C++ (Cpp) PWM_ChannelConfig Exemples

Exemple #1

Fichier : pwm.c Projet : jnugen/robus

void pwm_init(void)
{
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;
	PINSEL_CFG_Type PinCfg;

	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 500;
	PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	/* Initialize PWM pin connect for PWM1[4] on P2[3] */
	PinCfg.Funcnum = 1;
	PinCfg.OpenDrain = 0;
	PinCfg.Pinmode = 0;
	PinCfg.Portnum = 2;
	PinCfg.Pinnum = (EN_PWM_CHN - 1);	// hack
	PINSEL_ConfigPin(&PinCfg);

	/* Set match value for PWM match channel 0 = 256, update immediately */
	PWM_MatchUpdate(LPC_PWM1, 0, 256, PWM_MATCH_UPDATE_NOW);

	/* PWM Timer/Counter will be reset when channel 0 matching
	 * no interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

	/* Configure PWM channel edge option for EN_PWM_CHN */
	PWM_ChannelConfig(LPC_PWM1, EN_PWM_CHN, PWM_CHANNEL_SINGLE_EDGE);

	/* Set initial match value for EN_PWM_CHN to disable output change */
	PWM_MatchUpdate(LPC_PWM1, EN_PWM_CHN, 0, PWM_MATCH_UPDATE_NOW);

	/* Configure match option for EN_PWM_CHN*/
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = EN_PWM_CHN;
	PWMMatchCfgDat.ResetOnMatch = DISABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

	/* Enable PWM Channel Output for EN_PWM_CHN */
	PWM_ChannelCmd(LPC_PWM1, EN_PWM_CHN, ENABLE);

	/* Reset and Start counter */
	PWM_ResetCounter(LPC_PWM1);
	PWM_CounterCmd(LPC_PWM1, ENABLE);

	/* Start PWM now */
	PWM_Cmd(LPC_PWM1, ENABLE);
}

Exemple #2

Fichier : buzzer.c Projet : Blue-Design/R2C2_Firmware

static void buzzer_pwm_set_frequency (uint16_t frequency)
{
  uint32_t match_value = (((float) 1/frequency)) * 1000000;

  PWM_TIMERCFG_Type PWMCfgDat;
  PWM_MATCHCFG_Type PWMMatchCfgDat;

  /* PWM block section -------------------------------------------- */
  /* Initialize PWM peripheral, timer mode
   * PWM prescale value = 1 (absolute value - tick value) */
  PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_USVAL;
  PWMCfgDat.PrescaleValue = 1;
  PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void *) &PWMCfgDat);

  /* Set match value for PWM match channel 0 = match_value, update immediately */
  PWM_MatchUpdate(LPC_PWM1, 0, match_value, PWM_MATCH_UPDATE_NOW);
  /* PWM Timer/Counter will be reset when channel 0 matching
   * no interrupt when match
   * no stop when match */
  PWMMatchCfgDat.IntOnMatch = DISABLE;
  PWMMatchCfgDat.MatchChannel = 0;
  PWMMatchCfgDat.ResetOnMatch = ENABLE;
  PWMMatchCfgDat.StopOnMatch = DISABLE;
  PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

  /* Configure PWM channel: --------------------------------------------- */
  /* - Single edge
   * - PWM Duty on each PWM channel determined by
   * the match on channel 0 to the match of that match channel.
   * Example: PWM Duty on PWM channel 1 determined by
   * the match on channel 0 to the match of match channel 1.
   */

  /* Configure PWM channel edge option
   * Note: PWM Channel 1 is in single mode as default state and
   * can not be changed to double edge mode */
  PWM_ChannelConfig(LPC_PWM1, 3, PWM_CHANNEL_SINGLE_EDGE);

  /* Set up match value */
  PWM_MatchUpdate(LPC_PWM1, 3, match_value/2, PWM_MATCH_UPDATE_NOW);
  /* Configure match option */
  PWMMatchCfgDat.IntOnMatch = DISABLE;
  PWMMatchCfgDat.MatchChannel = 3;
  PWMMatchCfgDat.ResetOnMatch = DISABLE;
  PWMMatchCfgDat.StopOnMatch = DISABLE;
  PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);
  /* Enable PWM Channel Output */
  PWM_ChannelCmd(LPC_PWM1, 3, ENABLE);
}

Exemple #3

Fichier : _lpc17xx_pwm.c Projet : AutonomyLab/Raymond

int _PWM_ChannelConfig(uint8_t * args)
{
	uint8_t * arg_ptr;
	LPC_PWM_TypeDef* PWMx;
	uint8_t PWMChannel;
	uint8_t ModeOption;

	if ((arg_ptr = (uint8_t *) strtok(NULL, " ")) == NULL) return 1;
	PWMx = (LPC_PWM_TypeDef*) strtoul((char *) arg_ptr, NULL, 16);
	if ((arg_ptr = (uint8_t *) strtok(NULL, " ")) == NULL) return 1;
	PWMChannel = (uint8_t) strtoul((char *) arg_ptr, NULL, 16);
	if ((arg_ptr = (uint8_t *) strtok(NULL, " ")) == NULL) return 1;
	ModeOption = (uint8_t) strtoul((char *) arg_ptr, NULL, 16);

