rt-thread-official/bsp/hc32f460/Libraries/HC32F460_StdPeriph_Driver/inc/hc32f460_timera.h

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/*******************************************************************************
* Copyright (C) 2020, Huada Semiconductor Co., Ltd. All rights reserved.
*
* This software component is licensed by HDSC under BSD 3-Clause license
* (the "License"); You may not use this file except in compliance with the
* License. You may obtain a copy of the License at:
* opensource.org/licenses/BSD-3-Clause
*/
/******************************************************************************/
/** \file hc32f460_timera.h
**
** A detailed description is available at
** @link TimeraGroup Timer A description @endlink
**
** - 2018-11-08 CDT First version for Device Driver Library of
** Timera.
**
******************************************************************************/
#ifndef __HC32F460_TIMERA_H__
#define __HC32F460_TIMERA_H__
/*******************************************************************************
* Include files
******************************************************************************/
#include "hc32_common.h"
#include "ddl_config.h"
#if (DDL_TIMERA_ENABLE == DDL_ON)
/* C binding of definitions if building with C++ compiler */
#ifdef __cplusplus
extern "C"
{
#endif
/**
*******************************************************************************
** \defgroup TimeraGroup Timer A(Timera)
**
******************************************************************************/
//@{
/*******************************************************************************
* Global type definitions ('typedef')
******************************************************************************/
/**
*******************************************************************************
** \brief Timera channel enumeration
******************************************************************************/
typedef enum en_timera_channel
{
TimeraCh1 = 0u, ///< Timera channel 1
TimeraCh2 = 1u, ///< Timera channel 2
TimeraCh3 = 2u, ///< Timera channel 3
TimeraCh4 = 3u, ///< Timera channel 4
TimeraCh5 = 4u, ///< Timera channel 5
TimeraCh6 = 5u, ///< Timera channel 6
TimeraCh7 = 6u, ///< Timera channel 7
TimeraCh8 = 7u, ///< Timera channel 8
} en_timera_channel_t;
/**
*******************************************************************************
** \brief Clock division enumeration
******************************************************************************/
typedef enum en_timera_clk_div
{
TimeraPclkDiv1 = 0u, ///< Count clock: pclk
TimeraPclkDiv2 = 1u, ///< Count clock: pclk/2
TimeraPclkDiv4 = 2u, ///< Count clock: pclk/4
TimeraPclkDiv8 = 3u, ///< Count clock: pclk/8
TimeraPclkDiv16 = 4u, ///< Count clock: pclk/16
TimeraPclkDiv32 = 5u, ///< Count clock: pclk/32
TimeraPclkDiv64 = 6u, ///< Count clock: pclk/64
TimeraPclkDiv128 = 7u, ///< Count clock: pclk/128
TimeraPclkDiv256 = 8u, ///< Count clock: pclk/256
TimeraPclkDiv512 = 9u, ///< Count clock: pclk/512
TimeraPclkDiv1024 = 10u, ///< Count clock: pclk/1024
} en_timera_clk_div_t;
/**
*******************************************************************************
** \brief Count mode enumeration
******************************************************************************/
typedef enum en_timera_count_mode
{
TimeraCountModeSawtoothWave = 0u, ///< Sawtooth wave mode
TimeraCountModeTriangularWave = 1u, ///< Triangular wave mode
} en_timera_count_mode_t;
/**
*******************************************************************************
** \brief Count direction enumeration
******************************************************************************/
typedef enum en_timera_count_dir
{
TimeraCountDirDown = 0u, ///< Counter counting down
TimeraCountDirUp = 1u, ///< Counter counting up
} en_timera_count_dir_t;
/**
