CCMR1_OC1M));
tmpccmrx &= (uint16_t)(~((uint16_t)TIM_CCMR1_CC1S));
/* Select the Output Compare Mode */
tmpccmrx |= TIM_OCInitStruct->TIM_OCMode;
/* Reset the Output Polarity level */
tmpccer &= (uint16_t)(~((uint16_t)TIM_CCER_CC1P));
/* Set the Output Compare Polarity */
tmpccer |= TIM_OCInitStruct->TIM_OCPolarity;
/* Set the Output State */
tmpccer |= TIM_OCInitStruct->TIM_OutputState;
/* Set the Capture Compare Register value */
TIMx->CCR1 = TIM_OCInitStruct->TIM_Pulse;
/* Write to TIMx CCMR1 */
TIMx->CCMR1 = tmpccmrx;
/* Write to TIMx CCER */
TIMx->CCER = tmpccer;
}
/**
* @brief Initializes the TIMx Channel2 according to the specified
* parameters in the TIM_OCInitStruct.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_OCInitStruct: pointer to a TIM_OCInitTypeDef structure
* that contains the configuration information for the specified TIM
* peripheral.
* @retval None
*/
void TIM_OC2Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct)
{
uint16_t tmpccmrx = 0, tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_OC_MODE(TIM_OCInitStruct->TIM_OCMode));
assert_param(IS_TIM_OUTPUT_STATE(TIM_OCInitStruct->TIM_OutputState));
assert_param(IS_TIM_OC_POLARITY(TIM_OCInitStruct->TIM_OCPolarity));
/* Disable the Channel 2: Reset the CC2E Bit */
TIMx->CCER &= (uint16_t)(~((uint16_t)TIM_CCER_CC2E));
/* Get the TIMx CCER register value */
tmpccer = TIMx->CCER;
/* Get the TIMx CCMR1 register value */
tmpccmrx = TIMx->CCMR1;
/* Reset the Output Compare Mode Bits */
tmpccmrx &= (uint16_t)(~((uint16_t)TIM_CCMR1_OC2M));
/* Select the Output Compare Mode */
tmpccmrx |= (uint16_t)(TIM_OCInitStruct->TIM_OCMode << 8);
/* Reset the Output Polarity level */
tmpccer &= (uint16_t)(~((uint16_t)TIM_CCER_CC2P));
/* Set the Output Compare Polarity */
tmpccer |= (uint16_t)(TIM_OCInitStruct->TIM_OCPolarity << 4);
/* Set the Output State */
tmpccer |= (uint16_t)(TIM_OCInitStruct->TIM_OutputState << 4);
/* Set the Capture Compare Register value */
TIMx->CCR2 = TIM_OCInitStruct->TIM_Pulse;
/* Write to TIMx CCMR1 */
TIMx->CCMR1 = tmpccmrx;
/* Write to TIMx CCER */
TIMx->CCER = tmpccer;
}
/**
* @brief Initializes the TIMx Channel3 according to the specified
* parameters in the TIM_OCInitStruct.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCInitStruct: pointer to a TIM_OCInitTypeDef structure
* that contains the configuration information for the specified TIM
* peripheral.
* @retval None
*/
void TIM_OC3Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct)
{
uint16_t tmpccmrx = 0, tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OC_MODE(TIM_OCInitStruct->TIM_OCMode));
assert_param(IS_TIM_OUTPUT_STATE(TIM_OCInitStruct->TIM_OutputState));
assert_param(IS_TIM_OC_POLARITY(TIM_OCInitStruct->TIM_OCPolarity));
/* Disable the Channel 2: Reset the CC2E Bit */
TIMx->CCER &= (uint16_t)(~((uint16_t)TIM_CCER_CC3E));
/* Get the TIMx CCER register value */
tmpccer = TIMx->CCER;
/* Get the TIMx CCMR2 register value */
tmpccmrx = TIMx->CCMR2;
/* Reset the Output Compare Mode Bits */
tmpccmrx &= (uint16_t)(~((uint16_t)TIM_CCMR2_OC3M));
/* Select the Output Compare Mode */
tmpccmrx |= TIM_OCInitStruct->TIM_OCMode;
/* Reset the Output Polarity level */
tmpccer &= (uint16_t)(~((uint16_t)TIM_CCER_CC3P));
/* Set the Output Compare Polarity */
tmpccer |= (uint16_t)(TIM_OCInitStruct->TIM_OCPolarity << 8);
/* Set the Output State */
tmpccer |= (uint16_t)(TIM_OCInitStruct->TIM_OutputState << 8);
/* Set the Capture Compare Register value */
TIMx->CCR3 = TIM_OCInitStruct->TIM_Pulse;
/* Write to TIMx CCMR2 */
TIMx->CCMR2 = tmpccmrx;
/* Write to TIMx CCER */
TIMx->CCER = tmpccer;
}
/**
* @brief Initializes the TIMx Channel4 according to the specified
* parameters in the TIM_OCInitStruct.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCInitStruct: pointer to a TIM_OCInitTypeDef structure
* that contains the configuration information for the specified TIM
* peripheral.
* @retval None
*/
void TIM_OC4Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct)
{
uint16_t tmpccmrx = 0, tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OC_MODE(TIM_OCInitStruct->TIM_OCMode));
assert_param(IS_TIM_OUTPUT_STATE(TIM_OCInitStruct->TIM_OutputState));
assert_param(IS_TIM_OC_POLARITY(TIM_OCInitStruct->TIM_OCPolarity));
/* Disable the Channel 2: Reset the CC4E Bit */
TIMx->CCER &= (uint16_t)(~((uint16_t)TIM_CCER_CC4E));
/* Get the TIMx CCER register value */
tmpccer = TIMx->CCER;
/* Get the TIMx CCMR2 register value */
tmpccmrx = TIMx->CCMR2;
/* Reset the Output Compare Mode Bits */
tmpccmrx &= (uint16_t)(~((uint16_t)TIM_CCMR2_OC4M));
/* Select the Output Compare Mode */
tmpccmrx |= (uint16_t)(TIM_OCInitStruct->TIM_OCMode << 8);
/* Reset the Output Polarity level */
tmpccer &= (uint16_t)(~((uint16_t)TIM_CCER_CC4P));
/* Set the Output Compare Polarity */
tmpccer |= (uint16_t)(TIM_OCInitStruct->TIM_OCPolarity << 12);
/* Set the Output State */
tmpccer |= (uint16_t)(TIM_OCInitStruct->TIM_OutputState << 12);
/* Set the Capture Compare Register value */
TIMx->CCR4 = TIM_OCInitStruct->TIM_Pulse;
/* Write to TIMx CCMR2 */
TIMx->CCMR2 = tmpccmrx;
/* Write to TIMx CCER */
TIMx->CCER = tmpccer;
}
/**
* @brief Fills each TIM_OCInitStruct member with its default value.
* @param TIM_OCInitStruct : pointer to a TIM_OCInitTypeDef structure which will
* be initialized.
* @retval None
*/
void TIM_OCStructInit(TIM_OCInitTypeDef* TIM_OCInitStruct)
{
/* Set the default configuration */
TIM_OCInitStruct->TIM_OCMode = TIM_OCMode_Timing;
TIM_OCInitStruct->TIM_OutputState = TIM_OutputState_Disable;
TIM_OCInitStruct->TIM_Pulse = 0x0000;
TIM_OCInitStruct->TIM_OCPolarity = TIM_OCPolarity_High;
}
/**
* @brief Selects the TIM Output Compare Mode.
* @note This function disables the selected channel before changing the Output
* Compare Mode.
* User has to enable this channel using TIM_CCxCmd and TIM_CCxNCmd functions.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_Channel: specifies the TIM Channel.
* This parameter can be one of the following values:
* @arg TIM_Channel_1: TIM Channel 1.
* @arg TIM_Channel_2: TIM Channel 2.
* @arg TIM_Channel_3: TIM Channel 3.
* @arg TIM_Channel_4: TIM Channel 4.
* @param TIM_OCMode: specifies the TIM Output Compare Mode.
* This parameter can be one of the following values:
* @arg TIM_OCMode_Timing: TIM Output Compare Timing mode.
* @arg TIM_OCMode_Active: TIM Output Compare Active mode.
* @arg TIM_OCMode_Inactive: TIM Output Compare Inactive mode.
* @arg TIM_OCMode_Toggle: TIM Output Compare Toggle mode.
* @arg TIM_OCMode_PWM1: TIM Output Compare PWM1 mode.
* @arg TIM_OCMode_PWM2: TIM Output Compare PWM2 mode.
* @arg TIM_ForcedAction_Active: TIM Forced Action Active mode.
* @arg TIM_ForcedAction_InActive: TIM Forced Action Inactive mode.
* @retval None
*/
void TIM_SelectOCxM(TIM_TypeDef* TIMx, uint16_t TIM_Channel, uint16_t TIM_OCMode)
{
uint32_t tmp = 0;
uint16_t tmp1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_OCM(TIM_OCMode));
tmp = (uint32_t) TIMx;
tmp += CCMR_OFFSET;
tmp1 = CCER_CCE_SET << (uint16_t)TIM_Channel;
/* Disable the Channel: Reset the CCxE Bit */
TIMx->CCER &= (uint16_t) ~tmp1;
if((TIM_Channel == TIM_Channel_1) ||(TIM_Channel == TIM_Channel_3))
{
tmp += (TIM_Channel>>1);
/* Reset the OCxM bits in the CCMRx register */
*(__IO uint32_t *) tmp &= (uint32_t)~((uint32_t)TIM_CCMR1_OC1M);
/* Configure the OCxM bits in the CCMRx register */
*(__IO uint32_t *) tmp |= TIM_OCMode;
}
else
{
tmp += (uint16_t)(TIM_Channel - (uint16_t)4)>> (uint16_t)1;
/* Reset the OCxM bits in the CCMRx register */
*(__IO uint32_t *) tmp &= (uint32_t)~((uint32_t)TIM_CCMR1_OC2M);
/* Configure the OCxM bits in the CCMRx register */
*(__IO uint32_t *) tmp |= (uint16_t)(TIM_OCMode << 8);
}
}
/**
* @brief Sets the TIMx Capture Compare1 Register value
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param Compare1: specifies the Capture Compare1 register new value.
