AN5258 doesn't work [S32K144]

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AN5258 doesn't work [S32K144]

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electronica2pow
Contributor III

Hi to the community,

I am trying to run and debug the AN 5258, but it doesn't work. It doesn't allow to asign: 

DMA->TCD0_SADDR = &dummy2;

What is the problem here?

#include "derivative.h" /* include peripheral declarations S32K144 */

/////////////////////////////
//// GLOBAl VARIABLES ///
/////////////////////////////

uint32_t dummy1; // Dummy variable for eDMA0
uint32_t dummy2; // Dummy variable for eDMA1
uint32_t dummy3; // Dummy variable for eDMA2

uint32_t mod1 = 2800; // FTM0 PWM frequency = 20kHz
uint32_t mod2 = 5600; // FTM1 PWM frequency = 10kHz
uint32_t mod3 = 56000; // FTM2 PWM frequency = 1kHz

uint32_t duty1 = 1400; // FTM0 PWM duty cycle = 50%
uint32_t duty2 = 2800; // FTM1 PWM duty cycle = 50%
uint32_t duty3 = 28000; // FTM2 PWM duty cycle = 50%

uint32_t frequency_ch1; // FTM0 measured frequency
uint32_t frequency_ch2; // FTM1 measured frequency
uint32_t frequency_ch3; // FTM2 measured frequency

///////////////////////
//// FUNCTIONS ///
///////////////////////

void PORT_Init()
{
/* Enable clock for PORTA-PORTE */
PCC->PCCn[PCC_PORTA_INDEX] = PCC_PCCn_CGC_MASK;
PCC->PCCn[PCC_PORTB_INDEX] = PCC_PCCn_CGC_MASK;
PCC->PCCn[PCC_PORTC_INDEX] = PCC_PCCn_CGC_MASK;
PCC->PCCn[PCC_PORTD_INDEX] = PCC_PCCn_CGC_MASK;
PCC->PCCn[PCC_PORTE_INDEX] = PCC_PCCn_CGC_MASK;

/* Configure PORT pin to GPIO mode and enable eDMA request on rising/falling edge */
PORTA->PCR[8] = PORT_PCR_MUX(1) | PORT_PCR_IRQC(1); // Enable eDMA PORT_PCR_IRQC(1)
PORTB->PCR[8] = PORT_PCR_MUX(1) | PORT_PCR_IRQC(1);
PORTC->PCR[8] = PORT_PCR_MUX(1) | PORT_PCR_IRQC(1);

/* Configure PORT pin to generate PWM */
PORTD->PCR[15] = PORT_PCR_MUX(2); // PTD15 -> FTM0 -> Channel0
PORTB->PCR[2] = PORT_PCR_MUX(2); // PTB2 -> FTM1 -> Channel0
PORTE->PCR[10] = PORT_PCR_MUX(4); // PTE10 -> FTM2 -> Channel4

}

void DMAMUX_Init()
{
/* Enable clock for DMAMUX */
PCC->PCCn[PCC_DMAMUX0_INDEX] = PCC_PCCn_CGC_MASK;

/* Select an enable eDMA channel trigger source */
DMAMUX->CHCFG[0] = DMAMUX_CHCFG_SOURCE(49) | DMAMUX_CHCFG_ENBL_MASK;
/* DMA Channel Source Select - PORTB and DMA Enable */
DMAMUX->CHCFG[1] = DMAMUX_CHCFG_SOURCE(50) | DMAMUX_CHCFG_ENBL_MASK;
/* DMA Channel Source Select - PORTC and DMA Enable */
DMAMUX->CHCFG[2] = DMAMUX_CHCFG_SOURCE(51) | DMAMUX_CHCFG_ENBL_MASK;
}

void DMA0_Init()
{
/* Enable clock for DMA0 */
PCC->PCCn[PCC_DMA0_INDEX] = PCC_PCCn_CGC_MASK;

/* Source Configuration */
*ERROR* -->  DMA->TCD0_SADDR = &dummy2;
DMA->TCD0_ATTR = DMA_TCD0_ATTR_SSIZE(0);
DMA->TCD0_SOFF = 0; // no address shift after each transfer
DMA->TCD0_SLAST = 0;