*******************************************************************************
** \brief Input port filter clock division enumeration
******************************************************************************/
typedef enum en_timera_filter_clk_div
{
TimeraFilterPclkDiv1 = 0u, ///< Filter clock: pclk
TimeraFilterPclkDiv4 = 1u, ///< Filter clock: pclk/4
TimeraFilterPclkDiv16 = 2u, ///< Filter clock: pclk/16
TimeraFilterPclkDiv64 = 3u, ///< Filter clock: pclk/64
} en_timera_filter_clk_div_t;
/**
*******************************************************************************
** \brief Input port filter source enumeration
**
** \note _<t>_ is unit number,range 1~6
******************************************************************************/
typedef enum en_timera_filter_source
{
TimeraFilterSourceCh1 = 0u, ///< TIMA_<t>_PWM1 input port
TimeraFilterSourceCh2 = 1u, ///< TIMA_<t>_PWM2 input port
TimeraFilterSourceCh3 = 2u, ///< TIMA_<t>_PWM3 input port
TimeraFilterSourceCh4 = 3u, ///< TIMA_<t>_PWM4 input port
TimeraFilterSourceCh5 = 4u, ///< TIMA_<t>_PWM5 input port
TimeraFilterSourceCh6 = 5u, ///< TIMA_<t>_PWM6 input port
TimeraFilterSourceCh7 = 6u, ///< TIMA_<t>_PWM7 input port
TimeraFilterSourceCh8 = 7u, ///< TIMA_<t>_PWM8 input port
TimeraFilterSourceClkA = 8u, ///< TIMA_<t>_CLKA input port
TimeraFilterSourceClkB = 9u, ///< TIMA_<t>_CLKB input port
TimeraFilterSourceTrig = 10u, ///< TIMA_<t>_TRIG input port
} en_timera_filter_source_t;
/**
*******************************************************************************
** \brief Timera interrupt request type enumeration
******************************************************************************/
typedef enum en_timera_irq_type
{
TimeraIrqCaptureOrCompareCh1 = 0u, ///< Interrupt request when channel 1 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh2 = 1u, ///< Interrupt request when channel 2 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh3 = 2u, ///< Interrupt request when channel 3 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh4 = 3u, ///< Interrupt request when channel 4 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh5 = 4u, ///< Interrupt request when channel 5 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh6 = 5u, ///< Interrupt request when channel 6 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh7 = 6u, ///< Interrupt request when channel 7 trigger capture event or compare value equal count value
TimeraIrqCaptureOrCompareCh8 = 7u, ///< Interrupt request when channel 8 trigger capture event or compare value equal count value
TimeraIrqOverflow = 8u, ///< Count overflow interrupt request
TimeraIrqUnderflow = 9u, ///< Count underflow interrupt request
} en_timera_irq_type_t;
/**
*******************************************************************************
** \brief Timera flag type enumeration
******************************************************************************/
typedef enum en_timera_flag_type
{
TimeraFlagCaptureOrCompareCh1 = 0u, ///< Match flag when channel 1 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh2 = 1u, ///< Match flag when channel 2 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh3 = 2u, ///< Match flag when channel 3 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh4 = 3u, ///< Match flag when channel 4 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh5 = 4u, ///< Match flag when channel 5 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh6 = 5u, ///< Match flag when channel 6 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh7 = 6u, ///< Match flag when channel 7 trigger capture complete or compare value equal count value
TimeraFlagCaptureOrCompareCh8 = 7u, ///< Match flag when channel 8 trigger capture complete or compare value equal count value
TimeraFlagOverflow = 8u, ///< Count overflow flag
TimeraFlagUnderflow = 9u, ///< Count underflow flag
} en_timera_flag_type_t;
/**