* @retval None
*/
void TIM_SetCompare1(TIM_TypeDef* TIMx, uint32_t Compare1)
{
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
/* Set the Capture Compare1 Register value */
TIMx->CCR1 = Compare1;
}
/**
* @brief Sets the TIMx Capture Compare2 Register value.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param Compare2: specifies the Capture Compare2 register new value.
* @retval None
*/
void TIM_SetCompare2(TIM_TypeDef* TIMx, uint32_t Compare2)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
/* Set the Capture Compare2 Register value */
TIMx->CCR2 = Compare2;
}
/**
* @brief Sets the TIMx Capture Compare3 Register value.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param Compare3: specifies the Capture Compare3 register new value.
* @retval None
*/
void TIM_SetCompare3(TIM_TypeDef* TIMx, uint32_t Compare3)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
/* Set the Capture Compare3 Register value */
TIMx->CCR3 = Compare3;
}
/**
* @brief Sets the TIMx Capture Compare4 Register value.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param Compare4: specifies the Capture Compare4 register new value.
* @retval None
*/
void TIM_SetCompare4(TIM_TypeDef* TIMx, uint32_t Compare4)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
/* Set the Capture Compare4 Register value */
TIMx->CCR4 = Compare4;
}
/**
* @brief Forces the TIMx output 1 waveform to active or inactive level.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_ForcedAction: specifies the forced Action to be set to the output waveform.
* This parameter can be one of the following values:
* @arg TIM_ForcedAction_Active: Force active level on OC1REF.
* @arg TIM_ForcedAction_InActive: Force inactive level on OC1REF.
* @retval None
*/
void TIM_ForcedOC1Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_FORCED_ACTION(TIM_ForcedAction));
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC1M Bits */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC1M);
/* Configure The Forced output Mode */
tmpccmr1 |= TIM_ForcedAction;
/* Write to TIMx CCMR1 register */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Forces the TIMx output 2 waveform to active or inactive level.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM
* peripheral.
* @param TIM_ForcedAction: specifies the forced Action to be set to the output waveform.
* This parameter can be one of the following values:
* @arg TIM_ForcedAction_Active: Force active level on OC2REF.
* @arg TIM_ForcedAction_InActive: Force inactive level on OC2REF.
* @retval None
*/
void TIM_ForcedOC2Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_FORCED_ACTION(TIM_ForcedAction));
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC2M Bits */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC2M);
/* Configure The Forced output Mode */
tmpccmr1 |= (uint16_t)(TIM_ForcedAction << 8);
/* Write to TIMx CCMR1 register */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Forces the TIMx output 3 waveform to active or inactive level.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_ForcedAction: specifies the forced Action to be set to the output waveform.
* This parameter can be one of the following values:
* @arg TIM_ForcedAction_Active: Force active level on OC3REF.
* @arg TIM_ForcedAction_InActive: Force inactive level on OC3REF.
* @retval None
*/
void TIM_ForcedOC3Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_FORCED_ACTION(TIM_ForcedAction));
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC1M Bits */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC3M);
/* Configure The Forced output Mode */
tmpccmr2 |= TIM_ForcedAction;
/* Write to TIMx CCMR2 register */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Forces the TIMx output 4 waveform to active or inactive level.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_ForcedAction: specifies the forced Action to be set to the output waveform.
* This parameter can be one of the following values:
* @arg TIM_ForcedAction_Active: Force active level on OC4REF.
* @arg TIM_ForcedAction_InActive: Force inactive level on OC4REF.
* @retval None
*/
void TIM_ForcedOC4Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_FORCED_ACTION(TIM_ForcedAction));
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC2M Bits */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC4M);
/* Configure The Forced output Mode */
tmpccmr2 |= (uint16_t)(TIM_ForcedAction << 8);
/* Write to TIMx CCMR2 register */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Enables or disables the TIMx peripheral Preload register on CCR1.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_OCPreload: new state of the TIMx peripheral Preload register.
* This parameter can be one of the following values:
* @arg TIM_OCPreload_Enable: Enable TIM output compare Preload
* @arg TIM_OCPreload_Disable: Disable TIM output compare Preload
* @retval None
*/
void TIM_OC1PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_OCPRELOAD_STATE(TIM_OCPreload));
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC1PE Bit */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC1PE);
/* Enable or Disable the Output Compare Preload feature */
tmpccmr1 |= TIM_OCPreload;
/* Write to TIMx CCMR1 register */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Enables or disables the TIMx peripheral Preload register on CCR2.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_OCPreload: new state of the TIMx peripheral Preload register.
* This parameter can be one of the following values:
* @arg TIM_OCPreload_Enable: Enable TIM output compare Preload
* @arg TIM_OCPreload_Disable: Disable TIM output compare Preload
* @retval None
*/
void TIM_OC2PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_OCPRELOAD_STATE(TIM_OCPreload));
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC2PE Bit */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC2PE);
/* Enable or Disable the Output Compare Preload feature */
tmpccmr1 |= (uint16_t)(TIM_OCPreload << 8);
/* Write to TIMx CCMR1 register */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Enables or disables the TIMx peripheral Preload register on CCR3.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCPreload: new state of the TIMx peripheral Preload register.
* This parameter can be one of the following values:
* @arg TIM_OCPreload_Enable: Enable TIM output compare Preload
* @arg TIM_OCPreload_Disable: Disable TIM output compare Preload
* @retval None
*/
void TIM_OC3PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OCPRELOAD_STATE(TIM_OCPreload));
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC3PE Bit */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC3PE);
/* Enable or Disable the Output Compare Preload feature */
tmpccmr2 |= TIM_OCPreload;
/* Write to TIMx CCMR2 register */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Enables or disables the TIMx peripheral Preload register on CCR4.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCPreload: new state of the TIMx peripheral Preload register.
* This parameter can be one of the following values:
* @arg TIM_OCPreload_Enable: Enable TIM output compare Preload
* @arg TIM_OCPreload_Disable: Disable TIM output compare Preload
* @retval None
*/
void TIM_OC4PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OCPRELOAD_STATE(TIM_OCPreload));
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC4PE Bit */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC4PE);
/* Enable or Disable the Output Compare Preload feature */
tmpccmr2 |= (uint16_t)(TIM_OCPreload << 8);
/* Write to TIMx CCMR2 register */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Configures the TIMx Output Compare 1 Fast feature.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_OCFast: new state of the Output Compare Fast Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCFast_Enable: TIM output compare fast enable.
* @arg TIM_OCFast_Disable: TIM output compare fast disable.
* @retval None
*/
void TIM_OC1FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_OCFAST_STATE(TIM_OCFast));
/* Get the TIMx CCMR1 register value */
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC1FE Bit */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC1FE);
/* Enable or Disable the Output Compare Fast Bit */
tmpccmr1 |= TIM_OCFast;
/* Write to TIMx CCMR1 */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Configures the TIMx Output Compare 2 Fast feature.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_OCFast: new state of the Output Compare Fast Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCFast_Enable: TIM output compare fast enable.
* @arg TIM_OCFast_Disable: TIM output compare fast disable.
* @retval None
*/
void TIM_OC2FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_OCFAST_STATE(TIM_OCFast));
/* Get the TIMx CCMR1 register value */
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC2FE Bit */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC2FE);
/* Enable or Disable the Output Compare Fast Bit */
tmpccmr1 |= (uint16_t)(TIM_OCFast << 8);
/* Write to TIMx CCMR1 */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Configures the TIMx Output Compare 3 Fast feature.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCFast: new state of the Output Compare Fast Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCFast_Enable: TIM output compare fast enable.
* @arg TIM_OCFast_Disable: TIM output compare fast disable.
* @retval None
*/
void TIM_OC3FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OCFAST_STATE(TIM_OCFast));
/* Get the TIMx CCMR2 register value */
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC3FE Bit */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC3FE);
/* Enable or Disable the Output Compare Fast Bit */
tmpccmr2 |= TIM_OCFast;
/* Write to TIMx CCMR2 */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Configures the TIMx Output Compare 4 Fast feature.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCFast: new state of the Output Compare Fast Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCFast_Enable: TIM output compare fast enable.
* @arg TIM_OCFast_Disable: TIM output compare fast disable.
* @retval None
*/
void TIM_OC4FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OCFAST_STATE(TIM_OCFast));
/* Get the TIMx CCMR2 register value */
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC4FE Bit */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC4FE);
/* Enable or Disable the Output Compare Fast Bit */
tmpccmr2 |= (uint16_t)(TIM_OCFast << 8);
/* Write to TIMx CCMR2 */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Clears or safeguards the OCREF1 signal on an external event
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_OCClear: new state of the Output Compare Clear Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCClear_Enable: TIM Output clear enable.
* @arg TIM_OCClear_Disable: TIM Output clear disable.
* @retval None
*/
void TIM_ClearOC1Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_OCCLEAR_STATE(TIM_OCClear));
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC1CE Bit */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC1CE);
/* Enable or Disable the Output Compare Clear Bit */
tmpccmr1 |= TIM_OCClear;
/* Write to TIMx CCMR1 register */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Clears or safeguards the OCREF2 signal on an external event
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_OCClear: new state of the Output Compare Clear Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCClear_Enable: TIM Output clear enable.
* @arg TIM_OCClear_Disable: TIM Output clear disable .
* @retval None
*/
void TIM_ClearOC2Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear)
{
uint16_t tmpccmr1 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_OCCLEAR_STATE(TIM_OCClear));
tmpccmr1 = TIMx->CCMR1;
/* Reset the OC2CE Bit */
tmpccmr1 &= (uint16_t)~((uint16_t)TIM_CCMR1_OC2CE);
/* Enable or Disable the Output Compare Clear Bit */
tmpccmr1 |= (uint16_t)(TIM_OCClear << 8);
/* Write to TIMx CCMR1 register */
TIMx->CCMR1 = tmpccmr1;
}
/**
* @brief Clears or safeguards the OCREF3 signal on an external event
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCClear: new state of the Output Compare Clear Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCClear_Enable: TIM Output clear enable.
* @arg TIM_OCClear_Disable: TIM Output clear disable.
* @retval None
*/
void TIM_ClearOC3Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OCCLEAR_STATE(TIM_OCClear));
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC3CE Bit */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC3CE);
/* Enable or Disable the Output Compare Clear Bit */
tmpccmr2 |= TIM_OCClear;
/* Write to TIMx CCMR2 register */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Clears or safeguards the OCREF4 signal on an external event
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCClear: new state of the Output Compare Clear Enable Bit.