/* Destination Configuration */
DMA->TCD0_DADDR = &dummy1;
DMA->TCD0_ATTR = DMA_TCD0_ATTR_DSIZE(0);
DMA->TCD0_DOFF = 0; // no address shift after each transfer
DMA->TCD0_DLASTSGA = 0;

/* Set Citer and Biter to Maximum Value */
DMA->TCD0_CITER.TCD0_CITER_ELINKNO = DMA_TCD0_CITER_ELINKNO_CITER_MASK;
DMA->TCD0_BITER.TCD0_BITER_ELINKNO = DMA_TCD0_BITER_ELINKNO_BITER_MASK;
DMA->TCD0_NBYTES.TCD0_NBYTES_MLNO = 1; // transfer one byte on each trigger arrived

/* Start Transfer for Channel0 */
DMA->SERQ = DMA_SERQ_SERQ(0);
}

void DMA1_Init()
{
/* Source Configuration */
DMA->TCD1_SADDR = &dummy2;
DMA->TCD1_ATTR = DMA_TCD0_ATTR_SSIZE(0);
DMA->TCD1_SOFF = 0; // no address shift after each transfer
DMA->TCD1_SLAST = 0;

/* Destination Configuration */
DMA->TCD1_DADDR = &dummy2;
DMA->TCD1_ATTR = DMA_TCD0_ATTR_DSIZE(0);
DMA->TCD1_DOFF = 0; // no address shift after each transfer
DMA->TCD1_DLASTSGA = 0;

/* Set Citer and Biter to Maximum Value */
DMA->TCD1_CITER.TCD1_CITER_ELINKNO = DMA_TCD0_CITER_ELINKNO_CITER_MASK;
DMA->TCD1_BITER.TCD1_BITER_ELINKNO = DMA_TCD0_BITER_ELINKNO_BITER_MASK;
DMA->TCD1_NBYTES.TCD1_NBYTES_MLNO = 1; // transfer one byte on each trigger arrived

/* Start Transfer for Channel1 */
DMA->SERQ = DMA_SERQ_SERQ(1);
}

void DMA2_Init()
{
/* Source Configuration */
DMA->TCD2_SADDR = &dummy3; // Next destination address(after this transfer)= SADDR+SOFF+ATTR
DMA->TCD2_ATTR = DMA_TCD0_ATTR_SSIZE(0);
DMA->TCD2_SOFF = 0; // no address shift after each transfer
DMA->TCD2_SLAST = 0;

/* Destination Configuration */
DMA->TCD2_DADDR = &dummy3;
DMA->TCD2_ATTR = DMA_TCD0_ATTR_DSIZE(0);
DMA->TCD2_DOFF = 0; // no address shift after each transfer
DMA->TCD2_DLASTSGA = 0;

/* Set Citer and Biter to Maximum Value */
DMA->TCD2_CITER.TCD2_CITER_ELINKNO = DMA_TCD2_CITER_ELINKNO_CITER_MASK;
DMA->TCD2_BITER.TCD2_BITER_ELINKNO = DMA_TCD2_BITER_ELINKNO_BITER_MASK;
DMA->TCD2_NBYTES.TCD2_NBYTES_MLNO = 1; // transfer one byte on each trigger arrived

/* Start Transfer for Channel2 */
DMA->SERQ = DMA_SERQ_SERQ(2);
}

void FTM0_Init()
{
/* Enable clock for FTM0 */
PCC->PCCn[PCC_FLEXTMR0_INDEX] = PCC_PCCn_PCS(6) | PCC_PCCn_CGC_MASK;

FTM0->SC=FTM_SC_CPWMS_MASK; // Select up-down counter for Center-Align PWM
FTM0->CONTROLS[0].CnSC=FTM_CnSC_ELSB_MASK; // Select high-true pulses
FTM0->MOD = FTM_MOD_MOD(mod1); // Set modulo
FTM0->CONTROLS[0].CnV=FTM_CnV_VAL(duty1); // Set channel Value
FTM0->CNT = 0; // Counter reset
FTM0->SC|=FTM_SC_CLKS(1)|FTM_SC_PWMEN0_MASK; // Select clock and enable PWM
}

void FTM1_Init()
{
/* Enable clock for FTM1 */
PCC->PCCn[PCC_FLEXTMR1_INDEX] = PCC_PCCn_PCS(6) | PCC_PCCn_CGC_MASK;