*******************************************************************************
** \brief Timera function mode selection enumeration
******************************************************************************/
typedef enum en_timera_func_mode
{
TimeraModeCompareOutput = 0u, ///< Compare output function
TimeraModeCaptureInput = 1u, ///< Capture input function
} en_timera_func_mode_t;
/**
*******************************************************************************
** \brief Timera count start port output status enumeration
**
** \note _<t>_ is unit number,range 1~6
** \note PWMn is channel of unit,range 1-8
******************************************************************************/
typedef enum en_timera_count_start_output
{
TimeraCountStartOutputLow = 0u, ///< TIMA_<t>_PWMn port output low level
TimeraCountStartOutputHigh = 1u, ///< TIMA_<t>_PWMn port output high level
TimeraCountStartOutputKeep = 2u, ///< TIMA_<t>_PWMn port output to keep
} en_timera_count_start_output_t;
/**
*******************************************************************************
** \brief Timera count stop port output status enumeration
**
** \note _<t>_ is unit number,range 1~6
** \note PWMn is channel of unit,range 1-8
******************************************************************************/
typedef enum en_timera_count_stop_output
{
TimeraCountStopOutputLow = 0u, ///< TIMA_<t>_PWMn port output low level
TimeraCountStopOutputHigh = 1u, ///< TIMA_<t>_PWMn port output high level
TimeraCountStopOutputKeep = 2u, ///< TIMA_<t>_PWMn port output to keep
} en_timera_count_stop_output_t;
/**
*******************************************************************************
** \brief Timera compare value match output status enumeration
**
** \note _<t>_ is unit number,range 1~6
** \note PWMn is channel of unit,range 1-8
******************************************************************************/
typedef enum en_timera_compare_match_output
{
TimeraCompareMatchOutputLow = 0u, ///< TIMA_<t>_PWMn port output low level
TimeraCompareMatchOutputHigh = 1u, ///< TIMA_<t>_PWMn port output high level
TimeraCompareMatchOutputKeep = 2u, ///< TIMA_<t>_PWMn port output to keep
TimeraCompareMatchOutputReverse = 3u, ///< TIMA_<t>_PWMn port output reverse
} en_timera_compare_match_output_t;
/**
*******************************************************************************
** \brief Timera period value match output status enumeration
**
** \note _<t>_ is unit number,range 1~6
** \note PWMn is channel of unit,range 1-8
******************************************************************************/
typedef enum en_timera_period_match_output
{
TimeraPeriodMatchOutputLow = 0u, ///< TIMA_<t>_PWMn port output low level
TimeraPeriodMatchOutputHigh = 1u, ///< TIMA_<t>_PWMn port output high level
TimeraPeriodMatchOutputKeep = 2u, ///< TIMA_<t>_PWMn port output to keep
TimeraPeriodMatchOutputReverse = 3u, ///< TIMA_<t>_PWMn port output reverse
} en_timera_period_match_output_t;
/**
*******************************************************************************
** \brief Timera specify output status enumeration
**
** \note _<t>_ is unit number,range 1~6
** \note PWMn is channel of unit,range 1-8
******************************************************************************/
typedef enum en_timera_specify_output
{
TimeraSpecifyOutputInvalid = 0u, ///< TIMA_<t>_PWMn port output invalid
TimeraSpecifyOutputLow = 2u, ///< TIMA_<t>_PWMn port output low level from next period
TimeraSpecifyOutputHigh = 3u, ///< TIMA_<t>_PWMn port output high level from next period
} en_timera_specify_output_t;
/**
*******************************************************************************
** \brief Timera common trigger source enumeration
******************************************************************************/
typedef enum en_timera_com_trigger
{
TimeraComTrigger_1 = 1u, ///< Select common trigger 1.
TimeraComTrigger_2 = 2u, ///< Select common trigger 2.
TimeraComTrigger_1_2 = 3u, ///< Select common trigger 1 and 2.
