/*********************************************************************//**
* @brief Configuration for Match register
* @param[in] TIMx Pointer to timer device
* @param[in] TIM_MatchConfigStruct Pointer to TIM_MATCHCFG_Type
* - MatchChannel : choose channel 0 or 1
* - IntOnMatch : if SET, interrupt will be generated when MRxx match
* the value in TC
* - StopOnMatch : if SET, TC and PC will be stopped whenM Rxx match
* the value in TC
* - ResetOnMatch : if SET, Reset on MR0 when MRxx match
* the value in TC
* -ExtMatchOutputType: Select output for external match
* + 0: Do nothing for external output pin if match
* + 1: Force external output pin to low if match
* + 2: Force external output pin to high if match
* + 3: Toggle external output pin if match
* MatchValue: Set the value to be compared with TC value
* @return None
**********************************************************************/
void TIM_ConfigMatch(TIM_TypeDef *TIMx, TIM_MATCHCFG_Type *TIM_MatchConfigStruct)
{
CHECK_PARAM(PARAM_TIMx(TIMx));
CHECK_PARAM(PARAM_TIM_EXTMATCH_OPT(TIM_MatchConfigStruct->ExtMatchOutputType));
uint32_t timer = TIM_ConverPtrToTimeNum(TIMx) ;
// TIMx->MR[TIM_MatchConfigStruct->MatchChannel] = TIM_MatchConfigStruct->MatchValue;
switch(TIM_MatchConfigStruct->MatchChannel)
{
case 0:
TIMx->MR0 = TIM_MatchConfigStruct->MatchValue;
break;
case 1:
TIMx->MR1 = TIM_MatchConfigStruct->MatchValue;
break;
}
//interrupt on MRn
TIMx->MCR &=~TIM_MCR_CHANNEL_MASKBIT(TIM_MatchConfigStruct->MatchChannel);
if (TIM_MatchConfigStruct->IntOnMatch)
TIMx->MCR |= TIM_INT_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
//reset on MRn
if (TIM_MatchConfigStruct->ResetOnMatch)
TIMx->MCR |= TIM_RESET_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
//stop on MRn
if (TIM_MatchConfigStruct->StopOnMatch)
TIMx->MCR |= TIM_STOP_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
// match output type
TIMx->EMR &= ~TIM_EM_MASK(TIM_MatchConfigStruct->MatchChannel);
TIMx->EMR = TIM_EM_SET(TIM_MatchConfigStruct->MatchChannel,TIM_MatchConfigStruct->ExtMatchOutputType);
//pin output configuration
if (TIM_MatchConfigStruct->ExtMatchOutputType >0)
{
if ((timer <2)&& (TIM_MatchConfigStruct->MatchChannel < 2))
{
PINSEL_ConfigPin((PINSEL_CFG_Type *)&timer_match_pin[2*timer +TIM_MatchConfigStruct->MatchChannel]);
}
if ((timer ==2))
{
PINSEL_ConfigPin( (PINSEL_CFG_Type *)&timer_match_pin[2*timer + TIM_MatchConfigStruct->MatchChannel]);
}
if ((timer ==3)&&(TIM_MatchConfigStruct->MatchChannel < 2))
{
PINSEL_ConfigPin( (PINSEL_CFG_Type *)&timer_match_pin[4*timer + TIM_MatchConfigStruct->MatchChannel]);
}
}
}
/*********************************************************************//**
* @brief Configuration for Match register
* @param[in] TIMx Pointer to timer device, should be:
* - LPC_TIM0: TIMER0 peripheral
* - LPC_TIM1: TIMER1 peripheral
* - LPC_TIM2: TIMER2 peripheral
* - LPC_TIM3: TIMER3 peripheral
* @param[in] TIM_MatchConfigStruct Pointer to TIM_MATCHCFG_Type
* - MatchChannel : choose channel 0 or 1
* - IntOnMatch : if SET, interrupt will be generated when MRxx match
* the value in TC
* - StopOnMatch : if SET, TC and PC will be stopped whenM Rxx match
* the value in TC
* - ResetOnMatch : if SET, Reset on MR0 when MRxx match
* the value in TC
* -ExtMatchOutputType: Select output for external match
* + 0: Do nothing for external output pin if match
* + 1: Force external output pin to low if match