FTM1->SC=FTM_SC_CPWMS_MASK; // Select up-down counter for Center-Align PWM
FTM1->CONTROLS[0].CnSC=FTM_CnSC_ELSB_MASK; // Select high-true pulses
FTM1->MOD = FTM_MOD_MOD(mod2); // Set modulo
FTM1->CONTROLS[0].CnV=FTM_CnV_VAL(duty2); // Set channel Value
FTM1->CNT = 0; // Counter reset
FTM1->SC|=FTM_SC_CLKS(1)|FTM_SC_PWMEN0_MASK; // Select clock and enable PWM
}

void FTM2_Init()
{
/* Enable clock for FTM2 */
PCC->PCCn[PCC_FLEXTMR2_INDEX] = PCC_PCCn_PCS(6) | PCC_PCCn_CGC_MASK;

FTM2->SC=FTM_SC_CPWMS_MASK; // Select up-down counter for Center-Align PWM
FTM2->CONTROLS[4].CnSC=FTM_CnSC_ELSB_MASK; // Select high-true pulses
FTM2->MOD = FTM_MOD_MOD(mod3); // Set modulo
FTM2->CONTROLS[4].CnV=FTM_CnV_VAL(duty3); // Set channel Value
FTM2->CNT = 0; // Counter reset
FTM2->SC|=FTM_SC_CLKS(1)|FTM_SC_PWMEN4_MASK; // Select clock and enable PWM
}

void FTM3_Init()
{
/* Enable clock for FTM2 */
PCC->PCCn[PCC_FLEXTMR3_INDEX] = PCC_PCCn_PCS(6) | PCC_PCCn_CGC_MASK;

FTM3->SC=FTM_SC_CPWMS_MASK; // Select up-down counter for Center-Align PWM
FTM3->CONTROLS[0].CnSC=FTM_CnSC_ELSB_MASK; // Select high-true pulses
FTM3->MOD = FTM_MOD_MOD(mod3); // Set modulo
FTM3->CONTROLS[0].CnV=FTM_CnV_VAL(duty3); // Set channel Value
FTM3->CNT = 0; // Counter reset
FTM3->SC|=FTM_SC_CLKS(1)|FTM_SC_PWMEN0_MASK; // Select clock and enable PWM
}

void LPIT0_Init()
{
/* Enable clock for LPIT0 */
PCC->PCCn[PCC_LPIT0_INDEX] = PCC_PCCn_PCS(6) | PCC_PCCn_CGC_MASK;

LPIT0->MCR = LPIT_MCR_M_CEN_MASK; // Enable peripheral clock
int wait;
for(wait=0;wait<4;wait++){} // Wait 4 peripheral clock for sync
LPIT0->MIER=LPIT_MIER_TIE0_MASK; // Enable timer interrupt
LPIT0->TVAL_CVAL_TCTRL[0].TVAL=112000000-1; // Set timer value to one second
LPIT0->TVAL_CVAL_TCTRL[0].TCTRL=LPIT_TCTRL_T_EN_MASK; // Enable timer
}

void NVIC_Init()

FSL_NVIC->IP[LPIT0_IRQn] = 0x01; // Set priority interrupt 1
FSL_NVIC->ISER[LPIT0_IRQn / 32] |= (1 << (LPIT0_IRQn % 32)); // Enable interrupt

