rtt-f030/bsp/nv32f100x/lib/inc/etm.h

1167 lines
40 KiB
C

/******************************************************************************
* @brief header file for ETM.
*
*******************************************************************************
*
* provide APIs for accessing ETM
******************************************************************************/
#ifndef ETM_H_
#define ETM_H_
#ifdef __cplusplus
extern "C" {
#endif
/******************************************************************************
* Includes
******************************************************************************/
/******************************************************************************
* Constants
******************************************************************************/
/******************************************************************************
* Macros
******************************************************************************/
/******************************************************************************
* ETM return status definition
*
*//*! @addtogroup ETM_returnstatus
* @{
*******************************************************************************/
#define ETM_ERR_SUCCESS 0 /*!< return ok */
#define ETM_ERR_INVALID_PARAM 1 /*!< return invalid parameter */
/*! @} End of ETM_returnstatus */
/******************************************************************************
* ETM channel number definition
*
*//*! @addtogroup ETM_channelnumber
* @{
*******************************************************************************/
#define ETM_CHANNEL_CHANNEL0 0 /*!< channel 0 */
#define ETM_CHANNEL_CHANNEL1 1 /*!< channel 1 */
#define ETM_CHANNEL_CHANNEL2 2 /*!< channel 2 */
#define ETM_CHANNEL_CHANNEL3 3 /*!< channel 3 */
#define ETM_CHANNEL_CHANNEL4 4 /*!< channel 4 */
#define ETM_CHANNEL_CHANNEL5 5 /*!< channel 5 */
#define ETM_CHANNELPAIR0 0 /*!< channel pair 0:ch0 & ch1 */
#define ETM_CHANNELPAIR1 2 /*!< channel pair 1:ch2 & ch3 */
#define ETM_CHANNELPAIR2 4 /*!< channel pair 2:ch4 & ch5 */
/*! @} End of ETM_channelnumber */
/******************************************************************************
* ETM pwm mode definition
*
*//*! @addtogroup ETM_pwmmode
* @{
*******************************************************************************/
#define ETM_PWMMODE_EDGEALLIGNED 1 /*!< EPWM */
#define ETM_PWMMODE_CENTERALLIGNED 2 /*!< CPWM */
#define ETM_PWMMODE_COMBINE 3 /*!< Combine PWM */
/*! @} End of ETM_pwmmode */
/******************************************************************************
* ETM init value definition
*
*//*! @addtogroup ETM_initvalue
* @{
*******************************************************************************/
#define ETM_MOD_INIT (20000-1) /*!< MOD inite value */
#define ETM_C0V_INIT 1000 /*!< C0V inite value */
#define ETM_C1V_INIT 1000 /*!< C1V inite value */
#define ETM_C2V_INIT 1000 /*!< C2V inite value */
#define ETM_C3V_INIT 1000 /*!< C3V inite value */
#define ETM_C4V_INIT 1000 /*!< C4V inite value */
#define ETM_C5V_INIT 1000 /*!< C5V inite value */
/*! @} End of ETM_initvalue */
/******************************************************************************
* ETM combine feature definition
*
*//*! @addtogroup ETM_combinefeature
* @{
*******************************************************************************/
#define ETM_COMBINE_FAULTEN_MASK 0x40 /*!< fault enable */
#define ETM_COMBINE_SYNCEN_MASK 0x20 /*!< sync enable */
#define ETM_COMBINE_DTEN_MASK 0x10 /*!< dead ETMe insertion enable */
#define ETM_COMBINE_DECAP_MASK 0x08 /*!< dual capture status */
#define ETM_COMBINE_DECAPEN_MASK 0x04 /*!< dual capture enable */
#define ETM_COMBINE_COMP_MASK 0x02 /*!< complementary enable */
#define ETM_COMBINE_COMBINE_MASK 0x01 /*!< combine enable */
/*! @} End of ETM_combinefeature */
/******************************************************************************
* ETM clock sources definition
*
*//*! @addtogroup ETM_clocksource
* @{
*******************************************************************************/
#define ETM_CLOCK_NOCLOCK 0 /*!< No Clock */
#define ETM_CLOCK_SYSTEMCLOCK 1 /*!< System clock/2 */
#define ETM_CLOCK_FIXEDFREQCLOCK 2 /*!< Fixed Freq Clock */
#define ETM_CLOCK_EXTERNALCLOCK 3 /*!< External Clock */
/* clock prescale */
#define ETM_CLOCK_PS_DIV1 0 /*!< DIV 1 */
#define ETM_CLOCK_PS_DIV2 1 /*!< DIV 2 */
#define ETM_CLOCK_PS_DIV4 2 /*!< DIV 4 */
