/**
* \brief Application entry point for PWM with PDC example.
*
* Outputs a PWM on LED1.
* Channel #0 is configured as synchronous channels.
* The update of the duty cycle values is made automatically by the Peripheral DMA Controller.
*
* \return Unused (ANSI-C compatibility).
*/
int main(void)
{
uint32_t i;
/* Disable watchdog */
WDT_Disable( WDT ) ;
/* Enable I and D cache */
SCB_EnableICache();
SCB_EnableDCache();
/* Output example information */
printf("-- PWM with DMA Example %s --\n\r", SOFTPACK_VERSION);
printf("-- %s\n\r", BOARD_NAME);
printf("-- Compiled: %s %s --\n\r", __DATE__, __TIME__);
/* PIO configuration */
PIO_Configure(pinPwm, PIO_LISTSIZE(pinPwm));
for (i= 0; i< DUTY_BUFFER_LENGTH; i++) dwDutys[i] = i/2;
/* Enable PWMC peripheral clock */
PMC_EnablePeripheral(ID_PWM0);
/* Configure interrupt for PWM transfer */
NVIC_DisableIRQ(PWM0_IRQn);
NVIC_ClearPendingIRQ(PWM0_IRQn);
NVIC_SetPriority(PWM0_IRQn, 0);
/* Configure DMA channel for PWM transfer */
_ConfigureDma();
/* Set clock A to run at PWM_FREQUENCY * MAX_DUTY_CYCLE (clock B is not used) */
PWMC_ConfigureClocks(PWM0, PWM_FREQUENCY * MAX_DUTY_CYCLE , 0, BOARD_MCK);
/* Configure PWMC channel for LED0 (left-aligned, enable dead time generator) */
PWMC_ConfigureChannel( PWM0,
0, /* channel */
PWM_CMR_CPRE_CLKA, /* prescaler, CLKA */
0, /* alignment */
0 /* polarity */
);
PWMC_ConfigureSyncChannel(PWM0,
(1 << CHANNEL_PWM_LED0), /* Define the synchronous channels by the bits SYNCx */
PWM_SCM_UPDM_MODE2, /* Select the manual write of duty-cycle values and the automatic update by setting the field UPDM to 鈥�1鈥� */
0,
0);
/* Configure channel 0 period */
PWMC_SetPeriod(PWM0, 0, DUTY_BUFFER_LENGTH);
/* Configure channel 0 duty cycle */
PWMC_SetDutyCycle(PWM0, 0, MIN_DUTY_CYCLE);
/* Define the update period by the field UPR in the PWM_SCUP register*/
PWMC_SetSyncChannelUpdatePeriod(PWM0, 8);
/* Enable the synchronous channels by writing CHID0 in the PWM_ENA register */
PWMC_EnableChannel(PWM0, 0);
/* Enable PWM interrupt */
PWMC_EnableIt(PWM0, 0, PWM_IER2_WRDY);
NVIC_EnableIRQ(PWM0_IRQn);
_PwmDmaTransfer();
while(1);
}
/**
* \brief Application entry point for PWM with PDC example.
*
* Outputs a PWM on LED1 & LED2 & LED3 to makes it fade in repeatedly.
* Channel #0, #1, #2 are linked together as synchronous channels, so they have
* the same source clock, the same period, the same alignment and
* are started together. The update of the duty cycle values is made
* automatically by the Peripheral DMA Controller (PDC).
*
* \return Unused (ANSI-C compatibility).
*/
int main(void)
{
uint32_t i;
uint8_t key;
int32_t numkey;
/* Disable watchdog */
WDT_Disable( WDT ) ;
/* Output example information */
printf("-- PWM with PDC Example %s --\n\r", SOFTPACK_VERSION);
printf("-- %s\n\r", BOARD_NAME);
printf("-- Compiled: %s %s --\n\r", __DATE__, __TIME__);
/* PIO configuration */
PIO_Configure(pins, PIO_LISTSIZE(pins));
/* Enable PWMC peripheral clock */
PMC_EnablePeripheral(ID_PWM);
/* Set clock A to run at PWM_FREQUENCY * MAX_DUTY_CYCLE (clock B is not used) */
PWMC_ConfigureClocks(PWM_FREQUENCY * MAX_DUTY_CYCLE, 0, BOARD_MCK);
/* Configure PWMC channel for LED0 (left-aligned, enable dead time generator) */
PWMC_ConfigureChannelExt( PWM,
CHANNEL_PWM_LED0, /* channel */
PWM_CMR_CPRE_CKA, /* prescaler */
0, /* alignment */
0, /* polarity */
0, /* countEventSelect */