* + 2: Force external output pin to high if match
* + 3: Toggle external output pin if match
* MatchValue: Set the value to be compared with TC value
* @return None
**********************************************************************/
void TIM_ConfigMatch(LPC_TIM_TypeDef *TIMx, TIM_MATCHCFG_Type *TIM_MatchConfigStruct)
{
CHECK_PARAM(PARAM_TIMx(TIMx));
CHECK_PARAM(PARAM_TIM_EXTMATCH_OPT(TIM_MatchConfigStruct->ExtMatchOutputType));
switch(TIM_MatchConfigStruct->MatchChannel)
{
case 0:
TIMx->MR0 = TIM_MatchConfigStruct->MatchValue;
break;
case 1:
TIMx->MR1 = TIM_MatchConfigStruct->MatchValue;
break;
case 2:
TIMx->MR2 = TIM_MatchConfigStruct->MatchValue;
break;
case 3:
TIMx->MR3 = TIM_MatchConfigStruct->MatchValue;
break;
default:
//Error match value
//Error loop
while(1);
break;
}
//interrupt on MRn
TIMx->MCR &=~TIM_MCR_CHANNEL_MASKBIT(TIM_MatchConfigStruct->MatchChannel);
if (TIM_MatchConfigStruct->IntOnMatch)
TIMx->MCR |= TIM_INT_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
//reset on MRn
if (TIM_MatchConfigStruct->ResetOnMatch)
TIMx->MCR |= TIM_RESET_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
//stop on MRn
if (TIM_MatchConfigStruct->StopOnMatch)
TIMx->MCR |= TIM_STOP_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
// match output type
TIMx->EMR &= ~TIM_EM_MASK(TIM_MatchConfigStruct->MatchChannel);
TIMx->EMR |= TIM_EM_SET(TIM_MatchConfigStruct->MatchChannel,TIM_MatchConfigStruct->ExtMatchOutputType);
}
/*********************************************************************//**
* @brief Configuration for Match register
* @param[in] TIMx Pointer to timer device
* @param[in] TIM_MatchConfigStruct Pointer to TIM_MATCHCFG_Type
* - MatchChannel : choose channel 0 or 1
* - IntOnMatch : if SET, interrupt will be generated when MRxx match
* the value in TC
* - StopOnMatch : if SET, TC and PC will be stopped whenM Rxx match
* the value in TC
* - ResetOnMatch : if SET, Reset on MR0 when MRxx match
* the value in TC
* -ExtMatchOutputType: Select output for external match
* + 0: Do nothing for external output pin if match
* + 1: Force external output pin to low if match
* + 2: Force external output pin to high if match
* + 3: Toggle external output pin if match
* MatchValue: Set the value to be compared with TC value
* @return None
**********************************************************************/
void TIM_ConfigMatch(LPC_TIM_TypeDef *TIMx, TIM_MATCHCFG_Type *TIM_MatchConfigStruct)
{
uint32_t timer;
CHECK_PARAM(PARAM_TIMx(TIMx));
CHECK_PARAM(PARAM_TIM_EXTMATCH_OPT(TIM_MatchConfigStruct->ExtMatchOutputType));
timer = TIM_ConverPtrToTimeNum(TIMx) ;
switch(TIM_MatchConfigStruct->MatchChannel)
{
case 0:
TIMx->MR0 = TIM_MatchConfigStruct->MatchValue;
break;
case 1:
TIMx->MR1 = TIM_MatchConfigStruct->MatchValue;
break;
}
//interrupt on MRn
TIMx->MCR &=~TIM_MCR_CHANNEL_MASKBIT(TIM_MatchConfigStruct->MatchChannel);
if (TIM_MatchConfigStruct->IntOnMatch)
TIMx->MCR |= TIM_INT_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
//reset on MRn
if (TIM_MatchConfigStruct->ResetOnMatch)
TIMx->MCR |= TIM_RESET_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
//stop on MRn
if (TIM_MatchConfigStruct->StopOnMatch)
TIMx->MCR |= TIM_STOP_ON_MATCH(TIM_MatchConfigStruct->MatchChannel);
// TIMx->MCR = 0x02;
// match output type
TIMx->EMR &= ~TIM_EM_MASK(TIM_MatchConfigStruct->MatchChannel);
TIMx->EMR = TIM_EM_SET(TIM_MatchConfigStruct->MatchChannel,TIM_MatchConfigStruct->ExtMatchOutputType);
}