#define ETM_CLOCK_PS_DIV8 3 /*!< DIV 8 */
#define ETM_CLOCK_PS_DIV16 4 /*!< DIV 16 */
#define ETM_CLOCK_PS_DIV32 5 /*!< DIV 32 */
#define ETM_CLOCK_PS_DIV64 6 /*!< DIV 64 */
#define ETM_CLOCK_PS_DIV128 7 /*!< DIV 128 */
/*! @} End of ETM_clocksource */
/******************************************************************************
* ETM dead ETMe clock prescale definition
*
*//*! @addtogroup ETM_deadETMeprescale
* @{
*******************************************************************************/
/* */
#define ETM_DEADETME_DTPS_DIV1 0 /*!< DIV 1 */
#define ETM_DEADETME_DTPS_DIV4 2 /*!< DIV 4 */
#define ETM_DEADETME_DTPS_DIV16 3 /*!< DIV 16 */
/*! @} End of ETM_deadETMeprescale */
/******************************************************************************
* ETM output mode definition
*
*//*! @addtogroup ETM_outputmode
* @{
*******************************************************************************/
/* output mode */
#define ETM_OUTPUT_TOGGLE 1 /*!< toggle output on match */
#define ETM_OUTPUT_CLEAR 2 /*!< clear output on match */
#define ETM_OUTPUT_SET 3 /*!< set output on match */
/*! @} End of ETM_outputmode */
/******************************************************************************
* ETM input capture edge definition
*
*//*! @addtogroup ETM_inputcaptureedge
* @{
*******************************************************************************/
/* mode edge select*/
#define ETM_INPUTCAPTURE_RISINGEDGE 1 /*!< rising edge */
#define ETM_INPUTCAPTURE_FALLINGEDGE 2 /*!< falling edge */
#define ETM_INPUTCAPTURE_BOTHEDGE 3 /*!< both edge */
#define ETM_INPUTCAPTURE_DUALEDGE_NOEDGE 0 /*!< none */
#define ETM_INPUTCAPTURE_DUALEDGE_RISINGEDGE 1 /*!< rising edge*/
#define ETM_INPUTCAPTURE_DUALEDGE_FALLInGEDGE 2 /*!< falling edge*/
#define ETM_INPUTCAPTURE_DUALEDGE_BOTHEDGE 3 /*!< both edge */
/*! @} End of ETM_inputcaptureedge */
/******************************************************************************
* ETM dual edge capture mode definition
*
*//*! @addtogroup ETM_dualcapturemode
* @{
*******************************************************************************/
#define ETM_INPUTCAPTURE_DUALEDGE_ONESHOT 4 /*!< dual edge one shot mode*/
#define ETM_INPUTCAPTURE_DUALEDGE_CONTINUOUS 5 /*!< dual edge continuouse mode*/
/*! @} End of ETM_dualcapturemode */
/******************************************************************************
* ETM PWM edge definition
*
*//*! @addtogroup ETM_pwmedge
* @{
*******************************************************************************/
#define ETM_PWM_HIGHTRUEPULSE 1 /*!< high true pulses */
#define ETM_PWM_LOWTRUEPULSE 2 /*!< low true pulses */
/*! @} End of ETM_pwmedge */
/******************************************************************************
* ETM sync trigger source definition
*
*//*! @addtogroup ETM_syncsource
* @{
*******************************************************************************/
#define ETM_SYNC_TRIGGER_SOFTWARE 1 /*!< Software synchronization */
#define ETM_SYNC_TRIGGER_TRIGGER2 2 /*!< Tigger2 synchronization, SIM_SOPT[ETMSYNC] */
#define ETM_SYNC_TRIGGER_TRIGGER1 3 /*!< Tigger1 synchronization, ETM0CH0 */
#define ETM_SYNC_TRIGGER_TRIGGER0 4 /*!< Tigger0 synchronization, ACMP0 */
/*! @} End of ETM_syncsource */
/******************************************************************************
* ETM SW output control definition
*
*//*! @addtogroup ETM_swoutputcontrol
* @{
*******************************************************************************/
#define ETM_SWOCTRL_HIGH 1 /*!< software output high */
#define ETM_SWOCTRL_LOW 0 /*!< software output low */
/*! @} End of ETM_swoutputcontrol */
/******************************************************************************
* ETM polarity definition
*
*//*! @addtogroup ETM_polarity
* @{
*******************************************************************************/
#define ETM_POLARITY_HIGHACTIVE 0 /*!< active high */
#define ETM_POLARITY_LOWACTIVE 1 /*!< active low */
/*! @} End of ETM_polarity */
/******************************************************************************
* Types
******************************************************************************/
/*! @brief ETM_CALLBACK function declaration */
typedef void (*ETM_CallbackPtr)(void);
/*! @} End of ETM_callback */
/******************************************************************************
* ETM configure struct.