* This parameter can be one of the following values:
* @arg TIM_OCClear_Enable: TIM Output clear enable.
* @arg TIM_OCClear_Disable: TIM Output clear disable.
* @retval None
*/
void TIM_ClearOC4Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear)
{
uint16_t tmpccmr2 = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OCCLEAR_STATE(TIM_OCClear));
tmpccmr2 = TIMx->CCMR2;
/* Reset the OC4CE Bit */
tmpccmr2 &= (uint16_t)~((uint16_t)TIM_CCMR2_OC4CE);
/* Enable or Disable the Output Compare Clear Bit */
tmpccmr2 |= (uint16_t)(TIM_OCClear << 8);
/* Write to TIMx CCMR2 register */
TIMx->CCMR2 = tmpccmr2;
}
/**
* @brief Configures the TIMx channel 1 polarity.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_OCPolarity: specifies the OC1 Polarity.
* This parameter can be one of the following values:
* @arg TIM_OCPolarity_High: Output Compare active high.
* @arg TIM_OCPolarity_Low: Output Compare active low.
* @retval None
*/
void TIM_OC1PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity)
{
uint16_t tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_OC_POLARITY(TIM_OCPolarity));
tmpccer = TIMx->CCER;
/* Set or Reset the CC1P Bit */
tmpccer &= (uint16_t)~((uint16_t)TIM_CCER_CC1P);
tmpccer |= TIM_OCPolarity;
/* Write to TIMx CCER register */
TIMx->CCER = tmpccer;
}
/**
* @brief Configures the TIMx channel 2 polarity.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_OCPolarity: specifies the OC2 Polarity.
* This parameter can be one of the following values:
* @arg TIM_OCPolarity_High: Output Compare active high.
* @arg TIM_OCPolarity_Low: Output Compare active low.
* @retval None
*/
void TIM_OC2PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity)
{
uint16_t tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_OC_POLARITY(TIM_OCPolarity));
tmpccer = TIMx->CCER;
/* Set or Reset the CC2P Bit */
tmpccer &= (uint16_t)~((uint16_t)TIM_CCER_CC2P);
tmpccer |= (uint16_t)(TIM_OCPolarity << 4);
/* Write to TIMx CCER register */
TIMx->CCER = tmpccer;
}
/**
* @brief Configures the TIMx channel 3 polarity.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCPolarity: specifies the OC3 Polarity.
* This parameter can be one of the following values:
* @arg TIM_OCPolarity_High: Output Compare active high.
* @arg TIM_OCPolarity_Low: Output Compare active low.
* @retval None
*/
void TIM_OC3PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity)
{
uint16_t tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OC_POLARITY(TIM_OCPolarity));
tmpccer = TIMx->CCER;
/* Set or Reset the CC3P Bit */
tmpccer &= (uint16_t)~((uint16_t)TIM_CCER_CC3P);
tmpccer |= (uint16_t)(TIM_OCPolarity << 8);
/* Write to TIMx CCER register */
TIMx->CCER = tmpccer;
}
/**
* @brief Configures the TIMx channel 4 polarity.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCPolarity: specifies the OC4 Polarity.
* This parameter can be one of the following values:
* @arg TIM_OCPolarity_High: Output Compare active high.
* @arg TIM_OCPolarity_Low: Output Compare active low.
* @retval None
*/
void TIM_OC4PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity)
{
uint16_t tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_OC_POLARITY(TIM_OCPolarity));
tmpccer = TIMx->CCER;
/* Set or Reset the CC4P Bit */
tmpccer &= (uint16_t)~((uint16_t)TIM_CCER_CC4P);
tmpccer |= (uint16_t)(TIM_OCPolarity << 12);
/* Write to TIMx CCER register */
TIMx->CCER = tmpccer;
}
/**
* @brief Selects the OCReference Clear source.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_OCReferenceClear: specifies the OCReference Clear source.
* This parameter can be one of the following values:
* @arg TIM_OCReferenceClear_ETRF: The internal OCreference clear input is connected to ETRF.
* @arg TIM_OCReferenceClear_OCREFCLR: The internal OCreference clear input is connected to OCREF_CLR input.
* @retval None
*/
void TIM_SelectOCREFClear(TIM_TypeDef* TIMx, uint16_t TIM_OCReferenceClear)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(TIM_OCREFERENCECECLEAR_SOURCE(TIM_OCReferenceClear));
/* Set the TIM_OCReferenceClear source */
TIMx->SMCR &= (uint16_t)~((uint16_t)TIM_SMCR_OCCS);
TIMx->SMCR |= TIM_OCReferenceClear;
}
/**
* @brief Enables or disables the TIM Capture Compare Channel x.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_Channel: specifies the TIM Channel.
* This parameter can be one of the following values:
* @arg TIM_Channel_1: TIM Channel 1.
* @arg TIM_Channel_2: TIM Channel 2.
* @arg TIM_Channel_3: TIM Channel 3.
* @arg TIM_Channel_4: TIM Channel 4.
* @param TIM_CCx: specifies the TIM Channel CCxE bit new state.
* This parameter can be: TIM_CCx_Enable or TIM_CCx_Disable.
* @retval None
*/
void TIM_CCxCmd(TIM_TypeDef* TIMx, uint16_t TIM_Channel, uint16_t TIM_CCx)
{
uint16_t tmp = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_CCX(TIM_CCx));
tmp = CCER_CCE_SET << TIM_Channel;
/* Reset the CCxE Bit */
TIMx->CCER &= (uint16_t)~ tmp;
/* Set or reset the CCxE Bit */
TIMx->CCER |= (uint16_t)(TIM_CCx << TIM_Channel);
}
/**
* @}
*/
/** @defgroup TIM_Group3 Input Capture management functions
* @brief Input Capture management functions
*
@verbatim
===============================================================================
##### Input Capture management functions #####
===============================================================================
*** TIM Driver: how to use it in Input Capture Mode ***
===============================================================================
[..] To use the Timer in Input Capture mode, the following steps are mandatory:
(#) Enable TIM clock using RCC_APBxPeriphClockCmd(RCC_APBxPeriph_TIMx, ENABLE)
function.
(#) Configure the TIM pins by configuring the corresponding GPIO pins.
(#) Configure the Time base unit as described in the first part of this
driver, if needed, else the Timer will run with the default configuration:
(++) Autoreload value = 0xFFFF.
(++) Prescaler value = 0x0000.
(++) Counter mode = Up counting.
(++) Clock Division = TIM_CKD_DIV1.
(#) Fill the TIM_ICInitStruct with the desired parameters including:
(++) TIM Channel: TIM_Channel.
(++) TIM Input Capture polarity: TIM_ICPolarity.
(++) TIM Input Capture selection: TIM_ICSelection.
(++) TIM Input Capture Prescaler: TIM_ICPrescaler.
(++) TIM Input CApture filter value: TIM_ICFilter.
(#) Call TIM_ICInit(TIMx, &TIM_ICInitStruct) to configure the desired
channel with the corresponding configuration and to measure only
frequency or duty cycle of the input signal,or, Call
TIM_PWMIConfig(TIMx, &TIM_ICInitStruct) to configure the desired
channels with the corresponding configuration and to measure the
frequency and the duty cycle of the input signal.
(#) Enable the NVIC or the DMA to read the measured frequency.
(#) Enable the corresponding interrupt (or DMA request) to read
the Captured value, using the function TIM_ITConfig(TIMx, TIM_IT_CCx)
(or TIM_DMA_Cmd(TIMx, TIM_DMA_CCx)).
(#) Call the TIM_Cmd(ENABLE) function to enable the TIM counter.
(#) Use TIM_GetCapturex(TIMx); to read the captured value.
[..]
(@) All other functions can be used separately to modify, if needed,
a specific feature of the Timer.
@endverbatim
* @{
*/
/**
* @brief Initializes the TIM peripheral according to the specified
* parameters in the TIM_ICInitStruct.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_ICInitStruct: pointer to a TIM_ICInitTypeDef structure
* that contains the configuration information for the specified TIM
* peripheral.
* @retval None
*/
void TIM_ICInit(TIM_TypeDef* TIMx, TIM_ICInitTypeDef* TIM_ICInitStruct)
{
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_IC_POLARITY(TIM_ICInitStruct->TIM_ICPolarity));
assert_param(IS_TIM_IC_SELECTION(TIM_ICInitStruct->TIM_ICSelection));
assert_param(IS_TIM_IC_PRESCALER(TIM_ICInitStruct->TIM_ICPrescaler));
assert_param(IS_TIM_IC_FILTER(TIM_ICInitStruct->TIM_ICFilter));
if (TIM_ICInitStruct->TIM_Channel == TIM_Channel_1)
{
/* TI1 Configuration */
TI1_Config(TIMx, TIM_ICInitStruct->TIM_ICPolarity,
TIM_ICInitStruct->TIM_ICSelection,
TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC1Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
}
else if (TIM_ICInitStruct->TIM_Channel == TIM_Channel_2)
{
/* TI2 Configuration */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
TI2_Config(TIMx, TIM_ICInitStruct->TIM_ICPolarity,
TIM_ICInitStruct->TIM_ICSelection,
TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC2Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
}
else if (TIM_ICInitStruct->TIM_Channel == TIM_Channel_3)
{
/* TI3 Configuration */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
TI3_Config(TIMx, TIM_ICInitStruct->TIM_ICPolarity,
TIM_ICInitStruct->TIM_ICSelection,
TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC3Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
}
else
{
/* TI4 Configuration */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
TI4_Config(TIMx, TIM_ICInitStruct->TIM_ICPolarity,
TIM_ICInitStruct->TIM_ICSelection,
TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC4Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
}
}
/**
* @brief Fills each TIM_ICInitStruct member with its default value.
* @param TIM_ICInitStruct : pointer to a TIM_ICInitTypeDef structure which will
* be initialized.
* @retval None
*/
void TIM_ICStructInit(TIM_ICInitTypeDef* TIM_ICInitStruct)
{
/* Set the default configuration */
TIM_ICInitStruct->TIM_Channel = TIM_Channel_1;
TIM_ICInitStruct->TIM_ICPolarity = TIM_ICPolarity_Rising;
TIM_ICInitStruct->TIM_ICSelection = TIM_ICSelection_DirectTI;
TIM_ICInitStruct->TIM_ICPrescaler = TIM_ICPSC_DIV1;
TIM_ICInitStruct->TIM_ICFilter = 0x00;
}
/**
* @brief Configures the TIM peripheral according to the specified
* parameters in the TIM_ICInitStruct to measure an external PWM signal.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_ICInitStruct: pointer to a TIM_ICInitTypeDef structure
* that contains the configuration information for the specified TIM
* peripheral.