} en_timera_com_trigger_t;
/**
*******************************************************************************
** \brief Timera base init structure definition
******************************************************************************/
typedef struct stc_timera_base_init
{
en_timera_clk_div_t enClkDiv; ///< Count clock division select,This is invalid when counting internal or external event
en_timera_count_mode_t enCntMode; ///< Timera count mode
en_timera_count_dir_t enCntDir; ///< Timera count direction
en_functional_state_t enSyncStartupEn; ///< Enable/disable synchronization startup when unit 1 startup,unit 1 set bit invalid
uint16_t u16PeriodVal; ///< Period value
} stc_timera_base_init_t;
/**
*******************************************************************************
** \brief Timera compare output init structure definition
******************************************************************************/
typedef struct stc_timera_compare_init
{
uint16_t u16CompareVal; ///< Compare value
en_timera_count_start_output_t enStartCountOutput; ///< Port status set when count start
en_timera_count_stop_output_t enStopCountOutput; ///< Port status set when count stop
en_timera_compare_match_output_t enCompareMatchOutput; ///< Port status set when compare value match
en_timera_period_match_output_t enPeriodMatchOutput; ///< Port status set when period value match
en_timera_specify_output_t enSpecifyOutput; ///< Specify port status,next period valid,priority more than other port status set
en_functional_state_t enCacheEn; ///< Enable/Disable cacheOnly unit 1、3、5、7 valid
en_functional_state_t enTriangularTroughTransEn; ///< Enable/Disable triangular wave trough transmit cache valueOnly unit 1、3、5、7 valid
en_functional_state_t enTriangularCrestTransEn; ///< Enable/Disable triangular wave crest transmit cache valueOnly unit 1、3、5、7 valid
uint16_t u16CompareCacheVal; ///< Compare cache value,Only unit 1、3、5、7 valid
} stc_timera_compare_init_t;
/**
*******************************************************************************
** \brief Timera capture input init structure definition
******************************************************************************/
typedef struct stc_timera_capture_init
{
en_functional_state_t enCapturePwmRisingEn; ///< Enable/Disable capture channel n active when TIMA_<t>_PWMn sample rising
en_functional_state_t enCapturePwmFallingEn; ///< Enable/Disable capture channel n active when TIMA_<t>_PWMn sample falling
en_functional_state_t enCaptureSpecifyEventEn; ///< Enable/Disable capture channel n active when specify event trigger,event value is TMRA_HTSSR1
en_timera_filter_clk_div_t enPwmClkDiv; ///< TIMA_<t>_PWMn filter clock select
en_functional_state_t enPwmFilterEn; ///< Enable/Disable TIMA_<t>_PWMn filter functions
en_functional_state_t enCaptureTrigRisingEn; ///< Enable/Disable capture channel 4 active when TIMA_<t>_TRIG sample rising, only CCONR4 valid
en_functional_state_t enCaptureTrigFallingEn; ///< Enable/Disable capture channel 4 active when TIMA_<t>_TRIG sample falling, only CCONR4 valid
en_timera_filter_clk_div_t enTrigClkDiv; ///< TIMA_<t>_TRIG filter clock select, only CCONR4 valid
en_functional_state_t enTrigFilterEn; ///< Enable/Disable TIMA_<t>_TRIG filter functions , only CCONR4 valid
} stc_timera_capture_init_t;
/**
*******************************************************************************
** \brief Timera Orthogonal coding init structure definition
**
** \note _<t>_ is unit number,range 1~6
** \note PWMn is channel of unit,range 1-8
** \note n=2、4、6 when m=1、3、5 or n=1、3、5 when m=2、4、6
******************************************************************************/
typedef struct stc_timera_orthogonal_coding_init
{
en_functional_state_t enIncClkALowAndClkBRisingEn; ///< TIMA_<t>_CLKB sample rising edge hardware increase when TIMA_<t>_CLKA is low level
en_functional_state_t enIncClkALowAndClkBFallingEn; ///< TIMA_<t>_CLKB sample falling edge hardware increase when TIMA_<t>_CLKA is low level
en_functional_state_t enIncClkAHighAndClkBRisingEn; ///< TIMA_<t>_CLKB sample rising edge hardware increase when TIMA_<t>_CLKA is high level
en_functional_state_t enIncClkAHighAndClkBFallingEn; ///< TIMA_<t>_CLKB sample falling edge hardware increase when TIMA_<t>_CLKA is high level
en_functional_state_t enIncClkBLowAndClkARisingEn; ///< TIMA_<t>_CLKA sample rising edge hardware increase when TIMA_<t>_CLKB is low level
en_functional_state_t enIncClkBLowAndClkAFallingEn; ///< TIMA_<t>_CLKA sample falling edge hardware increase when TIMA_<t>_CLKB is low level
en_functional_state_t enIncClkBHighAndClkARisingEn; ///< TIMA_<t>_CLKA sample rising edge hardware increase when TIMA_<t>_CLKB is high level
en_functional_state_t enIncClkBHighAndClkAFallingEn; ///< TIMA_<t>_CLKA sample falling edge hardware increase when TIMA_<t>_CLKB is high level
en_functional_state_t enIncTrigRisingEn; ///< TIMA_<t>_TRIG sample rising edge hardware increase
en_functional_state_t enIncTrigFallingEn; ///< TIMA_<t>_TRIG sample falling edge hardware increase
en_functional_state_t enIncSpecifyEventTriggerEn; ///< TIMA_HTSSR0 register Specify event trigger hardware increase
en_functional_state_t enIncAnotherUnitOverflowEn; ///< Unit n generate count overflow hardware increase when current unit is m.