*
*//*! @addtogroup ETM_configsturct
* @{
*******************************************************************************/
/*!
* @brief ETM configure struct.
*
*/
typedef struct
{
uint8_t clk_source; /*!< clock source */
uint8_t prescaler; /*!< clock prescaler */
uint8_t sc; /*!< status and control */
uint16_t modulo; /*!< counter mod */
uint16_t cnt; /*!< counter value */
uint16_t cntin; /*!< counter inite */
uint8_t mode; /*!< features mode selction */
uint8_t sync; /*!< synchronization */
uint8_t outinit; /*!< initial state for channels output */
uint8_t outmask; /*!< output mask */
uint32_t combine; /*!< function for linked channels */
uint16_t deadETMe; /*!< dead ETMe insertion control */
uint8_t exttrig; /*!< external trigger */
uint8_t pol; /*!< channels polarity */
uint16_t filter; /*!< input filter control */
uint8_t fms; /*!< fault mode status */
uint16_t fltctrl; /*!< fault control */
uint8_t fltpol; /*!< fault input polarity */
uint16_t conf; /*!< ETM configuration */
uint32_t synconf; /*!< synchronization configuration*/
uint8_t invctrl; /*!< inverting control */
uint16_t swoctrl; /*!< software output control */
uint16_t pwmload; /*!< pwm load control */
} ETM_ConfigType, *ETM_ConfigPtr;
/*! @} End of ETM_configsturct */
/******************************************************************************
* ETM channel configure struct.
*
*//*! @addtogroup ETM_chconfigsturct
* @{
*******************************************************************************/
/*!
* @brief ETM channel configure struct.
*
*/
typedef struct
{
uint8_t u8CnSC; /*!< ETM channel status and control */
uint16_t u16CnV; /*!< ETM channel value control */
union
{
uint32_t u32dw;
struct
{
uint32_t bMode : 3; /*!< flexETMer mode: GPIO, INPUT_CAPTURE, OUTPUT_COMPARE, EDGE_ALIGNED_PWM, CENTER_ALIGNED_PWM,
* COMBINE_PWM, DUAL_EDGE_CAPTURE
*/
uint32_t bEdge : 2; /*!< edge select */
uint32_t bOutCmp : 2; /*!< toggle, clear, set */
uint32_t bPWMPol : 1; /*!< high-true pulse, low-true pulses */
uint32_t bDualCapMode : 1; /*!< dual edge capture mode: one-shot, continuous mode */
uint32_t bCHIE : 1; /*!< enable channel interrupt */
}bits;
}ctrl; /*!< ETM channel feature control */
} ETM_ChParamsType;
/*! @} End of ETM_chconfigsturct */
/******************************************************************************
* Global variables
******************************************************************************/
/*!
* inline functions
*/
/******************************************************************************
* ETM inline functions
*
*//*! @addtogroup ETM_api_list
* @{
*******************************************************************************/
/*****************************************************************************//*!
*
* @brief enable the over flow interrupt.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_DisableOverflowInt.
*
*****************************************************************************/
__STATIC_INLINE void ETM_EnableOverflowInt(ETM_Type *pETM)
{
if(pETM->SC & ETM_SC_TOF_MASK)
{
pETM->SC &= ~ETM_SC_TOF_MASK;
}
pETM->SC |= ETM_SC_TOIE_MASK;
}
/*****************************************************************************//*!
*
* @brief disable the over flow interrupt.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none
*
* @see ETM_EnableOverflowInt.
*
*****************************************************************************/
__STATIC_INLINE void ETM_DisableOverflowInt(ETM_Type *pETM)
{
pETM->SC &= ~ETM_SC_TOIE_MASK;
}
/*****************************************************************************//*!
