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TARGET_WIZWIKI_W7500ECO/TOOLCHAIN_GCC_ARM/W7500x_pwm.h
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 172:65be27845400
- Parent:
- 171:3a7713b1edbc
File content as of revision 172:65be27845400:
/**
******************************************************************************
* @file
* @author
* @version
* @date
* @brief This file contains all the functions prototypes for the UART
* firmware library.
******************************************************************************
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __W7500X_PWM_H
#define __W7500X_PWM_H
#ifdef __cplusplus
extern "C" {
#endif
/* Includes ------------------------------------------------------------------*/
#include "W7500x.h"
/**********************************************************************************************/
/**********************************************************************************************/
// This structure and define must be in W7500x.h
/**********************************************************************************************/
/**********************************************************************************************/
typedef struct
{
uint32_t PWM_CHn_PEEER;
}PWM_CtrlPWMOutputTypeDef;
typedef struct
{
uint32_t PWM_CHn_PR;
uint32_t PWM_CHn_MR;
uint32_t PWM_CHn_LR;
uint32_t PWM_CHn_UDMR;
uint32_t PWM_CHn_PDMR;
uint32_t PWM_CHn_DZCR;
}PWM_DeadzoneModeInitTypDef;
#define IS_PWM_ALL_CH(CHn) ((CHn == PWM_CH0) || \
(CHn == PWM_CH1) || \
(CHn == PWM_CH2) || \
(CHn == PWM_CH3) || \
(CHn == PWM_CH4) || \
(CHn == PWM_CH5) || \
(CHn == PWM_CH6) || \
(CHn == PWM_CH7))
#define PWM_IER_IE0_Enable (0x1ul << 0)
#define PWM_IER_IE1_Enable (0x1ul << 1)
#define PWM_IER_IE2_Enable (0x1ul << 2)
#define PWM_IER_IE3_Enable (0x1ul << 3)
#define PWM_IER_IE4_Enable (0x1ul << 4)
#define PWM_IER_IE5_Enable (0x1ul << 5)
#define PWM_IER_IE6_Enable (0x1ul << 6)
#define PWM_IER_IE7_Enable (0x1ul << 7)
#define PWM_IER_IE0_Disable ~PWM_IER_IE0_Enable
#define PWM_IER_IE1_Disable ~PWM_IER_IE1_Enable
#define PWM_IER_IE2_Disable ~PWM_IER_IE2_Enable
#define PWM_IER_IE3_Disable ~PWM_IER_IE3_Enable
#define PWM_IER_IE4_Disable ~PWM_IER_IE4_Enable
#define PWM_IER_IE5_Disable ~PWM_IER_IE5_Enable
#define PWM_IER_IE6_Disable ~PWM_IER_IE6_Enable
#define PWM_IER_IE7_Disable ~PWM_IER_IE7_Enable
#define PWM_SSR_SS0_Start (0x1ul << 0)
#define PWM_SSR_SS1_Start (0x1ul << 1)
#define PWM_SSR_SS2_Start (0x1ul << 2)
#define PWM_SSR_SS3_Start (0x1ul << 3)
#define PWM_SSR_SS4_Start (0x1ul << 4)
#define PWM_SSR_SS5_Start (0x1ul << 5)
#define PWM_SSR_SS6_Start (0x1ul << 6)
#define PWM_SSR_SS7_Start (0x1ul << 7)
#define PWM_SSR_SS0_Stop ~PWM_SSR_SS0_Start
#define PWM_SSR_SS1_Stop ~PWM_SSR_SS1_Start