en_functional_state_t enIncAnotherUnitUnderflowEn; ///< Unit n generate count underflow hardware increase when current unit is m.
en_functional_state_t enDecClkALowAndClkBRisingEn; ///< TIMA_<t>_CLKB sample rising edge hardware increase when TIMA_<t>_CLKA is low level
en_functional_state_t enDecClkALowAndClkBFallingEn; ///< TIMA_<t>_CLKB sample falling edge hardware increase when TIMA_<t>_CLKA is low level
en_functional_state_t enDecClkAHighAndClkBRisingEn; ///< TIMA_<t>_CLKB sample rising edge hardware increase when TIMA_<t>_CLKA is high level
en_functional_state_t enDecClkAHighAndClkBFallingEn; ///< TIMA_<t>_CLKB sample falling edge hardware increase when TIMA_<t>_CLKA is high level
en_functional_state_t enDecClkBLowAndClkARisingEn; ///< TIMA_<t>_CLKA sample rising edge hardware increase when TIMA_<t>_CLKB is low level
en_functional_state_t enDecClkBLowAndClkAFallingEn; ///< TIMA_<t>_CLKA sample falling edge hardware increase when TIMA_<t>_CLKB is low level
en_functional_state_t enDecClkBHighAndClkARisingEn; ///< TIMA_<t>_CLKA sample rising edge hardware increase when TIMA_<t>_CLKB is high level
en_functional_state_t enDecClkBHighAndClkAFallingEn; ///< TIMA_<t>_CLKA sample falling edge hardware increase when TIMA_<t>_CLKB is high level
en_functional_state_t enDecTrigRisingEn; ///< TIMA_<t>_TRIG sample rising edge hardware increase
en_functional_state_t enDecTrigFallingEn; ///< TIMA_<t>_TRIG sample falling edge hardware increase
en_functional_state_t enDecSpecifyEventTriggerEn; ///< TIMA_HTSSR0 register Specify event trigger hardware increase
en_functional_state_t enDecAnotherUnitUnderflowEn; ///< Unit n generate count overflow hardware increase when current unit is m.
en_functional_state_t enDecAnotherUnitOverflowEn; ///< Unit n generate count underflow hardware increase when current unit is m.
en_timera_filter_clk_div_t enClkAClkDiv; ///< TIMA_<t>_CLKA filter clock select
en_functional_state_t enClkAFilterEn; ///< Enable/Disable TIMA_<t>_CLKA filter functions
en_timera_filter_clk_div_t enClkBClkDiv; ///< TIMA_<t>_CLKB filter clock select
en_functional_state_t enClkBFilterEn; ///< Enable/Disable TIMA_<t>_CLKB filter functions
en_timera_filter_clk_div_t enTrigClkDiv; ///< TIMA_<t>_TRIG filter clock select
en_functional_state_t enTrigFilterEn; ///< Enable/Disable TIMA_<t>_TRIG filter functions
} stc_timera_orthogonal_coding_init_t;
/**
*******************************************************************************
** \brief Timera hardware startup config structure definition
**
** \note _<t>_ is unit number,range 1~6
** \note TMRA_HTSSR0 trigger startup only when unit 2~6 valid,unit 1 is invalid
******************************************************************************/
typedef struct stc_timera_hw_startup_config
{
en_functional_state_t enTrigRisingStartupEn; ///< Hardware startup TIMA_<t> when TIMA_<t>_TRIG sample rising edge(sync start valid)
en_functional_state_t enTrigFallingStartupEn; ///< Hardware startup TIMA_<t> when TIMA_<t>_TRIG sample falling edge(sync start valid)
en_functional_state_t enSpecifyEventStartupEn; ///< Hardware startup TIMA_<t> when TIMA_HTSSR0 register Specify event trigger
} stc_timera_hw_startup_config_t;
/**
*******************************************************************************
** \brief Timera hardware stop config structure definition
**
** \note _<t>_ is unit number,range 1~6
******************************************************************************/
typedef struct stc_timera_hw_stop_config