*
* @brief enable the channel interrupt.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8ETM_Channel channel number.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_DisableChannelInt.
*
*****************************************************************************/
__STATIC_INLINE void ETM_EnableChannelInt(ETM_Type *pETM, uint8_t u8ETM_Channel)
{
pETM->CONTROLS[u8ETM_Channel].CnSC |= ETM_CnSC_CHIE_MASK;
}
/*****************************************************************************//*!
*
* @brief disable the channel interrupt.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8ETM_Channel channel number.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_EnableChannelInt.
*
*****************************************************************************/
__STATIC_INLINE void ETM_DisableChannelInt(ETM_Type *pETM, uint8_t u8ETM_Channel)
{
pETM->CONTROLS[u8ETM_Channel].CnSC &= ~ETM_CnSC_CHIE_MASK;
}
/*****************************************************************************//*!
*
* @brief get the over flow flag.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_ClrOverFlowFlag.
*
*****************************************************************************/
__STATIC_INLINE uint8_t ETM_GetOverFlowFlag(ETM_Type *pETM)
{
return (pETM->SC & ETM_SC_TOF_MASK);
}
/*****************************************************************************//*!
*
* @brief clear the over flow flag.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_GetOverFlowFlag.
*
*****************************************************************************/
__STATIC_INLINE void ETM_ClrOverFlowFlag(ETM_Type *pETM)
{
if(pETM->SC & ETM_SC_TOF_MASK)
{
pETM->SC &= ~ETM_SC_TOF_MASK;
}
}
/*****************************************************************************//*!
*
* @brief get the channel flag.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8ETM_Channel channel number.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_ClrChannelFlag.
*
*****************************************************************************/
__STATIC_INLINE uint8_t ETM_GetChannelFlag(ETM_Type *pETM, uint8_t u8ETM_Channel)
{
return (pETM->CONTROLS[u8ETM_Channel].CnSC & ETM_CnSC_CHF_MASK);
}
/*****************************************************************************//*!
*
* @brief clear the channel flag.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_GetChannelFlag.
*
*****************************************************************************/
__STATIC_INLINE void ETM_ClrChannelFlag(ETM_Type *pETM, uint8_t u8ETM_Channel)
{
pETM->CONTROLS[u8ETM_Channel].CnSC &= ~ETM_CnSC_CHF_MASK;
}
/*********************************************************************************//*!
*
* @brief enable the write protection function.Write protected bits cannot be written.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_WriteProtectionDisable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_WriteProtectionEnable(ETM_Type *pETM)
{
pETM->FMS |= ETM_FMS_WPEN_MASK;
}
/*********************************************************************************//*!
*
* @brief disable the write protection function.Write protected bits can be written.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_WriteProtectionDisable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_WriteProtectionDisable(ETM_Type *pETM)
{
if (pETM->FMS & ETM_FMS_WPEN_MASK)
{
pETM->MODE |= ETM_MODE_WPDIS_MASK;
}
}
/*****************************************************************************//*!
*
* @brief set ETMEN bit to enable ETM-specific register.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetETMBasic.
*
*****************************************************************************/
__STATIC_INLINE void ETM_SetETMEnhanced(ETM_Type *pETM)
{
if(pETM->MODE & ETM_MODE_WPDIS_MASK) /* if not write protected */
{
pETM->MODE |= ETM_MODE_ETMEN_MASK;
}
else
{
ETM_WriteProtectionDisable(pETM);
pETM->MODE |= ETM_MODE_ETMEN_MASK;
ETM_WriteProtectionEnable(pETM);
}
}
/*****************************************************************************//*!
*
* @brief clear ETMEN bit to disable ETM-specific registers, only TPM-compatible
* registers can be used.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetETMEnhanced.
*
*****************************************************************************/
__STATIC_INLINE void ETM_SetETMBasic(ETM_Type *pETM)
{
if(pETM->MODE & ETM_MODE_WPDIS_MASK) /* if not write protected */
{
pETM->MODE &= ~ETM_MODE_ETMEN_MASK;
}
else
{
ETM_WriteProtectionDisable(pETM);
pETM->MODE &= ~ETM_MODE_ETMEN_MASK;
ETM_WriteProtectionEnable(pETM);
}
}
/*****************************************************************************//*!
*
* @brief set the ETM mod value.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u16ModValue the mod value required to set.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetChannelValue.