}

void WDOG_disable (void){
WDOG->CNT=0xD928C520; /*Unlock watchdog*/
WDOG->TOVAL=0x0000FFFF; /*Maximum timeout value*/
WDOG->CS = 0x00002100; /*Disable watchdog*/
}

void HSRUN_Init()
{
SMC->PMPROT=SMC_PMPROT_AHSRUN_MASK // Allows High Speed Run
|SMC_PMPROT_AVLP_MASK; // Allows Very Low Power Modes
SMC->PMCTRL=SMC_PMCTRL_RUNM(3); // Entry to High Speed Run
/* Wait for High Speed Run mode */
while(SMC->PMSTAT != SMC_PMSTAT_PMSTAT(128))
{
}
}

void SCG_Init()
{
/* SOSC Configuration
* OSC_OUT = 8MHz, 8MHz EXTAL */

SCG->SOSCDIV=SCG_SOSCDIV_SOSCDIV1(1) // System OSC DIV1=1
|SCG_SOSCDIV_SOSCDIV2(1); // System OSC DIV2=1
SCG->SOSCCFG=SCG_SOSCCFG_RANGE(2) // Medium frequency range OSC 1-8MHz
|SCG_SOSCCFG_EREFS(1); // Select internal OSC
while(SCG->SOSCCSR & SCG_SOSCCSR_LK_MASK); // Wait for SOSCCSR unlocked state
SCG->SOSCCSR=SCG_SOSCCSR_SOSCLPEN_MASK // Enable OSC in very low power modes
|SCG_SOSCCSR_SOSCEN_MASK; // Enable OSC
while(!(SCG->SOSCCSR & SCG_SOSCCSR_SOSCVLD_MASK)); // Wait for OSC enabling and valid output

/* SPLL Configuration
* PLL_OUT = 112MHz, 8MHz EXTAL */

SCG->SPLLDIV=SCG_SPLLDIV_SPLLDIV1(1) // PLL DIV1=1
|SCG_SPLLDIV_SPLLDIV2(1); // PLL DIV2=1
SCG->SPLLCFG=SCG_SPLLCFG_PREDIV(0) // PLL PREDIV=0
|SCG_SPLLCFG_MULT(12); // PLL MULT=28
while(SCG->SPLLCSR & SCG_SPLLCSR_LK_MASK); // Wait for SPLLCSR unlocked state
SCG->SPLLCSR=SCG_SPLLCSR_SPLLEN_MASK; // Enable PLL
while(!(SCG->SPLLCSR & SCG_SPLLCSR_SPLLVLD_MASK)); // Wait for PLL enabling and valid output

/* HCCR Configuration
* PLL_OUT = 112MHz, 8MHz EXTAL */

SCG->HCCR=SCG_HCCR_SCS(6) // PLL source clock
|SCG_HCCR_DIVCORE(0) // DIVCORE=1, Core=112MHz
|SCG_HCCR_DIVBUS(1) // DIVBUS=2, BUS=56MHz
|SCG_HCCR_DIVSLOW(3); // DIVSLOW=4, Flash=28MHz
}


//////////////////
//// MAIN ////
//////////////////

int main(void) {
WDOG_disable();
SCG_Init();
HSRUN_Init();
NVIC_Init();
PORT_Init();
FTM0_Init();
FTM1_Init();
FTM2_Init();
LPIT0_Init();
DMAMUX_Init();
*ERROR*--> DMA0_Init();
DMA1_Init();
DMA2_Init();

for(;;)
{

}

return 0;
}

///////////////////////
//// INTERRUPTS ///
///////////////////////

void LPIT0_IRQHandler() {

/* Measured FTM0 PWM Frequency */
frequency_ch1 = (DMA->TCD0_BITER.TCD0_BITER_ELINKNO & DMA_TCD0_BITER_ELINKNO_BITER_MASK)
- (DMA->TCD0_CITER.TCD0_CITER_ELINKNO & DMA_TCD0_CITER_ELINKNO_CITER_MASK);
/* Set channel0 Citer to Maximum Value */
DMA->TCD0_CITER.TCD0_CITER_ELINKNO = DMA_TCD0_CITER_ELINKNO_CITER_MASK;

/* Measured FTM1 PWM Frequency */
frequency_ch2 = (DMA->TCD1_BITER.TCD1_BITER_ELINKNO & DMA_TCD1_BITER_ELINKNO_BITER_MASK)
- (DMA->TCD1_CITER.TCD1_CITER_ELINKNO & DMA_TCD1_CITER_ELINKNO_CITER_MASK);
/* Set channel1 Citer to Maximum Value */
DMA->TCD1_CITER.TCD1_CITER_ELINKNO = DMA_TCD1_CITER_ELINKNO_CITER_MASK;