#define PWM_SSR_SS2_Stop ~PWM_SSR_SS2_Start
#define PWM_SSR_SS3_Stop ~PWM_SSR_SS3_Start
#define PWM_SSR_SS4_Stop ~PWM_SSR_SS4_Start
#define PWM_SSR_SS5_Stop ~PWM_SSR_SS5_Start
#define PWM_SSR_SS6_Stop ~PWM_SSR_SS6_Start
#define PWM_SSR_SS7_Stop ~PWM_SSR_SS7_Start
#define IS_SSR_BIT_FLAG(FLAG) (FLAG <= 0xFF)
#define PWM_PSR_PS0_Pause (0x1ul << 0)
#define PWM_PSR_PS1_Pause (0x1ul << 1)
#define PWM_PSR_PS2_Pause (0x1ul << 2)
#define PWM_PSR_PS3_Pause (0x1ul << 3)
#define PWM_PSR_PS4_Pause (0x1ul << 4)
#define PWM_PSR_PS5_Pause (0x1ul << 5)
#define PWM_PSR_PS6_Pause (0x1ul << 6)
#define PWM_PSR_PS7_Pause (0x1ul << 7)
#define PWM_PSR_PS0_Restart ~PWM_PSR_PS0_Pause
#define PWM_PSR_PS1_Restart ~PWM_PSR_PS1_Pause
#define PWM_PSR_PS2_Restart ~PWM_PSR_PS2_Pause
#define PWM_PSR_PS3_Restart ~PWM_PSR_PS3_Pause
#define PWM_PSR_PS4_Restart ~PWM_PSR_PS4_Pause
#define PWM_PSR_PS5_Restart ~PWM_PSR_PS5_Pause
#define PWM_PSR_PS6_Restart ~PWM_PSR_PS6_Pause
#define PWM_PSR_PS7_Restart ~PWM_PSR_PS7_Pause
#define IS_PWM_PSR_BIT_FLAG(FLAG) (FLAG <= 0xFF)
#define PWM_CHn_IER_MIE (0x1ul << 0) ///< Match Interrupt Enable
#define PWM_CHn_IER_OIE (0x1ul << 1) ///< Overflow Interrupt Enable
#define PWM_CHn_IER_CIE (0x1ul << 2) ///< Capture Interrupt Enable
#define IS_PWM_CHn_IER(FLAG) (FLAG <= 0x7)
#define PWM_CHn_IER_MI_Msk (0x1ul << 0) ///< Match Interrupt Enable Mask
#define PWM_CHn_IER_OI_Msk (0x1ul << 1) ///< Overflow Interrupt Enable Mask
#define PWM_CHn_IER_CI_Msk (0x1ul << 2) ///< Capture Interrupt Enable Mask
#define PWM_CHn_ICR_MatchInterruptClear (0x1ul << 0)
#define PWM_CHn_ICR_OverflowInterruptClear (0x1ul << 1)
#define PWM_CHn_ICR_CaptureInterruptClear (0x1ul << 2)
#define IS_PWM_CHn_IntClearFlag(FLAG) FLAG <= 0x7
/*
#define IS_PWM_STOP(CHn) (((CHn == PWM_CH0) && (PWM->SSR & PWM_SSR_SS0)) || \
((CHn == PWM_CH1) && (PWM->SSR & PWM_SSR_SS1)) || \
((CHn == PWM_CH2) && (PWM->SSR & PWM_SSR_SS2)) || \
((CHn == PWM_CH3) && (PWM->SSR & PWM_SSR_SS3)) || \
((CHn == PWM_CH4) && (PWM->SSR & PWM_SSR_SS4)) || \
((CHn == PWM_CH5) && (PWM->SSR & PWM_SSR_SS5)) || \
((CHn == PWM_CH6) && (PWM->SSR & PWM_SSR_SS6)) || \
((CHn == PWM_CH7) && (PWM->SSR & PWM_SSR_SS7)))
*/
#define IS_PWM_PR_FILTER(MAXVAL) (MAXVAL <= 0x1F)
#define PWM_CHn_UDMR_UpCount (0x0ul)
#define PWM_CHn_UDMR_DownCount (0x1ul)
#define IS_PWM_CHn_UDMR(MODE) ((MODE == PWM_CHn_UDMR_UpCount) || \
(MODE == PWM_CHn_UDMR_DownCount))
#define PWM_CHn_TCMR_TimerMode (0x0ul)
#define PWM_CHn_TCMR_RisingCounterMode (0x1ul)
#define PWM_CHn_TCMR_FallingCounterMode (0x2ul)
#define PWM_CHn_TCMR_BothCounterMode (0x3ul)
#define IS_PWM_CHn_TCMR(MODE) ((MODE == PWM_CHn_TCMR_RisingCounterMode) || \
(MODE == PWM_CHn_TCMR_FallingCounterMode) || \
(MODE == PWM_CHn_TCMR_BothCounterMode))
#define PWM_CHn_PEEER_Disable (0x0ul)