*
*****************************************************************************/
__STATIC_INLINE void ETM_SetModValue(ETM_Type *pETM, uint16_t u16ModValue)
{
pETM->CNT = 0;
pETM->MOD = u16ModValue;
if(ETM2 == pETM)
{
if(pETM->MODE & ETM_MODE_ETMEN_MASK)
{
pETM->PWMLOAD |= ETM_PWMLOAD_LDOK_MASK;
}
else
{
}
}
else
{
}
}
/*****************************************************************************//*!
*
* @brief set the ETM channel value.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u16ChannelValue the CnV value required to set.
* @param[in] u8ETM_Channel ETM channel number.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetModValue.
*
*****************************************************************************/
__STATIC_INLINE void ETM_SetChannelValue(ETM_Type *pETM, uint8_t u8ETM_Channel, uint16_t u16ChannelValue)
{
pETM->CONTROLS[u8ETM_Channel].CnV = u16ChannelValue;
if(ETM2 == pETM)
{
if(pETM->MODE & ETM_MODE_ETMEN_MASK)
{
if(u8ETM_Channel < 2)
{
pETM->COMBINE |= ETM_COMBINE_SYNCEN0_MASK; /* enable the sync function */
}
else if (u8ETM_Channel < 4)
{
pETM->COMBINE |= ETM_COMBINE_SYNCEN1_MASK;
}
else
{
pETM->COMBINE |= ETM_COMBINE_SYNCEN2_MASK;
}
pETM->PWMLOAD |= ETM_PWMLOAD_LDOK_MASK;
}
else
{
}
}
else
{
}
}
/*****************************************************************************//*!
*
* @brief set the ETM channel value.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u16CounterValue the CNTIN value required to set.
*
* @return none.
*
* @ Pass/ Fail criteria: none
*
* @see ETM_SetModValue.
*
*****************************************************************************/
__STATIC_INLINE void ETM_SetCounterInitValue(ETM_Type *pETM, uint16_t u16CounterValue)
{
pETM->CNTIN = u16CounterValue;
if(pETM->MODE & ETM_MODE_ETMEN_MASK)
{
pETM->PWMLOAD |= ETM_PWMLOAD_LDOK_MASK;
}
else
{
}
}
/*****************************************************************************//*!
*
* @brief set the channel output mask value, ETM2 used only.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u16ChMask the CNTIN value required to set.
*
* @return none.
*
* @ Pass/ Fail criteria: none
*
* @see ETM_UnMaskChannels.
*
*****************************************************************************/
__STATIC_INLINE void ETM_MaskChannels(ETM_Type *pETM, uint16_t u16ChMask)
{
pETM->OUTMASK |= u16ChMask;
}
/*****************************************************************************//*!
*
* @brief clear the channel output mask value, ETM2 used only.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u16ChMask the CNTIN value required to set.
*
* @return none.
*
* @ Pass/ Fail criteria: none
*
* @see ETM_MaskChannels.
*
*****************************************************************************/
__STATIC_INLINE void ETM_UnMaskChannels(ETM_Type *pETM, uint16_t u16ChMask)
{
pETM->OUTMASK &= ~u16ChMask;
}
/*********************************************************************************//*!
*
* @brief set ETM channels polarity.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8ChsPolValue the channels value need to be set.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_GetChannelsPolarity.
*
*********************************************************************************/
__STATIC_INLINE void ETM_SetChannelsPolarity(ETM_Type *pETM, uint8_t u8ChsPolValue)
{
pETM->POL = u8ChsPolValue;
}
/*********************************************************************************//*!
*
* @brief get ETM channels polarity.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return uint8_t the channels polarity.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetChannelsPolarity.
*
*********************************************************************************/
__STATIC_INLINE uint8_t ETM_GetChannelsPolarity(ETM_Type *pETM)
{
return (pETM->POL);
}
/*********************************************************************************//*!
*
* @brief select the enhanced SYNC mode.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_DisableEnhancedSYNCMode.
*
*********************************************************************************/
__STATIC_INLINE void ETM_EnableEnhancedSYNCMode(ETM_Type *pETM)
{
pETM->SYNCONF |= ETM_SYNCONF_SYNCMODE_MASK; /* recommend enhanced sync mode */
}
/*********************************************************************************//*!
*
* @brief select the legacy SYNC mode.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_EnableEnhancedSYNCMode.