* @retval None
*/
void TIM_PWMIConfig(TIM_TypeDef* TIMx, TIM_ICInitTypeDef* TIM_ICInitStruct)
{
uint16_t icoppositepolarity = TIM_ICPolarity_Rising;
uint16_t icoppositeselection = TIM_ICSelection_DirectTI;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
/* Select the Opposite Input Polarity */
if (TIM_ICInitStruct->TIM_ICPolarity == TIM_ICPolarity_Rising)
{
icoppositepolarity = TIM_ICPolarity_Falling;
}
else
{
icoppositepolarity = TIM_ICPolarity_Rising;
}
/* Select the Opposite Input */
if (TIM_ICInitStruct->TIM_ICSelection == TIM_ICSelection_DirectTI)
{
icoppositeselection = TIM_ICSelection_IndirectTI;
}
else
{
icoppositeselection = TIM_ICSelection_DirectTI;
}
if (TIM_ICInitStruct->TIM_Channel == TIM_Channel_1)
{
/* TI1 Configuration */
TI1_Config(TIMx, TIM_ICInitStruct->TIM_ICPolarity, TIM_ICInitStruct->TIM_ICSelection,
TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC1Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
/* TI2 Configuration */
TI2_Config(TIMx, icoppositepolarity, icoppositeselection, TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC2Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
}
else
{
/* TI2 Configuration */
TI2_Config(TIMx, TIM_ICInitStruct->TIM_ICPolarity, TIM_ICInitStruct->TIM_ICSelection,
TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC2Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
/* TI1 Configuration */
TI1_Config(TIMx, icoppositepolarity, icoppositeselection, TIM_ICInitStruct->TIM_ICFilter);
/* Set the Input Capture Prescaler value */
TIM_SetIC1Prescaler(TIMx, TIM_ICInitStruct->TIM_ICPrescaler);
}
}
/**
* @brief Gets the TIMx Input Capture 1 value.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @retval Capture Compare 1 Register value.
*/
uint32_t TIM_GetCapture1(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
/* Get the Capture 1 Register value */
return TIMx->CCR1;
}
/**
* @brief Gets the TIMx Input Capture 2 value.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @retval Capture Compare 2 Register value.
*/
uint32_t TIM_GetCapture2(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
/* Get the Capture 2 Register value */
return TIMx->CCR2;
}
/**
* @brief Gets the TIMx Input Capture 3 value.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @retval Capture Compare 3 Register value.
*/
uint32_t TIM_GetCapture3(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
/* Get the Capture 3 Register value */
return TIMx->CCR3;
}
/**
* @brief Gets the TIMx Input Capture 4 value.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @retval Capture Compare 4 Register value.
*/
uint32_t TIM_GetCapture4(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
/* Get the Capture 4 Register value */
return TIMx->CCR4;
}
/**
* @brief Sets the TIMx Input Capture 1 prescaler.
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_ICPSC: specifies the Input Capture1 prescaler new value.
* This parameter can be one of the following values:
* @arg TIM_ICPSC_DIV1: no prescaler.
* @arg TIM_ICPSC_DIV2: capture is done once every 2 events.
* @arg TIM_ICPSC_DIV4: capture is done once every 4 events.
* @arg TIM_ICPSC_DIV8: capture is done once every 8 events.
* @retval None
*/
void TIM_SetIC1Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC)
{
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_IC_PRESCALER(TIM_ICPSC));
/* Reset the IC1PSC Bits */
TIMx->CCMR1 &= (uint16_t)~((uint16_t)TIM_CCMR1_IC1PSC);
/* Set the IC1PSC value */
TIMx->CCMR1 |= TIM_ICPSC;
}
/**
* @brief Sets the TIMx Input Capture 2 prescaler.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_ICPSC: specifies the Input Capture2 prescaler new value.
* This parameter can be one of the following values:
* @arg TIM_ICPSC_DIV1: no prescaler.
* @arg TIM_ICPSC_DIV2: capture is done once every 2 events.
* @arg TIM_ICPSC_DIV4: capture is done once every 4 events.
* @arg TIM_ICPSC_DIV8: capture is done once every 8 events.
* @retval None
*/
void TIM_SetIC2Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_IC_PRESCALER(TIM_ICPSC));
/* Reset the IC2PSC Bits */
TIMx->CCMR1 &= (uint16_t)~((uint16_t)TIM_CCMR1_IC2PSC);
/* Set the IC2PSC value */
TIMx->CCMR1 |= (uint16_t)(TIM_ICPSC << 8);
}
/**
* @brief Sets the TIMx Input Capture 3 prescaler.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_ICPSC: specifies the Input Capture3 prescaler new value.
* This parameter can be one of the following values:
* @arg TIM_ICPSC_DIV1: no prescaler.
* @arg TIM_ICPSC_DIV2: capture is done once every 2 events.
* @arg TIM_ICPSC_DIV4: capture is done once every 4 events.
* @arg TIM_ICPSC_DIV8: capture is done once every 8 events.
* @retval None
*/
void TIM_SetIC3Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_IC_PRESCALER(TIM_ICPSC));
/* Reset the IC3PSC Bits */
TIMx->CCMR2 &= (uint16_t)~((uint16_t)TIM_CCMR2_IC3PSC);
/* Set the IC3PSC value */
TIMx->CCMR2 |= TIM_ICPSC;
}
/**
* @brief Sets the TIMx Input Capture 4 prescaler.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_ICPSC: specifies the Input Capture4 prescaler new value.
* This parameter can be one of the following values:
* @arg TIM_ICPSC_DIV1: no prescaler.
* @arg TIM_ICPSC_DIV2: capture is done once every 2 events.
* @arg TIM_ICPSC_DIV4: capture is done once every 4 events.
* @arg TIM_ICPSC_DIV8: capture is done once every 8 events.
* @retval None
*/
void TIM_SetIC4Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_IC_PRESCALER(TIM_ICPSC));
/* Reset the IC4PSC Bits */
TIMx->CCMR2 &= (uint16_t)~((uint16_t)TIM_CCMR2_IC4PSC);
/* Set the IC4PSC value */
TIMx->CCMR2 |= (uint16_t)(TIM_ICPSC << 8);
}
/**
* @}
*/
/** @defgroup TIM_Group4 Interrupts DMA and flags management functions
* @brief Interrupts, DMA and flags management functions
*
@verbatim
===============================================================================
##### Interrupts, DMA and flags management functions #####
===============================================================================
@endverbatim
* @{
*/
/**
* @brief Enables or disables the specified TIM interrupts.
* @param TIMx: where x can be 2 to 11 to select the TIMx peripheral.
* @param TIM_IT: specifies the TIM interrupts sources to be enabled or disabled.
* This parameter can be any combination of the following values:
* @arg TIM_IT_Update: TIM update Interrupt source.
* @arg TIM_IT_CC1: TIM Capture Compare 1 Interrupt source.
* @arg TIM_IT_CC2: TIM Capture Compare 2 Interrupt source.
* @arg TIM_IT_CC3: TIM Capture Compare 3 Interrupt source.
* @arg TIM_IT_CC4: TIM Capture Compare 4 Interrupt source.
* @arg TIM_IT_Trigger: TIM Trigger Interrupt source.
* @note TIM6 and TIM7 can only generate an update interrupt.
* @note TIM_IT_CC2, TIM_IT_CC3, TIM_IT_CC4 and TIM_IT_Trigger can not be used with TIM10 and TIM11.
* @note TIM_IT_CC3, TIM_IT_CC4 can not be used with TIM9.
* @param NewState: new state of the TIM interrupts.
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_ITConfig(TIM_TypeDef* TIMx, uint16_t TIM_IT, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_IT(TIM_IT));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Enable the Interrupt sources */
TIMx->DIER |= TIM_IT;
}
else
{
/* Disable the Interrupt sources */
TIMx->DIER &= (uint16_t)~TIM_IT;
}
}
/**
* @brief Configures the TIMx event to be generate by software.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_EventSource: specifies the event source.
* This parameter can be one or more of the following values:
* @arg TIM_EventSource_Update: Timer update Event source.
* @arg TIM_EventSource_CC1: Timer Capture Compare 1 Event source.
* @arg TIM_EventSource_CC2: Timer Capture Compare 2 Event source.
* @arg TIM_EventSource_CC3: Timer Capture Compare 3 Event source.
* @arg TIM_EventSource_CC4: Timer Capture Compare 4 Event source.
* @arg TIM_EventSource_Trigger: Timer Trigger Event source.
* @note TIM6 and TIM7 can only generate an update event.
* @note TIM9 can only generate an update event, Capture Compare 1 event,
* Capture Compare 2 event and TIM_EventSource_Trigger.
* @note TIM10 and TIM11 can only generate an update event and Capture Compare 1 event.
* @retval None
*/
void TIM_GenerateEvent(TIM_TypeDef* TIMx, uint16_t TIM_EventSource)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_EVENT_SOURCE(TIM_EventSource));
/* Set the event sources */
TIMx->EGR = TIM_EventSource;
}
/**
* @brief Checks whether the specified TIM flag is set or not.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_FLAG: specifies the flag to check.
* This parameter can be one of the following values:
* @arg TIM_FLAG_Update: TIM update Flag.
* @arg TIM_FLAG_CC1: TIM Capture Compare 1 Flag.
* @arg TIM_FLAG_CC2: TIM Capture Compare 2 Flag.
* @arg TIM_FLAG_CC3: TIM Capture Compare 3 Flag.
* @arg TIM_FLAG_CC4: TIM Capture Compare 4 Flag.
* @arg TIM_FLAG_Trigger: TIM Trigger Flag.
* @arg TIM_FLAG_CC1OF: TIM Capture Compare 1 overcapture Flag.
* @arg TIM_FLAG_CC2OF: TIM Capture Compare 2 overcapture Flag.
* @arg TIM_FLAG_CC3OF: TIM Capture Compare 3 overcapture Flag.
* @arg TIM_FLAG_CC4OF: TIM Capture Compare 4 overcapture Flag.