#define PWM_CHn_PEEER_ExtEnable (0x1ul)
#define PWM_CHn_PEEER_PWMEnable (0x2ul)
#define IS_PWM_CHn_PEEER(ENABLE) ((ENABLE == PWM_CHn_PEEER_Disable) || \
(ENABLE == PWM_CHn_PEEER_ExtEnable) || \
(ENABLE == PWM_CHn_PEEER_PWMEnable))
#define IS_PWM_Output(ENABLE) ((ENABLE == PWM_CHn_PEEER_Disable) || \
(ENABLE == PWM_CHn_PEEER_PWMEnable))
#define PWM_CHn_CMR_RisingEdge 0x0ul
#define PWM_CHn_CMR_FallingEdge 0x1ul
#define IS_PWM_CHn_CMR(MODE) ((MODE == PWM_CHn_CMR_RisingEdge) || \
(MODE == PWM_CHn_CMR_FallingEdge))
#define PWM_CHn_PDMR_Oneshot (0x0ul)
#define PWM_CHn_PDMR_Periodic (0x1ul)
#define IS_PWM_CHn_PDMR(MODE) ((MODE == PWM_CHn_PDMR_Periodic) || \
(MODE == PWM_CHn_PDMR_Oneshot))
#define PWM_CHn_DZER_Enable (0x1ul)
#define PWM_CHn_DZER_Disable (0x0ul)
#define PWM_CHn_DZER(ENABLE) ((ENABLE == PWM_CHn_DZER_Enable) || \
(ENABLE == PWM_CHn_DZER_Disable))
#define IS_PWM_Deadznoe(CHn) (((CHn == PWM_CH0) && (PWM_CH1->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH1) && (PWM_CH0->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH2) && (PWM_CH3->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH3) && (PWM_CH2->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH4) && (PWM_CH5->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH5) && (PWM_CH4->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH6) && (PWM_CH7->DZER == PWM_CHn_DZER_Disable)) || \
((CHn == PWM_CH7) && (PWM_CH6->DZER == PWM_CHn_DZER_Disable)))
#define IS_PWM_CHn_DZCR_FILTER(MAXVAL) (MAXVAL <= 0x3FF)
void PWM_DeInit(PWM_CHn_TypeDef* PWM_CHn);
void PWM_TimerModeInit(PWM_CHn_TypeDef* PWM_CHn, PWM_TimerModeInitTypeDef* PWM_TimerModeInitStruct);
void PWM_CaptureModeInit(PWM_CHn_TypeDef* PWM_CHn, PWM_CaptureModeInitTypeDef* PWM_CaptureModeInitStruct);
void PWM_CounterModeInit(PWM_CHn_TypeDef* PWM_CHn, PWM_CounterModeInitTypeDef* PWM_CounterModeInitStruct);
void PWM_DeadzoneModeInit(PWM_CHn_TypeDef* PWM_CHn, PWM_DeadzoneModeInitTypDef* PWM_DeadzoneModeInitStruct);
void PWM_CtrlPWMOutput(PWM_CHn_TypeDef* PWM_CHn, uint32_t outputEnDisable );
void PWM_CtrlPWMOutputEnable(PWM_CHn_TypeDef* PWM_CHn) ;
void PWM_CtrlPWMOutputDisable(PWM_CHn_TypeDef* PWM_CHn) ;
void PWM_IntConfig(PWM_CHn_TypeDef* PWM_CHn, FunctionalState state);
FlagStatus PWM_GetIntEnableStatus(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_IntConfig(PWM_CHn_TypeDef* PWM_CHn, uint32_t PWM_CHn_IER, FunctionalState state);
void PWM_CHn_Start(PWM_CHn_TypeDef* PWM_CHn);
void PWM_Multi_Start(uint32_t ssr_bit_flag);
void PWM_CHn_Stop(PWM_CHn_TypeDef* PWM_CHn);
void PWM_Multi_Stop(uint32_t ssr_bit_flag);
void PWM_CHn_Pause(PWM_CHn_TypeDef* PWM_CHn);
void PWM_Multi_Pause(uint32_t psr_bit_flag);
void PWM_CHn_Restart(PWM_CHn_TypeDef* PWM_CHn);
void PWM_Multi_Restart(uint32_t psr_bit_flag);