*
*********************************************************************************/
__STATIC_INLINE void ETM_DisableEnhancedSYNCMode(ETM_Type *pETM)
{
pETM->SYNCONF &= ~ETM_SYNCONF_SYNCMODE_MASK; /* recommend enhanced sync mode */
}
/*********************************************************************************//*!
*
* @brief set the external trigger source.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8TirggerSource initial trigger or CHn(0~5)trigger
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_GetExternalTriggerFlag.
*
*********************************************************************************/
__STATIC_INLINE void ETM_SetExternalTrigger(ETM_Type *pETM, uint8_t u8TirggerSource)
{
pETM->EXTTRIG = u8TirggerSource;
}
/*********************************************************************************//*!
*
* @brief get the external trigger flag.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return ex trigger flag.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetExternalTrigger.
*
*********************************************************************************/
__STATIC_INLINE uint8_t ETM_GetExternalTriggerFlag(ETM_Type *pETM)
{
return (pETM->EXTTRIG & ETM_EXTTRIG_TRIGF_MASK);
}
/*********************************************************************************//*!
*
* @brief set LDOK bit.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetLoadMatchChannel.
*
*********************************************************************************/
__STATIC_INLINE void ETM_SetLoadEnable(ETM_Type *pETM)
{
pETM->PWMLOAD |= ETM_PWMLOAD_LDOK_MASK;
}
/*********************************************************************************//*!
*
* @brief set the channel in the matching process.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8Matchchannel the channel in the matching process.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_SetLoadEnable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_SetLoadMatchChannel(ETM_Type *pETM, uint8_t u8Matchchannel)
{
pETM->PWMLOAD |= u8Matchchannel;
}
/*********************************************************************************//*!
*
* @brief disable the channel input capture filter.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8ETM_Channel the channel number: 0~3.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_InputCaptureFilterSet.
*
*********************************************************************************/
__STATIC_INLINE void ETM_InputCaptureFilterClr(ETM_Type *pETM, uint8_t u8ETM_Channel)
{
pETM->FILTER &= ~(0x000F << (u8ETM_Channel << 2));
}
/*********************************************************************************//*!
*
* @brief set the channel input capture filter value.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8ETM_Channel the channel number: 0~3.
* @param[in] u8FilterValue fliter cycles:1~15, 0: disable channel filter.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_InputCaptureFilterClr.
*
*********************************************************************************/
__STATIC_INLINE void ETM_InputCaptureFilterSet(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8FilterValue)
{
if (u8FilterValue)
{
pETM->FILTER |= (u8FilterValue << (u8ETM_Channel << 2));
}
else
{
ETM_InputCaptureFilterClr(pETM, u8ETM_Channel);
}
}
/*********************************************************************************//*!
*
* @brief enable the fault input pin.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8FaultPin the fault input channel number: 0~3.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_FaultPinDisable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_FaultPinEnable(ETM_Type *pETM, uint8_t u8FaultPin)
{
if (pETM->MODE & ETM_MODE_WPDIS_MASK) /* if not protected */
{
pETM->FLTCTRL |= (1 << u8FaultPin);
}
else /* if protected */
{
ETM_WriteProtectionDisable(pETM);
pETM->FLTCTRL |= (1 << u8FaultPin);
ETM_WriteProtectionEnable(pETM);
}
}
/*********************************************************************************//*!
*
* @brief disable the fault input pin.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8FaultPin the fault input channel number: 0~3.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_FaultPinEnable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_FaultPinDisable(ETM_Type *pETM, uint8_t u8FaultPin)
{
if (pETM->MODE & ETM_MODE_WPDIS_MASK) /* if not protected */
{
pETM->FLTCTRL &= ~(1 << u8FaultPin);
}
else /* if protected */
{
ETM_WriteProtectionDisable(pETM);
pETM->FLTCTRL &= ~(1 << u8FaultPin);
ETM_WriteProtectionEnable(pETM);
}
}
/*********************************************************************************//*!
*
* @brief enable the fault pin filter.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8FaultPin the fault input channel number: 0~3.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_FaultPinFilterDisable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_FaultPinFilterEnable(ETM_Type *pETM, uint8_t u8FaultPin)
{
if (pETM->MODE & ETM_MODE_WPDIS_MASK) /* if not protected */
{
pETM->FLTCTRL |= (0x10 << u8FaultPin);
}
else /* if protected */
{
ETM_WriteProtectionDisable(pETM);
pETM->FLTCTRL |= (0x10 << u8FaultPin);
ETM_WriteProtectionEnable(pETM);
}
}
/*********************************************************************************//*!