*
* @note TIM6 and TIM7 can have only one update flag.
* @note TIM9 can have only update flag, TIM_FLAG_CC1, TIM_FLAG_CC2 and TIM_FLAG_Trigger,
* TIM_FLAG_CC1OF or TIM_FLAG_CC2OF flags.
* @note TIM10 and TIM11 can have only update flag, TIM_FLAG_CC1 or TIM_FLAG_CC1OF flags
* @retval The new state of TIM_FLAG (SET or RESET).
*/
FlagStatus TIM_GetFlagStatus(TIM_TypeDef* TIMx, uint16_t TIM_FLAG)
{
ITStatus bitstatus = RESET;
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_GET_FLAG(TIM_FLAG));
if ((TIMx->SR & TIM_FLAG) != (uint16_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/**
* @brief Clears the TIMx's pending flags.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_FLAG: specifies the flag bit to clear.
* This parameter can be any combination of the following values:
* @arg TIM_FLAG_Update: TIM update Flag.
* @arg TIM_FLAG_CC1: TIM Capture Compare 1 Flag.
* @arg TIM_FLAG_CC2: TIM Capture Compare 2 Flag.
* @arg TIM_FLAG_CC3: TIM Capture Compare 3 Flag.
* @arg TIM_FLAG_CC4: TIM Capture Compare 4 Flag.
* @arg TIM_FLAG_Trigger: TIM Trigger Flag.
* @arg TIM_FLAG_CC1OF: TIM Capture Compare 1 overcapture Flag.
* @arg TIM_FLAG_CC2OF: TIM Capture Compare 2 overcapture Flag.
* @arg TIM_FLAG_CC3OF: TIM Capture Compare 3 overcapture Flag.
* @arg TIM_FLAG_CC4OF: TIM Capture Compare 4 overcapture Flag.
* @note TIM6 and TIM7 can have only one update flag.
* @note TIM9 can have only update flag, TIM_FLAG_CC1, TIM_FLAG_CC2 and TIM_FLAG_Trigger flags
* TIM_FLAG_CC1OF or TIM_FLAG_CC2OF flags.
* @note TIM10 and TIM11 can have only update flag, TIM_FLAG_CC1
* or TIM_FLAG_CC1OF flags
* @retval None
*/
void TIM_ClearFlag(TIM_TypeDef* TIMx, uint16_t TIM_FLAG)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_CLEAR_FLAG(TIM_FLAG));
/* Clear the flags */
TIMx->SR = (uint16_t)~TIM_FLAG;
}
/**
* @brief Checks whether the TIM interrupt has occurred or not.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_IT: specifies the TIM interrupt source to check.
* This parameter can be one of the following values:
* @arg TIM_IT_Update: TIM update Interrupt source.
* @arg TIM_IT_CC1: TIM Capture Compare 1 Interrupt source.
* @arg TIM_IT_CC2: TIM Capture Compare 2 Interrupt source.
* @arg TIM_IT_CC3: TIM Capture Compare 3 Interrupt source.
* @arg TIM_IT_CC4: TIM Capture Compare 4 Interrupt source.
* @arg TIM_IT_Trigger: TIM Trigger Interrupt source.
*
* @note TIM6 and TIM7 can generate only an update interrupt.
* @note TIM9 can have only update interrupt, TIM_FLAG_CC1 or TIM_FLAG_CC2,
* interrupt and TIM_IT_Trigger interrupt.
* @note TIM10 and TIM11 can have only update interrupt or TIM_FLAG_CC1
* interrupt
* @retval The new state of the TIM_IT(SET or RESET).
*/
ITStatus TIM_GetITStatus(TIM_TypeDef* TIMx, uint16_t TIM_IT)
{
ITStatus bitstatus = RESET;
uint16_t itstatus = 0x0, itenable = 0x0;
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_GET_IT(TIM_IT));
itstatus = TIMx->SR & TIM_IT;
itenable = TIMx->DIER & TIM_IT;
if ((itstatus != (uint16_t)RESET) && (itenable != (uint16_t)RESET))
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/**
* @brief Clears the TIMx's interrupt pending bits.
* @param TIMx: where x can be 2 to 11 to select the TIM peripheral.
* @param TIM_IT: specifies the pending bit to clear.
* This parameter can be any combination of the following values:
* @arg TIM_IT_Update: TIM update Interrupt source.
* @arg TIM_IT_CC1: TIM Capture Compare 1 Interrupt source.
* @arg TIM_IT_CC2: TIM Capture Compare 2 Interrupt source.
* @arg TIM_IT_CC3: TIM Capture Compare 3 Interrupt source.
* @arg TIM_IT_CC4: TIM Capture Compare 4 Interrupt source.
* @arg TIM_IT_Trigger: TIM Trigger Interrupt source.
* @note
* @note TIM6 and TIM7 can generate only an update interrupt.
* @note TIM9 can have only update interrupt, TIM_IT_CC1 or TIM_IT_CC2,
* and TIM_IT_Trigger interrupt.
* @note TIM10 and TIM11 can have only update interrupt or TIM_IT_CC1
* interrupt
* @retval None
*/
void TIM_ClearITPendingBit(TIM_TypeDef* TIMx, uint16_t TIM_IT)
{
/* Check the parameters */
assert_param(IS_TIM_ALL_PERIPH(TIMx));
assert_param(IS_TIM_IT(TIM_IT));
/* Clear the IT pending Bit */
TIMx->SR = (uint16_t)~TIM_IT;
}
/**
* @brief Configures the TIMx's DMA interface.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_DMABase: DMA Base address.
* This parameter can be one of the following values:
* @arg TIM_DMABase_CR1: TIM CR1 register as TIM DMA Base.
* @arg TIM_DMABase_CR2: TIM CR2 register as TIM DMA Base.
* @arg TIM_DMABase_SMCR: TIM SMCR register as TIM DMA Base.
* @arg TIM_DMABase_DIER: TIM DIER register as TIM DMA Base.
* @arg TIM_DMABase_SR: TIM SR register as TIM DMA Base.
* @arg TIM_DMABase_EGR: TIM EGR register as TIM DMA Base.
* @arg TIM_DMABase_CCMR1: TIM CCMR1 register as TIM DMA Base.
* @arg TIM_DMABase_CCMR2: TIM CCMR2 register as TIM DMA Base.
* @arg TIM_DMABase_CCER: TIM CCER register as TIM DMA Base.
* @arg TIM_DMABase_CNT: TIM CNT register as TIM DMA Base.
* @arg TIM_DMABase_PSC: TIM PSC register as TIM DMA Base.
* @arg TIM_DMABase_ARR: TIM ARR register as TIM DMA Base.
* @arg TIM_DMABase_CCR1: TIM CCR1 register as TIM DMA Base.
* @arg TIM_DMABase_CCR2: TIM CCR2 register as TIM DMA Base.
* @arg TIM_DMABase_CCR3: TIM CCR3 register as TIM DMA Base.
* @arg TIM_DMABase_CCR4: TIM CCR4 register as TIM DMA Base.
* @arg TIM_DMABase_DCR: TIM DCR register as TIM DMA Base.
* @arg TIM_DMABase_OR: TIM OR register as TIM DMA Base.
* @param TIM_DMABurstLength: DMA Burst length.
* This parameter can be one value between:
* TIM_DMABurstLength_1Transfer and TIM_DMABurstLength_18Transfers.
* @retval None
*/
void TIM_DMAConfig(TIM_TypeDef* TIMx, uint16_t TIM_DMABase, uint16_t TIM_DMABurstLength)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_DMA_BASE(TIM_DMABase));
assert_param(IS_TIM_DMA_LENGTH(TIM_DMABurstLength));
/* Set the DMA Base and the DMA Burst Length */
TIMx->DCR = TIM_DMABase | TIM_DMABurstLength;
}
/**
* @brief Enables or disables the TIMx's DMA Requests.
* @param TIMx: where x can be 2, 3, 4, 5, 6 or 7 to select the TIM peripheral.
* @param TIM_DMASource: specifies the DMA Request sources.
* This parameter can be any combination of the following values:
* @arg TIM_DMA_Update: TIM update Interrupt source.
* @arg TIM_DMA_CC1: TIM Capture Compare 1 DMA source.
* @arg TIM_DMA_CC2: TIM Capture Compare 2 DMA source.
* @arg TIM_DMA_CC3: TIM Capture Compare 3 DMA source.
* @arg TIM_DMA_CC4: TIM Capture Compare 4 DMA source.
* @arg TIM_DMA_Trigger: TIM Trigger DMA source.
* @param NewState: new state of the DMA Request sources.
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_DMACmd(TIM_TypeDef* TIMx, uint16_t TIM_DMASource, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_LIST4_PERIPH(TIMx));
assert_param(IS_TIM_DMA_SOURCE(TIM_DMASource));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Enable the DMA sources */
TIMx->DIER |= TIM_DMASource;
}
else
{
/* Disable the DMA sources */
TIMx->DIER &= (uint16_t)~TIM_DMASource;
}
}
/**
* @brief Selects the TIMx peripheral Capture Compare DMA source.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param NewState: new state of the Capture Compare DMA source
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_SelectCCDMA(TIM_TypeDef* TIMx, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Set the CCDS Bit */
TIMx->CR2 |= TIM_CR2_CCDS;
}
else
{
/* Reset the CCDS Bit */
TIMx->CR2 &= (uint16_t)~((uint16_t)TIM_CR2_CCDS);
}
}
/**
* @}
*/
/** @defgroup TIM_Group5 Clocks management functions
* @brief Clocks management functions
*
@verbatim
===============================================================================
##### Clocks management functions #####
===============================================================================
@endverbatim
* @{
*/
/**
* @brief Configures the TIMx internal Clock
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @retval None
*/
void TIM_InternalClockConfig(TIM_TypeDef* TIMx)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
/* Disable slave mode to clock the prescaler directly with the internal clock */
TIMx->SMCR &= (uint16_t)(~((uint16_t)TIM_SMCR_SMS));
}
/**
* @brief Configures the TIMx Internal Trigger as External Clock
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_ITRSource: Trigger source.
* This parameter can be one of the following values:
* @param TIM_TS_ITR0: Internal Trigger 0.
* @param TIM_TS_ITR1: Internal Trigger 1.
* @param TIM_TS_ITR2: Internal Trigger 2.