/* Measured FTM2 PWM Frequency */
frequency_ch3 = (DMA->TCD2_BITER.TCD2_BITER_ELINKNO & DMA_TCD2_BITER_ELINKNO_BITER_MASK)
-(DMA->TCD2_CITER.TCD2_CITER_ELINKNO & DMA_TCD2_CITER_ELINKNO_CITER_MASK);
/* Set channel2 Citer to Maximum Value */
DMA->TCD2_CITER.TCD2_CITER_ELINKNO = DMA_TCD2_CITER_ELINKNO_CITER_MASK;

/* Clear timer overflow flag */
LPIT0->MSR = LPIT_MSR_TIF0_MASK;
}

Regards,

Jorge

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electronica2pow
Contributor III

void DMA0_Init()
{
/* Enable clock for DMA0 */
Solved -> //PCC->PCCn[PCC_DMA0_INDEX] = PCC_PCCn_CGC_MASK;

/* Source Configuration */
*ERROR* -->  DMA->TCD0_SADDR = &dummy2;
DMA->TCD0_ATTR = DMA_TCD0_ATTR_SSIZE(0);
DMA->TCD0_SOFF = 0; // no address shift after each transfer
DMA->TCD0_SLAST = 0;

/* Destination Configuration */
DMA->TCD0_DADDR = &dummy1;
DMA->TCD0_ATTR = DMA_TCD0_ATTR_DSIZE(0);
DMA->TCD0_DOFF = 0; // no address shift after each transfer
DMA->TCD0_DLASTSGA = 0;

/* Set Citer and Biter to Maximum Value */
DMA->TCD0_CITER.TCD0_CITER_ELINKNO = DMA_TCD0_CITER_ELINKNO_CITER_MASK;
DMA->TCD0_BITER.TCD0_BITER_ELINKNO = DMA_TCD0_BITER_ELINKNO_BITER_MASK;
DMA->TCD0_NBYTES.TCD0_NBYTES_MLNO = 1; // transfer one byte on each trigger arrived

/* Start Transfer for Channel0 */
DMA->SERQ = DMA_SERQ_SERQ(0);
}

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electronica2pow
Contributor III

void DMA0_Init()
{
/* Enable clock for DMA0 */
Solved -> //PCC->PCCn[PCC_DMA0_INDEX] = PCC_PCCn_CGC_MASK;

/* Source Configuration */
*ERROR* -->  DMA->TCD0_SADDR = &dummy2;
DMA->TCD0_ATTR = DMA_TCD0_ATTR_SSIZE(0);
DMA->TCD0_SOFF = 0; // no address shift after each transfer
DMA->TCD0_SLAST = 0;

/* Destination Configuration */
DMA->TCD0_DADDR = &dummy1;
DMA->TCD0_ATTR = DMA_TCD0_ATTR_DSIZE(0);
DMA->TCD0_DOFF = 0; // no address shift after each transfer
DMA->TCD0_DLASTSGA = 0;

/* Set Citer and Biter to Maximum Value */
DMA->TCD0_CITER.TCD0_CITER_ELINKNO = DMA_TCD0_CITER_ELINKNO_CITER_MASK;
DMA->TCD0_BITER.TCD0_BITER_ELINKNO = DMA_TCD0_BITER_ELINKNO_BITER_MASK;
DMA->TCD0_NBYTES.TCD0_NBYTES_MLNO = 1; // transfer one byte on each trigger arrived

/* Start Transfer for Channel0 */
DMA->SERQ = DMA_SERQ_SERQ(0);
}

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danielmartynek
NXP TechSupport
NXP TechSupport

Hi Jorge,

Is this resolved?

Regards,

Daniel

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1,315 Views
electronica2pow
Contributor III

Yes, you can't enable PCC->PCCn[PCC_DMA0_INDEX] = PCC_PCCn_CGC_MASK; without disabling the PCC register first. And anyway in this example it is not needed because it was initialized before.

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