*
* @brief disable the fault pin filter.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8FaultPin the fault input channel number: 0~3.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_FaultPinFilterDisable.
*
*********************************************************************************/
__STATIC_INLINE void ETM_FaultPinFilterDisable(ETM_Type *pETM, uint8_t u8FaultPin)
{
if (pETM->MODE & ETM_MODE_WPDIS_MASK) /* if not protected */
{
pETM->FLTCTRL &= ~(0x10 << u8FaultPin);
}
else /* if protected */
{
ETM_WriteProtectionDisable(pETM);
pETM->FLTCTRL &= ~(0x10 << u8FaultPin);
ETM_WriteProtectionEnable(pETM);
}
}
/*********************************************************************************//*!
*
* @brief disable all the fault pins filter together.
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_FaultPinFilterSet.
*
*********************************************************************************/
__STATIC_INLINE void ETM_FaultPinFilterCDisableAll(ETM_Type *pETM)
{
pETM->FLTCTRL &= ~ETM_FLTCTRL_FFVAL_MASK;
}
/*********************************************************************************//*!
*
* @brief set the fault filter value. All channels share the same filter value.
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8FilterValue the fault input filter value: 1~15, 0 disable the filter.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_FaultPinFilterCDisableAll.
*
*********************************************************************************/
__STATIC_INLINE void ETM_FaultPinFilterSet(ETM_Type *pETM, uint8_t u8FilterValue)
{
if (u8FilterValue)
{
pETM->FLTCTRL |= ETM_FLTCTRL_FFVAL(u8FilterValue);
}
else
{
ETM_FaultPinFilterCDisableAll(pETM);
}
}
/*********************************************************************************//*!
*
* @brief get the logic OR of all the fault detection flags
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_GetFaultDetectionFlag.
*
*********************************************************************************/
__STATIC_INLINE uint8_t ETM_GetFaultDetectionLogicORFlag(ETM_Type *pETM)
{
return (pETM->FMS & ETM_FMS_FAULTF_MASK);
}
/*********************************************************************************//*!
*
* @brief get the fault detection flag
*
* @param[in] pETM pointer to one of three ETM base register address.
* @param[in] u8FaultPin fault input pin number: 0~3.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
* @see ETM_GetFaultDetectionLogicORFlag.
*
*********************************************************************************/
__STATIC_INLINE uint8_t ETM_GetFaultDetectionFlag(ETM_Type *pETM, uint8_t u8FaultPin)
{
return (pETM->FMS & (1 << u8FaultPin));
}
/*********************************************************************************//*!
*
* @brief get the logic OR value of the fault inputs
*
* @param[in] pETM pointer to one of three ETM base register address.
*
* @return none.
*
* @ Pass/ Fail criteria: none.
*
*********************************************************************************/
__STATIC_INLINE uint8_t ETM_GetFaultInputsLogicORValue(ETM_Type *pETM)
{
return (pETM->FMS & ETM_FMS_FAULTIN_MASK);
}
/*! @} End of ETM_api_list */
/******************************************************************************
* Global functions
******************************************************************************/
void ETM_ClockSet(ETM_Type *pETM, uint8_t u8ClockSource, uint8_t u8ClockPrescale);
void ETM_PWMInit(ETM_Type *pETM, uint8_t u8PWMModeSelect, uint8_t u8PWMEdgeSelect);
void ETM_InputCaptureInit(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8CaptureMode);