* @param TIM_TS_ITR3: Internal Trigger 3.
* @retval None
*/
void TIM_ITRxExternalClockConfig(TIM_TypeDef* TIMx, uint16_t TIM_InputTriggerSource)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_INTERNAL_TRIGGER_SELECTION(TIM_InputTriggerSource));
/* Select the Internal Trigger */
TIM_SelectInputTrigger(TIMx, TIM_InputTriggerSource);
/* Select the External clock mode1 */
TIMx->SMCR |= TIM_SlaveMode_External1;
}
/**
* @brief Configures the TIMx Trigger as External Clock
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_TIxExternalCLKSource: Trigger source.
* This parameter can be one of the following values:
* @arg TIM_TIxExternalCLK1Source_TI1ED: TI1 Edge Detector.
* @arg TIM_TIxExternalCLK1Source_TI1: Filtered Timer Input 1.
* @arg TIM_TIxExternalCLK1Source_TI2: Filtered Timer Input 2.
* @param TIM_ICPolarity: specifies the TIx Polarity.
* This parameter can be one of the following values:
* @arg TIM_ICPolarity_Rising:
* @arg TIM_ICPolarity_Falling:
* @param ICFilter : specifies the filter value.
* This parameter must be a value between 0x0 and 0xF.
* @retval None
*/
void TIM_TIxExternalClockConfig(TIM_TypeDef* TIMx, uint16_t TIM_TIxExternalCLKSource,
uint16_t TIM_ICPolarity, uint16_t ICFilter)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_IC_POLARITY(TIM_ICPolarity));
assert_param(IS_TIM_IC_FILTER(ICFilter));
/* Configure the Timer Input Clock Source */
if (TIM_TIxExternalCLKSource == TIM_TIxExternalCLK1Source_TI2)
{
TI2_Config(TIMx, TIM_ICPolarity, TIM_ICSelection_DirectTI, ICFilter);
}
else
{
TI1_Config(TIMx, TIM_ICPolarity, TIM_ICSelection_DirectTI, ICFilter);
}
/* Select the Trigger source */
TIM_SelectInputTrigger(TIMx, TIM_TIxExternalCLKSource);
/* Select the External clock mode1 */
TIMx->SMCR |= TIM_SlaveMode_External1;
}
/**
* @brief Configures the External clock Mode1
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_ExtTRGPrescaler: The external Trigger Prescaler.
* This parameter can be one of the following values:
* @arg TIM_ExtTRGPSC_OFF: ETRP Prescaler OFF.
* @arg TIM_ExtTRGPSC_DIV2: ETRP frequency divided by 2.
* @arg TIM_ExtTRGPSC_DIV4: ETRP frequency divided by 4.
* @arg TIM_ExtTRGPSC_DIV8: ETRP frequency divided by 8.
* @param TIM_ExtTRGPolarity: The external Trigger Polarity.
* This parameter can be one of the following values:
* @arg TIM_ExtTRGPolarity_Inverted: active low or falling edge active.
* @arg TIM_ExtTRGPolarity_NonInverted: active high or rising edge active.
* @param ExtTRGFilter: External Trigger Filter.
* This parameter must be a value between 0x00 and 0x0F
* @retval None
*/
void TIM_ETRClockMode1Config(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler, uint16_t TIM_ExtTRGPolarity,
uint16_t ExtTRGFilter)
{
uint16_t tmpsmcr = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_EXT_PRESCALER(TIM_ExtTRGPrescaler));
assert_param(IS_TIM_EXT_POLARITY(TIM_ExtTRGPolarity));
assert_param(IS_TIM_EXT_FILTER(ExtTRGFilter));
/* Configure the ETR Clock source */
TIM_ETRConfig(TIMx, TIM_ExtTRGPrescaler, TIM_ExtTRGPolarity, ExtTRGFilter);
/* Get the TIMx SMCR register value */
tmpsmcr = TIMx->SMCR;
/* Reset the SMS Bits */
tmpsmcr &= (uint16_t)(~((uint16_t)TIM_SMCR_SMS));
/* Select the External clock mode1 */
tmpsmcr |= TIM_SlaveMode_External1;
/* Select the Trigger selection : ETRF */
tmpsmcr &= (uint16_t)(~((uint16_t)TIM_SMCR_TS));
tmpsmcr |= TIM_TS_ETRF;
/* Write to TIMx SMCR */
TIMx->SMCR = tmpsmcr;
}
/**
* @brief Configures the External clock Mode2
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_ExtTRGPrescaler: The external Trigger Prescaler.
* This parameter can be one of the following values:
* @arg TIM_ExtTRGPSC_OFF: ETRP Prescaler OFF.
* @arg TIM_ExtTRGPSC_DIV2: ETRP frequency divided by 2.
* @arg TIM_ExtTRGPSC_DIV4: ETRP frequency divided by 4.
* @arg TIM_ExtTRGPSC_DIV8: ETRP frequency divided by 8.
* @param TIM_ExtTRGPolarity: The external Trigger Polarity.
* This parameter can be one of the following values:
* @arg TIM_ExtTRGPolarity_Inverted: active low or falling edge active.
* @arg TIM_ExtTRGPolarity_NonInverted: active high or rising edge active.
* @param ExtTRGFilter: External Trigger Filter.
* This parameter must be a value between 0x00 and 0x0F
* @retval None
*/
void TIM_ETRClockMode2Config(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler,
uint16_t TIM_ExtTRGPolarity, uint16_t ExtTRGFilter)
{
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_EXT_PRESCALER(TIM_ExtTRGPrescaler));
assert_param(IS_TIM_EXT_POLARITY(TIM_ExtTRGPolarity));
assert_param(IS_TIM_EXT_FILTER(ExtTRGFilter));
/* Configure the ETR Clock source */
TIM_ETRConfig(TIMx, TIM_ExtTRGPrescaler, TIM_ExtTRGPolarity, ExtTRGFilter);
/* Enable the External clock mode2 */
TIMx->SMCR |= TIM_SMCR_ECE;
}
/**
* @}
*/
/** @defgroup TIM_Group6 Synchronization management functions
* @brief Synchronization management functions
*
@verbatim
===============================================================================
##### Synchronization management functions #####
===============================================================================
*** TIM Driver: how to use it in synchronization Mode ***
===============================================================================
[..] Case of two/several Timers
(#) Configure the Master Timers using the following functions:
(++) void TIM_SelectOutputTrigger(TIM_TypeDef* TIMx,
uint16_t TIM_TRGOSource).
(++) void TIM_SelectMasterSlaveMode(TIM_TypeDef* TIMx,
uint16_t TIM_MasterSlaveMode);
(#) Configure the Slave Timers using the following functions:
(++) void TIM_SelectInputTrigger(TIM_TypeDef* TIMx,
uint16_t TIM_InputTriggerSource);
(++) void TIM_SelectSlaveMode(TIM_TypeDef* TIMx, uint16_t TIM_SlaveMode);
[..] Case of Timers and external trigger(ETR pin)
(#) Configure the Etrenal trigger using this function:
(++) void TIM_ETRConfig(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler,
uint16_t TIM_ExtTRGPolarity, uint16_t ExtTRGFilter);
(#) Configure the Slave Timers using the following functions:
(++) void TIM_SelectInputTrigger(TIM_TypeDef* TIMx,
uint16_t TIM_InputTriggerSource);
(++) void TIM_SelectSlaveMode(TIM_TypeDef* TIMx, uint16_t TIM_SlaveMode);
@endverbatim
* @{
*/
/**
* @brief Selects the Input Trigger source
* @param TIMx: where x can be 2, 3, 4, 5, or 9 to select the TIM peripheral.
* @param TIM_InputTriggerSource: The Input Trigger source.
* This parameter can be one of the following values:
* @arg TIM_TS_ITR0: Internal Trigger 0.
* @arg TIM_TS_ITR1: Internal Trigger 1.
* @arg TIM_TS_ITR2: Internal Trigger 2.
* @arg TIM_TS_ITR3: Internal Trigger 3.
* @arg TIM_TS_TI1F_ED: TI1 Edge Detector.
* @arg TIM_TS_TI1FP1: Filtered Timer Input 1.
* @arg TIM_TS_TI2FP2: Filtered Timer Input 2.
* @arg TIM_TS_ETRF: External Trigger input.
* @retval None
*/
void TIM_SelectInputTrigger(TIM_TypeDef* TIMx, uint16_t TIM_InputTriggerSource)
{
uint16_t tmpsmcr = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_TRIGGER_SELECTION(TIM_InputTriggerSource));
/* Get the TIMx SMCR register value */
tmpsmcr = TIMx->SMCR;
/* Reset the TS Bits */
tmpsmcr &= (uint16_t)(~((uint16_t)TIM_SMCR_TS));
/* Set the Input Trigger source */
tmpsmcr |= TIM_InputTriggerSource;
/* Write to TIMx SMCR */
TIMx->SMCR = tmpsmcr;
}
/**
* @brief Selects the TIMx Trigger Output Mode.
* @param TIMx: where x can be 2, 3, 4, 5, 6, 7 or 9 to select the TIM peripheral.
* @param TIM_TRGOSource: specifies the Trigger Output source.
* This paramter can be one of the following values:
*
* @param For all TIMx
* @arg TIM_TRGOSource_Reset: The UG bit in the TIM_EGR register is used as the trigger output (TRGO).
* @arg TIM_TRGOSource_Enable: The Counter Enable CEN is used as the trigger output (TRGO).
* @arg TIM_TRGOSource_Update: The update event is selected as the trigger output (TRGO).
*
* @param For all TIMx except TIM6 and TIM7
* @arg TIM_TRGOSource_OC1: The trigger output sends a positive pulse when the CC1IF flag
* is to be set, as soon as a capture or compare match occurs (TRGO).
* @arg TIM_TRGOSource_OC1Ref: OC1REF signal is used as the trigger output (TRGO).
* @param For all TIMx except TIM6, TIM7, TIM10 and TIM11
* @arg TIM_TRGOSource_OC2Ref: OC2REF signal is used as the trigger output (TRGO).
* @param For TIM2, TIM3 and TIM4
* @arg TIM_TRGOSource_OC3Ref: OC3REF signal is used as the trigger output (TRGO).
* @arg TIM_TRGOSource_OC4Ref: OC4REF signal is used as the trigger output (TRGO).