PWM_CMR_DTE, /* DTEnable */
0, /* DTHInverte */
0 ); /* DTLInverte */
PWMC_SetPeriod(PWM, CHANNEL_PWM_LED0, MAX_DUTY_CYCLE);
PWMC_SetDutyCycle(PWM, CHANNEL_PWM_LED0, MIN_DUTY_CYCLE);
PWMC_SetDeadTime(PWM, CHANNEL_PWM_LED0, 5, 5);
/* Configure PWMC channel for LED1 */
PWMC_ConfigureChannelExt( PWM,
CHANNEL_PWM_LED1, /* channel */
PWM_CMR_CPRE_CKA, /* prescaler */
0, /* alignment */
0, /* polarity */
0, /* countEventSelect */
0, /* DTEnable */
0, /* DTHInverte */
0 ); /* DTLInverte */
PWMC_SetPeriod(PWM, CHANNEL_PWM_LED1, MAX_DUTY_CYCLE);
PWMC_SetDutyCycle(PWM, CHANNEL_PWM_LED1, MIN_DUTY_CYCLE);
/* Configure PWMC channel for LED2 */
PWMC_ConfigureChannelExt( PWM,
CHANNEL_PWM_LED2, /* channel */
PWM_CMR_CPRE_CKA, /* prescaler */
0, /* alignment */
0, /* polarity */
0, /* countEventSelect */
0, /* DTEnable */
0, /* DTHInverte */
0 ); /* DTLInverte */
PWMC_SetPeriod(PWM, CHANNEL_PWM_LED2, MAX_DUTY_CYCLE);
PWMC_SetDutyCycle(PWM, CHANNEL_PWM_LED2, MIN_DUTY_CYCLE);
/* Set synchronous channels, update mode = 2 */
PWMC_ConfigureSyncChannel(PWM,
(1 << CHANNEL_PWM_LED0) |
(1 << CHANNEL_PWM_LED1) |
(1 << CHANNEL_PWM_LED2),
PWM_SCM_UPDM_MODE2, // (PWMC) Automatic write of data and automatic trigger of the update
0,
0);
/* Set Synchronous channel update period value */
PWMC_SetSyncChannelUpdatePeriod(PWM, PWM_SCUP_UPR(0xF));
/* Configure interrupt for PDC transfer */
NVIC_DisableIRQ(PWM_IRQn);
NVIC_ClearPendingIRQ(PWM_IRQn);
NVIC_SetPriority(PWM_IRQn, 0);
NVIC_EnableIRQ(PWM_IRQn);
PWMC_EnableIt(PWM, 0, PWM_IER2_ENDTX);
/* Set override value to 1 on PWMH0, others is 0. */
PWMC_SetOverrideValue(PWM, PWM_OOV_OOVH0);
/* Fill duty cycle buffer for channel #0, #1 and #2 */
/* For Channel #0, #1, #2 duty cycle are from MIN_DUTY_CYCLE to MAX_DUTY_CYCLE */
for (i = 0; i < DUTY_BUFFER_LENGTH/3; i++) {
dutyBuffer[i*3] = (i + MIN_DUTY_CYCLE);
dutyBuffer[i*3+1] = (i + MIN_DUTY_CYCLE);
dutyBuffer[i*3+2] = (i + MIN_DUTY_CYCLE);
}
/* Define the PDC transfer */
PWMC_WriteBuffer(PWM, dutyBuffer, DUTY_BUFFER_LENGTH);
/* Enable syncronous channels by enable channel #0 */
PWMC_EnableChannel(PWM, CHANNEL_PWM_LED0);
while (1) {
_DisplayMenu();
key = UART_GetChar();
switch (key) {
case 'u':
printf("Input update period between %d to %d.\n\r", 0, PWM_SCUP_UPR_Msk);
numkey = _GetNumkey2Digit();
if(numkey <= PWM_SCUP_UPR_Msk) {
/* Set synchronous channel update period value */
PWMC_SetSyncChannelUpdatePeriod(PWM, numkey);
printf("Done\n\r");
} else {
printf("Invalid input\n\r");
}
break;
case 'd':
printf("Input dead time for channel #0 between %d to %d.\n\r",
MIN_DUTY_CYCLE, MAX_DUTY_CYCLE);
numkey = _GetNumkey2Digit();
if(numkey >= MIN_DUTY_CYCLE && numkey <= MAX_DUTY_CYCLE) {
/* Set synchronous channel update period value */
PWMC_SetDeadTime(PWM, CHANNEL_PWM_LED0, numkey, numkey);
/* Update synchronous channel */
PWMC_SetSyncChannelUpdateUnlock(PWM);
printf("Done\n\r");
} else {
printf("Invalid input\n\r");
}
break;
case 'o':
printf("0: Disable override output on channel #0\n\r");
printf("1: Enable override output on channel #0\n\r");
key = UART_GetChar();
if (key == '1') {
PWMC_EnableOverrideOutput(PWM, PWM_OSSUPD_OSSUPH0 | PWM_OSSUPD_OSSUPL0, 1);
printf("Done\n\r");
} else if (key == '0') {
PWMC_DisableOverrideOutput(PWM, PWM_OSSUPD_OSSUPH0 | PWM_OSSUPD_OSSUPL0, 1);
printf("Done\n\r");
}
break;
default:
printf("Invalid input\n\r");
break;
}
}
}