uint32_t PWM_CHn_GetIntEnableStatus(PWM_CHn_TypeDef* PWM_CHn);
uint32_t PWM_CHn_GetIntFlagStatus(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_ClearInt(PWM_CHn_TypeDef* PWM_CHn, uint32_t PWM_CHn_ICR);
uint32_t PWM_CHn_GetTCR(PWM_CHn_TypeDef* PWM_CHn);
uint32_t PWM_CHn_GetPCR(PWM_CHn_TypeDef* PWM_CHn);
uint32_t PWM_CHn_GetPR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetPR(PWM_CHn_TypeDef* PWM_CHn, uint32_t PR);
uint32_t PWM_CHn_GetMR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetMR(PWM_CHn_TypeDef* PWM_CHn, uint32_t MR);
uint32_t PWM_CHn_GetLR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetLR(PWM_CHn_TypeDef* PWM_CHn, uint32_t LR);
uint32_t PWM_CHn_GetUDMR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetUDMR(PWM_CHn_TypeDef* PWM_CHn, uint32_t UDMR);
uint32_t PWM_CHn_GetTCMR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetTCMR(PWM_CHn_TypeDef* PWM_CHn, uint32_t TCMR);
uint32_t PWM_CHn_GetPEEER(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetPEEER(PWM_CHn_TypeDef* PWM_CHn, uint32_t PEEER);
uint32_t PWM_CHn_GetCMR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetCMR(PWM_CHn_TypeDef* PWM_CHn, uint32_t CMR);
uint32_t PWM_CHn_GetCR(PWM_CHn_TypeDef* PWM_CHn);
uint32_t PWM_CHn_GetPDMR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetPDMR(PWM_CHn_TypeDef* PWM_CHn, uint32_t PDMR);
void PWM_CHn_SetDZER(PWM_CHn_TypeDef* PWM_CHn, uint32_t DZER);
uint32_t PWM_CHn_GetDZCR(PWM_CHn_TypeDef* PWM_CHn);
void PWM_CHn_SetDZCR(PWM_CHn_TypeDef* PWM_CHn, uint32_t DZCR);
void PWM_CH0_ClearMatchInt(void);
void PWM_CH0_ClearOverflowInt(void);
void PWM_CH0_ClearCaptureInt(void);
void PWM_CH1_ClearMatchInt(void);
void PWM_CH1_ClearOverflowInt(void);
void PWM_CH1_ClearCaptureInt(void);
void PWM_CH2_ClearMatchInt(void);
void PWM_CH2_ClearOverflowInt(void);
void PWM_CH2_ClearCaptureInt(void);
void PWM_CH3_ClearMatchInt(void);
void PWM_CH3_ClearOverflowInt(void);
void PWM_CH3_ClearCaptureInt(void);
void PWM_CH4_ClearMatchInt(void);
void PWM_CH4_ClearOverflowInt(void);
void PWM_CH4_ClearCaptureInt(void);
void PWM_CH5_ClearMatchInt(void);
void PWM_CH5_ClearOverflowInt(void);
void PWM_CH5_ClearCaptureInt(void);
void PWM_CH6_ClearMatchInt(void);
void PWM_CH6_ClearOverflowInt(void);
void PWM_CH6_ClearCaptureInt(void);
void PWM_CH7_ClearMatchInt(void);
void PWM_CH7_ClearOverflowInt(void);
void PWM_CH7_ClearCaptureInt(void);
void PWM0_Handler(void);
void PWM1_Handler(void);
void PWM2_Handler(void);
void PWM3_Handler(void);
void PWM4_Handler(void);
void PWM5_Handler(void);
void PWM6_Handler(void);
void PWM7_Handler(void);
//Temporary macro=======
#define PWM_CH(N) ((PWM_CHn_TypeDef *) (W7500x_PWM_BASE + (N * 0x100UL)))
//======================
#ifdef __cplusplus
}
#endif
#endif //__W7500X_PWM_H