*
* @retval None
*/
void TIM_SelectOutputTrigger(TIM_TypeDef* TIMx, uint16_t TIM_TRGOSource)
{
/* Check the parameters */
assert_param(IS_TIM_LIST5_PERIPH(TIMx));
assert_param(IS_TIM_TRGO_SOURCE(TIM_TRGOSource));
/* Reset the MMS Bits */
TIMx->CR2 &= (uint16_t)~((uint16_t)TIM_CR2_MMS);
/* Select the TRGO source */
TIMx->CR2 |= TIM_TRGOSource;
}
/**
* @brief Selects the TIMx Slave Mode.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_SlaveMode: specifies the Timer Slave Mode.
* This paramter can be one of the following values:
* @arg TIM_SlaveMode_Reset: Rising edge of the selected trigger signal (TRGI) re-initializes
* the counter and triggers an update of the registers.
* @arg TIM_SlaveMode_Gated: The counter clock is enabled when the trigger signal (TRGI) is high.
* @arg TIM_SlaveMode_Trigger: The counter starts at a rising edge of the trigger TRGI.
* @arg TIM_SlaveMode_External1: Rising edges of the selected trigger (TRGI) clock the counter.
* @retval None
*/
void TIM_SelectSlaveMode(TIM_TypeDef* TIMx, uint16_t TIM_SlaveMode)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_SLAVE_MODE(TIM_SlaveMode));
/* Reset the SMS Bits */
TIMx->SMCR &= (uint16_t)~((uint16_t)TIM_SMCR_SMS);
/* Select the Slave Mode */
TIMx->SMCR |= TIM_SlaveMode;
}
/**
* @brief Sets or Resets the TIMx Master/Slave Mode.
* @param TIMx: where x can be 2, 3, 4, 5 or 9 to select the TIM peripheral.
* @param TIM_MasterSlaveMode: specifies the Timer Master Slave Mode.
* This paramter can be one of the following values:
* @arg TIM_MasterSlaveMode_Enable: synchronization between the current timer
* and its slaves (through TRGO).
* @arg TIM_MasterSlaveMode_Disable: No action
* @retval None
*/
void TIM_SelectMasterSlaveMode(TIM_TypeDef* TIMx, uint16_t TIM_MasterSlaveMode)
{
/* Check the parameters */
assert_param(IS_TIM_LIST2_PERIPH(TIMx));
assert_param(IS_TIM_MSM_STATE(TIM_MasterSlaveMode));
/* Reset the MSM Bit */
TIMx->SMCR &= (uint16_t)~((uint16_t)TIM_SMCR_MSM);
/* Set or Reset the MSM Bit */
TIMx->SMCR |= TIM_MasterSlaveMode;
}
/**
* @brief Configures the TIMx External Trigger (ETR).
* @param TIMx: where x can be 2, 3, 4, 5, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_ExtTRGPrescaler: The external Trigger Prescaler.
* This parameter can be one of the following values:
* @arg TIM_ExtTRGPSC_OFF: ETRP Prescaler OFF.
* @arg TIM_ExtTRGPSC_DIV2: ETRP frequency divided by 2.
* @arg TIM_ExtTRGPSC_DIV4: ETRP frequency divided by 4.
* @arg TIM_ExtTRGPSC_DIV8: ETRP frequency divided by 8.
* @param TIM_ExtTRGPolarity: The external Trigger Polarity.
* This parameter can be one of the following values:
* @arg TIM_ExtTRGPolarity_Inverted: active low or falling edge active.
* @arg TIM_ExtTRGPolarity_NonInverted: active high or rising edge active.
* @param ExtTRGFilter: External Trigger Filter.
* This parameter must be a value between 0x00 and 0x0F
* @retval None
*/
void TIM_ETRConfig(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler, uint16_t TIM_ExtTRGPolarity,
uint16_t ExtTRGFilter)
{
uint16_t tmpsmcr = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST1_PERIPH(TIMx));
assert_param(IS_TIM_EXT_PRESCALER(TIM_ExtTRGPrescaler));
assert_param(IS_TIM_EXT_POLARITY(TIM_ExtTRGPolarity));
assert_param(IS_TIM_EXT_FILTER(ExtTRGFilter));
tmpsmcr = TIMx->SMCR;
/* Reset the ETR Bits */
tmpsmcr &= SMCR_ETR_MASK;
/* Set the Prescaler, the Filter value and the Polarity */
tmpsmcr |= (uint16_t)(TIM_ExtTRGPrescaler | (uint16_t)(TIM_ExtTRGPolarity | (uint16_t)(ExtTRGFilter << (uint16_t)8)));
/* Write to TIMx SMCR */
TIMx->SMCR = tmpsmcr;
}
/**
* @}
*/
/** @defgroup TIM_Group7 Specific interface management functions
* @brief Specific interface management functions
*
@verbatim
===============================================================================
##### Specific interface management functions #####
===============================================================================
@endverbatim
* @{
*/
/**
* @brief Configures the TIMx Encoder Interface.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param TIM_EncoderMode: specifies the TIMx Encoder Mode.
* This parameter can be one of the following values:
* @arg TIM_EncoderMode_TI1: Counter counts on TI1FP1 edge depending on TI2FP2 level.
* @arg TIM_EncoderMode_TI2: Counter counts on TI2FP2 edge depending on TI1FP1 level.
* @arg TIM_EncoderMode_TI12: Counter counts on both TI1FP1 and TI2FP2 edges depending
* on the level of the other input.
* @param TIM_IC1Polarity: specifies the IC1 Polarity.
* This parmeter can be one of the following values:
* @arg TIM_ICPolarity_Falling: IC Falling edge.
* @arg TIM_ICPolarity_Rising: IC Rising edge.
* @param TIM_IC2Polarity: specifies the IC2 Polarity
* This parmeter can be one of the following values:
* @arg TIM_ICPolarity_Falling: IC Falling edge.
* @arg TIM_ICPolarity_Rising: IC Rising edge.
* @retval None
*/
void TIM_EncoderInterfaceConfig(TIM_TypeDef* TIMx, uint16_t TIM_EncoderMode,
uint16_t TIM_IC1Polarity, uint16_t TIM_IC2Polarity)
{
uint16_t tmpsmcr = 0;
uint16_t tmpccmr1 = 0;
uint16_t tmpccer = 0;
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_TIM_ENCODER_MODE(TIM_EncoderMode));
assert_param(IS_TIM_IC_POLARITY(TIM_IC1Polarity));
assert_param(IS_TIM_IC_POLARITY(TIM_IC2Polarity));
/* Get the TIMx SMCR register value */
tmpsmcr = TIMx->SMCR;
/* Get the TIMx CCMR1 register value */
tmpccmr1 = TIMx->CCMR1;
/* Get the TIMx CCER register value */
tmpccer = TIMx->CCER;
/* Set the encoder Mode */
tmpsmcr &= (uint16_t)(~((uint16_t)TIM_SMCR_SMS));
tmpsmcr |= TIM_EncoderMode;
/* Select the Capture Compare 1 and the Capture Compare 2 as input */
tmpccmr1 &= (uint16_t)(((uint16_t)~((uint16_t)TIM_CCMR1_CC1S)) & (uint16_t)(~((uint16_t)TIM_CCMR1_CC2S)));
tmpccmr1 |= TIM_CCMR1_CC1S_0 | TIM_CCMR1_CC2S_0;
/* Set the TI1 and the TI2 Polarities */
tmpccer &= (uint16_t)(((uint16_t)~((uint16_t)TIM_CCER_CC1P)) & ((uint16_t)~((uint16_t)TIM_CCER_CC2P)));
tmpccer |= (uint16_t)(TIM_IC1Polarity | (uint16_t)(TIM_IC2Polarity << (uint16_t)4));
/* Write to TIMx SMCR */
TIMx->SMCR = tmpsmcr;
/* Write to TIMx CCMR1 */
TIMx->CCMR1 = tmpccmr1;
/* Write to TIMx CCER */
TIMx->CCER = tmpccer;
}
/**
* @brief Enables or disables the TIMx's Hall sensor interface.
* @param TIMx: where x can be 2, 3, 4 or 5 to select the TIM peripheral.
* @param NewState: new state of the TIMx Hall sensor interface.
* This parameter can be: ENABLE or DISABLE.
* @retval None
*/
void TIM_SelectHallSensor(TIM_TypeDef* TIMx, FunctionalState NewState)
{
/* Check the parameters */
assert_param(IS_TIM_LIST3_PERIPH(TIMx));
assert_param(IS_FUNCTIONAL_STATE(NewState));
if (NewState != DISABLE)
{
/* Set the TI1S Bit */
TIMx->CR2 |= TIM_CR2_TI1S;
}
else
{
/* Reset the TI1S Bit */
TIMx->CR2 &= (uint16_t)~((uint16_t)TIM_CR2_TI1S);
}
}
/**
* @}
*/
/** @defgroup TIM_Group8 Specific remapping management function
* @brief Specific remapping management function
*
@verbatim
===============================================================================
##### Specific remapping management function #####
===============================================================================
@endverbatim
* @{
*/
/**
* @brief Configures the TIM2, TIM3, TIM9, TIM10 and TIM11 Remapping input
* Capabilities.
* @param TIMx: where x can be 2, 3, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_Remap: specifies the TIM input remapping source.
* This parameter can be one of the following values:
* @arg TIM2_TIM10_OC: TIM2 ITR1 is connected to TIM10 output compare(default).
* @arg TIM2_TIM5_TRGO: TIM2 ITR1 is connected to TIM5 Trigger output.
* @arg TIM3_TIM11_OC: TIM3 ITR2 is connected to TIM11 output compare(default).
* @arg TIM3_TIM5_TRGO: TIM3 ITR2 is connected to TIM5 Trigger output.
* @arg TIM9_GPIO: TIM9 Channel 1 is connected to dedicated Timer pin(default).
* @arg TIM9_LSE: TIM9 Channel 1 is connected to LSE clock.
* @arg TIM9_TIM3_TRGO: TIM9 ITR1 is connected to TIM3 TRGO.
* @arg TIM9_TS_IO: TIM9 ITR1 is connected to Touch Sense IO.
* @arg TIM10_GPIO: TIM10 Channel 1 is connected to dedicated Timer pin(default).
* @arg TIM10_LSI: TIM10 Channel 1 is connected to LSI clock.