{
en_functional_state_t enTrigRisingStopEn; ///< Hardware stop TIMA_<t> when TIMA_<t>_TRIG sample rising edge
en_functional_state_t enTrigFallingStopEn; ///< Hardware stop TIMA_<t> when TIMA_<t>_TRIG sample falling edge
en_functional_state_t enSpecifyEventStopEn; ///< Hardware stop TIMA_<t> when TIMA_HTSSR0 register Specify event trigger
} stc_timera_hw_stop_config_t;
/**
*******************************************************************************
** \brief Timera hardware clear config structure definition
**
** \note _<t>_ is unit number,range 1~6
** \note n=2、4、6 when m=1、3、5 or n=1、3、5 when m=2、4、6
******************************************************************************/
typedef struct stc_timera_hw_clear_config
{
en_functional_state_t enTrigRisingClearEn; ///< Hardware clear TIMA_<t> when TIMA_<t>_TRIG sample rising edge
en_functional_state_t enTrigFallingClearEn; ///< Hardware clear TIMA_<t> when TIMA_<t>_TRIG sample falling edge
en_functional_state_t enSpecifyEventClearEn; ///< Hardware clear TIMA_<t> when TIMA_HTSSR0 register Specify event trigger
en_functional_state_t enAnotherUnitTrigRisingClearEn; ///< Hardware clear TIMA_<t> when unit n TRIG port sample rising when current unit is m.
en_functional_state_t enAnotherUnitTrigFallingClearEn; ///< Hardware clear TIMA_<t> when unit n TRIG port sample falling when current unit is m.
en_functional_state_t enChannel3RisingClearEn; ///< Hardware clear TIMA_<t> when TIMA_<t>_PWM3 sample rising edge
en_functional_state_t enChannel3FallingClearEn; ///< Hardware clear TIMA_<t> when TIMA_<t>_PWM3 sample falling edge
} stc_timera_hw_clear_config_t;
/**
*******************************************************************************
** \brief Timera hardware trigger init structure definition
******************************************************************************/
typedef struct stc_timera_hw_trigger_init
{
stc_timera_hw_startup_config_t stcHwStartup; ///< Hardware startup condition config
stc_timera_hw_stop_config_t stcHwStop; ///< Hardware stop condition config
stc_timera_hw_clear_config_t stcHwClear; ///< Hardware clear condition config
} stc_timera_hw_trigger_init_t;
/*******************************************************************************
* Global pre-processor symbols/macros ('#define')
******************************************************************************/
/*******************************************************************************
* Global variable definitions ('extern')
******************************************************************************/
/*******************************************************************************
Global function prototypes (definition in C source)
******************************************************************************/
/* Base functions */
en_result_t TIMERA_DeInit(M4_TMRA_TypeDef *TIMERAx);
en_result_t TIMERA_BaseInit(M4_TMRA_TypeDef *TIMERAx, const stc_timera_base_init_t *pstcBaseInit);
en_result_t TIMERA_SetCurrCount(M4_TMRA_TypeDef *TIMERAx, uint16_t u16Cnt);
uint16_t TIMERA_GetCurrCount(M4_TMRA_TypeDef *TIMERAx);
en_result_t TIMERA_SetPeriodValue(M4_TMRA_TypeDef *TIMERAx, uint16_t u16Period);
uint16_t TIMERA_GetPeriodValue(M4_TMRA_TypeDef *TIMERAx);
en_result_t TIMERA_SyncStartupCmd(M4_TMRA_TypeDef *TIMERAx, en_functional_state_t enNewSta);