void ETM_DualEdgeCaptureInit(ETM_Type *pETM, uint8_t u8ChannelPair, uint8_t u8CaptureMode,
uint8_t u8Channel_N_Edge, uint8_t u8Channel_Np1_Edge);
void ETM_OutputCompareInit(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8CompareMode);
void ETM_SoftwareSync(ETM_Type *pETM);
void ETM_HardwareSync(ETM_Type *pETM, uint8_t u8TriggerN);
void ETM_HardwareSyncCombine(ETM_Type *pETM, uint8_t u8TriggerMask);
void ETM_GenerateTrig2(ETM_Type *pETM);
void ETM_PWMDeadETMeSet(ETM_Type *pETM, uint8_t u8PrescalerValue, uint8_t u8DeadETMeValue);
void ETM_OutputMaskSet(ETM_Type *pETM, uint8_t u8ETM_Channel);
void ETM_SWOutputControlSet(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8ChannelValue);
void ETM_SetDebugModeBehavior(ETM_Type *pETM, uint8_t u8DebugMode);
void ETM_SetTOFFrequency(ETM_Type *pETM, uint8_t u8TOFNUM);
void ETM_PolaritySet(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8ActiveValue);
void ETM_InvertChannel(ETM_Type *pETM, uint8_t u8ChannelPair);
void ETM_Init(ETM_Type *pETM, ETM_ConfigType *pConfig);
void ETM_DeInit(ETM_Type *pETM);
void ETM_ChannelInit(ETM_Type *pETM, uint8_t u8ETM_Channel, ETM_ChParamsType *pETM_ChParams);
void ETM_SetDutyCycleCombine(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8DutyCycle);
void ETM_SetCallback(ETM_Type *pETM, ETM_CallbackPtr pfnCallback);
void ETM_SyncConfigActivate(ETM_Type *pETM, uint32_t u32ConfigValue);
void ETM_SyncConfigDeactivate(ETM_Type * pETM, uint32_t u32ConfigValue);
uint8_t ETM_GetFaultDetectionLogicORFlag(ETM_Type *pETM);
uint8_t ETM_GetFaultDetectionFlag(ETM_Type *pETM, uint8_t u8FaultPin);
uint8_t ETM_GetFaultInputsLogicORValue(ETM_Type *pETM);
void ETM_WriteProtectionEnable(ETM_Type *pETM);
void ETM_WriteProtectionDisable(ETM_Type *pETM);
void ETM_FaultPinFilterCDisableAll(ETM_Type *pETM);
void ETM_FaultPinFilterSet(ETM_Type *pETM, uint8_t u8FilterValue);
void ETM_FaultPinFilterDisable(ETM_Type *pETM, uint8_t u8FaultPin);
void ETM_FaultPinFilterEnable(ETM_Type *pETM, uint8_t u8FaultPin);
void ETM_FaultPinEnable(ETM_Type *pETM, uint8_t u8FaultPin);
void ETM_FaultPinDisable(ETM_Type *pETM, uint8_t u8FaultPin);
void ETM_InputCaptureFilterClr(ETM_Type *pETM, uint8_t u8ETM_Channel);
void ETM_InputCaptureFilterSet(ETM_Type *pETM, uint8_t u8ETM_Channel, uint8_t u8FilterValue);
void ETM_SetLoadMatchChannel(ETM_Type *pETM, uint8_t u8Matchchannel);
void ETM_SetLoadEnable(ETM_Type *pETM);
uint8_t ETM_GetExternalTriggerFlag(ETM_Type *pETM);
void ETM_DisableEnhancedSYNCMode(ETM_Type *pETM);
void ETM_EnableEnhancedSYNCMode(ETM_Type *pETM);
uint8_t ETM_GetChannelsPolarity(ETM_Type *pETM);
void ETM_SetChannelsPolarity(ETM_Type *pETM, uint8_t u8ChsPolValue);
void ETM_UnMaskChannels(ETM_Type *pETM, uint16_t u16ChMask);
void ETM_MaskChannels(ETM_Type *pETM, uint16_t u16ChMask);
void ETM_SetCounterInitValue(ETM_Type *pETM, uint16_t u16CounterValue);
void ETM_SetChannelValue(ETM_Type *pETM, uint8_t u8ETM_Channel, uint16_t u16ChannelValue);
void ETM_SetModValue(ETM_Type *pETM, uint16_t u16ModValue);
void ETM_SetETMBasic(ETM_Type *pETM);
void ETM_SetETMEnhanced(ETM_Type *pETM);
void ETM_ClrChannelFlag(ETM_Type *pETM, uint8_t u8ETM_Channel);
uint8_t ETM_GetChannelFlag(ETM_Type *pETM, uint8_t u8ETM_Channel);
void ETM_ClrOverFlowFlag(ETM_Type *pETM);
uint8_t ETM_GetOverFlowFlag(ETM_Type *pETM);
void ETM_DisableChannelInt(ETM_Type *pETM, uint8_t u8ETM_Channel);
void ETM_EnableChannelInt(ETM_Type *pETM, uint8_t u8ETM_Channel);
void ETM_DisableOverflowInt(ETM_Type *pETM);
void ETM_EnableOverflowInt(ETM_Type *pETM);
#ifdef __cplusplus
}
#endif
#endif /* ETM_H_ */