* @arg TIM10_LSE: TIM10 Channel 1 is connected to LSE clock.
* @arg TIM10_RTC: TIM10 Channel 1 is connected to RTC Output event.
* @arg TIM10_RI: TIM10 Channel 1 is connected to Routing Interface (RI).
* @arg TIM10_ETR_LSE: TIM10 ETR input is connected to LSE Clock.
* @arg TIM10_ETR_TIM9_TRGO: TIM10 ETR input is connected to TIM9 Trigger Output.
* @arg TIM11_GPIO: TIM11 Channel 1 is connected to dedicated Timer pin(default).
* @arg TIM11_MSI: TIM11 Channel 1 is connected to MSI clock.
* @arg TIM11_HSE_RTC: TIM11 Channel 1 is connected to HSE_RTC clock.
* @arg TIM11_RI: TIM11 Channel 1 is connected to Routing Interface (RI).
* @arg TIM11_ETR_LSE: TIM11 ETR input is connected to LSE Clock.
* @arg TIM11_ETR_TIM9_TRGO: TIM11 ETR input is connected to TIM9 Trigger Output.
* @retval None
*/
void TIM_RemapConfig(TIM_TypeDef* TIMx, uint32_t TIM_Remap)
{
/* Check the parameters */
assert_param(IS_TIM_LIST6_PERIPH(TIMx));
assert_param(IS_TIM_REMAP(TIM_Remap));
/* Set the Timer remapping configuration */
TIMx->OR &= (uint16_t)(TIM_Remap >> 16);
TIMx->OR |= (uint16_t)TIM_Remap;
}
/**
* @}
*/
/**
* @brief Configure the TI1 as Input.
* @param TIMx: where x can be 2, 3, 4, 9, 10 or 11 to select the TIM peripheral.
* @param TIM_ICPolarity : The Input Polarity.
* This parameter can be one of the following values:
* @arg TIM_ICPolarity_Rising: IC Rising edge.
* @arg TIM_ICPolarity_Falling: IC Falling edge.
* @param TIM_ICSelection: specifies the input to be used.
* This parameter can be one of the following values:
* @arg TIM_ICSelection_DirectTI: TIM Input 1 is selected to be connected to IC1.
* @arg TIM_ICSelection_IndirectTI: TIM Input 1 is selected to be connected to IC2.
* @arg TIM_ICSelection_TRC: TIM Input 1 is selected to be connected to TRC.
* @param TIM_ICFilter: Specifies the Input Capture Filter.
* This parameter must be a value between 0x00 and 0x0F.
* @retval None
*/
static void TI1_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter)
{
uint16_t tmpccmr1 = 0, tmpccer = 0;
/* Disable the Channel 1: Reset the CC1E Bit */
TIMx->CCER &= (uint16_t)~((uint16_t)TIM_CCER_CC1E);
tmpccmr1 = TIMx->CCMR1;
tmpccer = TIMx->CCER;
/* Select the Input and set the filter */
tmpccmr1 &= (uint16_t)(((uint16_t)~((uint16_t)TIM_CCMR1_CC1S)) & ((uint16_t)~((uint16_t)TIM_CCMR1_IC1F)));
tmpccmr1 |= (uint16_t)(TIM_ICSelection | (uint16_t)(TIM_ICFilter << (uint16_t)4));
/* Select the Polarity and set the CC1E Bit */
tmpccer &= (uint16_t)~((uint16_t)(TIM_CCER_CC1P | TIM_CCER_CC1NP));
tmpccer |= (uint16_t)(TIM_ICPolarity | (uint16_t)TIM_CCER_CC1E);
/* Write to TIMx CCMR1 and CCER registers */
TIMx->CCMR1 = tmpccmr1;
TIMx->CCER = tmpccer;
}
/**
* @brief Configure the TI2 as Input.
* @param TIMx: where x can be 2, 3, 4 or 9 to select the TIM peripheral.
* @param TIM_ICPolarity : The Input Polarity.
* This parameter can be one of the following values:
* @arg TIM_ICPolarity_Rising: IC Rising edge.
* @arg TIM_ICPolarity_Falling: IC Falling edge.
* @param TIM_ICSelection: specifies the input to be used.
* This parameter can be one of the following values:
* @arg TIM_ICSelection_DirectTI: TIM Input 2 is selected to be connected to IC2.
* @arg TIM_ICSelection_IndirectTI: TIM Input 2 is selected to be connected to IC1.
* @arg TIM_ICSelection_TRC: TIM Input 2 is selected to be connected to TRC.
* @param TIM_ICFilter: Specifies the Input Capture Filter.
* This parameter must be a value between 0x00 and 0x0F.
* @retval None
*/
static void TI2_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter)
{
uint16_t tmpccmr1 = 0, tmpccer = 0, tmp = 0;
/* Disable the Channel 2: Reset the CC2E Bit */
TIMx->CCER &= (uint16_t)~((uint16_t)TIM_CCER_CC2E);
tmpccmr1 = TIMx->CCMR1;
tmpccer = TIMx->CCER;
tmp = (uint16_t)(TIM_ICPolarity << 4);
/* Select the Input and set the filter */
tmpccmr1 &= (uint16_t)(((uint16_t)~((uint16_t)TIM_CCMR1_CC2S)) & ((uint16_t)~((uint16_t)TIM_CCMR1_IC2F)));
tmpccmr1 |= (uint16_t)(TIM_ICFilter << 12);
tmpccmr1 |= (uint16_t)(TIM_ICSelection << 8);
/* Select the Polarity and set the CC2E Bit */
tmpccer &= (uint16_t)~((uint16_t)(TIM_CCER_CC2P | TIM_CCER_CC2NP));
tmpccer |= (uint16_t)(tmp | (uint16_t)TIM_CCER_CC2E);
/* Write to TIMx CCMR1 and CCER registers */
TIMx->CCMR1 = tmpccmr1 ;
TIMx->CCER = tmpccer;
}
/**
* @brief Configure the TI3 as Input.
* @param TIMx: where x can be 2, 3 or 4 to select the TIM peripheral.
* @param TIM_ICPolarity : The Input Polarity.
* This parameter can be one of the following values:
* @arg TIM_ICPolarity_Rising: IC Rising edge.
* @arg TIM_ICPolarity_Falling: IC Falling edge.
* @param TIM_ICSelection: specifies the input to be used.
* This parameter can be one of the following values:
* @arg TIM_ICSelection_DirectTI: TIM Input 3 is selected to be connected to IC3.
* @arg TIM_ICSelection_IndirectTI: TIM Input 3 is selected to be connected to IC4.
* @arg TIM_ICSelection_TRC: TIM Input 3 is selected to be connected to TRC.
* @param TIM_ICFilter: Specifies the Input Capture Filter.
* This parameter must be a value between 0x00 and 0x0F.
* @retval None
*/
static void TI3_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter)
{
uint16_t tmpccmr2 = 0, tmpccer = 0, tmp = 0;
/* Disable the Channel 3: Reset the CC3E Bit */
TIMx->CCER &= (uint16_t)~((uint16_t)TIM_CCER_CC3E);
tmpccmr2 = TIMx->CCMR2;
tmpccer = TIMx->CCER;
tmp = (uint16_t)(TIM_ICPolarity << 8);
/* Select the Input and set the filter */
tmpccmr2 &= (uint16_t)(((uint16_t)~((uint16_t)TIM_CCMR2_CC3S)) & ((uint16_t)~((uint16_t)TIM_CCMR2_IC3F)));
tmpccmr2 |= (uint16_t)(TIM_ICSelection | (uint16_t)(TIM_ICFilter << (uint16_t)4));
/* Select the Polarity and set the CC3E Bit */
tmpccer &= (uint16_t)~((uint16_t)(TIM_CCER_CC3P | TIM_CCER_CC3NP));
tmpccer |= (uint16_t)(tmp | (uint16_t)TIM_CCER_CC3E);
/* Write to TIMx CCMR2 and CCER registers */
TIMx->CCMR2 = tmpccmr2;
TIMx->CCER = tmpccer;
}
/**
* @brief Configure the TI4 as Input.
* @param TIMx: where x can be 2, 3 or 4 to select the TIM peripheral.
* @param TIM_ICPolarity : The Input Polarity.
* This parameter can be one of the following values:
* @arg TIM_ICPolarity_Rising: IC Rising edge.
* @arg TIM_ICPolarity_Falling: IC Falling edge.
* @param TIM_ICSelection: specifies the input to be used.
* This parameter can be one of the following values:
* @arg TIM_ICSelection_DirectTI: TIM Input 4 is selected to be connected to IC4.
* @arg TIM_ICSelection_IndirectTI: TIM Input 4 is selected to be connected to IC3.
* @arg TIM_ICSelection_TRC: TIM Input 4 is selected to be connected to TRC.
* @param TIM_ICFilter: Specifies the Input Capture Filter.
* This parameter must be a value between 0x00 and 0x0F.
* @retval None
*/
static void TI4_Config(TIM_TypeDef* TIMx, uint16_t TIM_ICPolarity, uint16_t TIM_ICSelection,
uint16_t TIM_ICFilter)
{
uint16_t tmpccmr2 = 0, tmpccer = 0, tmp = 0;
/* Disable the Channel 4: Reset the CC4E Bit */
TIMx->CCER &= (uint16_t)~((uint16_t)TIM_CCER_CC4E);
tmpccmr2 = TIMx->CCMR2;
tmpccer = TIMx->CCER;
tmp = (uint16_t)(TIM_ICPolarity << 12);
/* Select the Input and set the filter */
tmpccmr2 &= (uint16_t)((uint16_t)(~(uint16_t)TIM_CCMR2_CC4S) & ((uint16_t)~((uint16_t)TIM_CCMR2_IC4F)));
tmpccmr2 |= (uint16_t)(TIM_ICSelection << 8);
tmpccmr2 |= (uint16_t)(TIM_ICFilter << 12);
/* Select the Polarity and set the CC4E Bit */
tmpccer &= (uint16_t)~((uint16_t)(TIM_CCER_CC4P | TIM_CCER_CC4NP));
tmpccer |= (uint16_t)(tmp | (uint16_t)TIM_CCER_CC4E);
/* Write to TIMx CCMR2 and CCER registers */
TIMx->CCMR2 = tmpccmr2;
TIMx->CCER = tmpccer ;
}
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
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