en_result_t TIMERA_Cmd(M4_TMRA_TypeDef *TIMERAx, en_functional_state_t enNewSta);
/* Compare output functions */
en_result_t TIMERA_CompareInit(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
const stc_timera_compare_init_t *pstcCompareInit);
en_result_t TIMERA_SetCompareValue(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
uint16_t u16CompareVal);
uint16_t TIMERA_GetCompareValue(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel);
en_result_t TIMERA_SetCacheValue(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
uint16_t u16CompareCache);
en_result_t TIMERA_CompareCacheCmd(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
en_functional_state_t enNewSta);
en_result_t TIMERA_SpecifyOutputSta(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
en_timera_specify_output_t enOutputSta);
en_result_t TIMERA_CompareCmd(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
en_functional_state_t enNewSta);
/* Capture input functions */
en_result_t TIMERA_CaptureInit(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
const stc_timera_capture_init_t *pstcCapInit);
en_result_t TIMERA_CaptureFilterCmd(M4_TMRA_TypeDef *TIMERAx, en_timera_filter_source_t enFilterPort,
en_functional_state_t enNewSta);
uint16_t TIMERA_GetCaptureValue(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel);
/* Orthogonal coding functions */
en_result_t TIMERA_OrthogonalCodingInit(M4_TMRA_TypeDef *TIMERAx, const stc_timera_orthogonal_coding_init_t *pstcCodingInit);
en_result_t TIMERA_SetOrthogonalCodingCount(M4_TMRA_TypeDef *TIMERAx, uint16_t u16CodingCnt);
uint16_t TIMERA_GetOrthogonalCodingCount(M4_TMRA_TypeDef *TIMERAx);
en_result_t TIMERA_OrthogonalCodingFilterCmd(M4_TMRA_TypeDef *TIMERAx, en_timera_filter_source_t enFilterPort,
en_functional_state_t enNewSta);
/* Hardware control functions */
en_result_t TIMERA_HwTriggerInit(M4_TMRA_TypeDef *TIMERAx, const stc_timera_hw_trigger_init_t *pstcHwTriggerInit);
en_result_t TIMERA_HwStartupConfig(M4_TMRA_TypeDef *TIMERAx, const stc_timera_hw_startup_config_t *pstcHwStartup);
en_result_t TIMERA_HwStopConfig(M4_TMRA_TypeDef *TIMERAx, const stc_timera_hw_stop_config_t *pstcHwStop);
en_result_t TIMERA_HwClearConfig(M4_TMRA_TypeDef *TIMERAx, const stc_timera_hw_clear_config_t *pstcHwClear);
/* interrupt and flags functions */
en_result_t TIMERA_IrqCmd(M4_TMRA_TypeDef *TIMERAx, en_timera_irq_type_t enIrq,
en_functional_state_t enNewSta);
en_flag_status_t TIMERA_GetFlag(M4_TMRA_TypeDef *TIMERAx, en_timera_flag_type_t enFlag);
en_result_t TIMERA_ClearFlag(M4_TMRA_TypeDef *TIMERAx, en_timera_flag_type_t enFlag);
/* Event config functions */
en_result_t TIMERA_EventCmd(M4_TMRA_TypeDef *TIMERAx, en_timera_channel_t enChannel,
en_functional_state_t enNewSta);
en_result_t TIMERA_SetCountTriggerSrc(en_event_src_t enTriggerSrc);
en_result_t TIMERA_SetCaptureTriggerSrc(en_event_src_t enTriggerSrc);
en_result_t TIMERA_CountComTriggerCmd(en_timera_com_trigger_t enComTrigger, en_functional_state_t enNewSta);
en_result_t TIMERA_CaptureComTriggerCmd(en_timera_com_trigger_t enComTrigger, en_functional_state_t enNewSta);
//@} // TimeraGroup
#ifdef __cplusplus
}
#endif
#endif /* DDL_TIMERA_ENABLE */
#endif /* __HC32F460_TIMERA_H__ */
/*******************************************************************************
* EOF (not truncated)
******************************************************************************/