	PWM_ChannelConfig(PWMx, PWMChannel, ModeOption);
	return 0;
}

Exemple #4

Fichier : pwm.c Projet : Q-Mart/EMPR-MiniProjects

void pwmInit(int base, int channel){
  /*Initialise the pwm controller
   * @param base: Your base time for channel 0
   * @param channel: The channel you wish to activat
   */

  PINSEL_CFG_Type pinCfg;
  PWM_TIMERCFG_Type PWMCfgDat;
  PWM_MATCHCFG_Type PWMMatchCfgDat;
  PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
  PWMCfgDat.PrescaleValue = 1;
  PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void*) &PWMCfgDat);

  pinCfg.Funcnum = 1;
  pinCfg.OpenDrain = 0;
  pinCfg.Pinmode = 0;
  pinCfg.Portnum = 2;
  pinCfg.Pinnum = 5;
  PINSEL_ConfigPin(&pinCfg);

  PWM_MatchUpdate(LPC_PWM1, 0, base, PWM_MATCH_UPDATE_NOW);
  PWMMatchCfgDat.IntOnMatch = DISABLE;
  PWMMatchCfgDat.MatchChannel = 0;
  PWMMatchCfgDat.ResetOnMatch = ENABLE;
  PWMMatchCfgDat.StopOnMatch = DISABLE;
  PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

  PWM_ChannelConfig(LPC_PWM1, channel, PWM_CHANNEL_SINGLE_EDGE);

  PWMMatchCfgDat.IntOnMatch = DISABLE;
  PWMMatchCfgDat.MatchChannel = channel;
  PWMMatchCfgDat.ResetOnMatch = DISABLE;
  PWMMatchCfgDat.StopOnMatch = DISABLE;
  PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);
  PWM_ChannelCmd(LPC_PWM1, channel, ENABLE);

  PWM_ResetCounter(LPC_PWM1);
  PWM_CounterCmd(LPC_PWM1, ENABLE);
  PWM_Cmd(LPC_PWM1, ENABLE);
}

Exemple #5

Fichier : platform.c Projet : ARMinARM/elua

u32 platform_pwm_setup( unsigned id, u32 frequency, unsigned duty )
{
  PWM_MATCHCFG_Type PWMMatchCfgDat;
  u32 divisor = platform_pwm_get_clock( id ) / frequency - 1;
    
  PWM_MatchUpdate( LPC_PWM1, 0, divisor, PWM_MATCH_UPDATE_NOW ); // PWM1 cycle rate
  PWM_MatchUpdate( LPC_PWM1, id, ( divisor * duty ) / 100, PWM_MATCH_UPDATE_NOW ); // PWM1 channel edge position
  
  if ( id > 1 ) // Channel one is permanently single-edge
    PWM_ChannelConfig( LPC_PWM1, id, PWM_CHANNEL_SINGLE_EDGE );
  
  PWMMatchCfgDat.IntOnMatch = DISABLE;
  PWMMatchCfgDat.MatchChannel = id;
  PWMMatchCfgDat.ResetOnMatch = DISABLE;
  PWMMatchCfgDat.StopOnMatch = DISABLE;
  PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

  PWM_ResetCounter(LPC_PWM1);
  PWM_CounterCmd(LPC_PWM1, ENABLE);

  PWM_ChannelCmd(LPC_PWM1, id, ENABLE);

  return platform_pwm_get_clock( id ) / divisor;
}

Exemple #6

Fichier : PWM.cpp Projet : koson/OpenOBC

PWM::PWM(uint8_t port, uint8_t pin, float dutyCycle, float frequency)
{
	this->port = port;
	this->pin = pin;
	this->dutyCycle = dutyCycle;
	this->frequency = frequency;

	PINSEL_CFG_Type PinCfg;
	if(port == 1 && pin == 18)
	{
		PinCfg.Funcnum = 2;
		this->channel = 1;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 1 && pin == 20)
	{
		PinCfg.Funcnum = 2;
		this->channel = 2;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 1 && pin == 21)
	{
		PinCfg.Funcnum = 2;
		this->channel = 3;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 1 && pin == 23)
	{
		PinCfg.Funcnum = 2;
		this->channel = 4;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 1 && pin == 24)
	{
		PinCfg.Funcnum = 2;
		this->channel = 5;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 1 && pin == 26)
	{
		PinCfg.Funcnum = 2;
		this->channel = 6;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 2 && pin == 0)
	{
		PinCfg.Funcnum = 1;
		this->channel = 1;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 2 && pin == 1)
	{
		PinCfg.Funcnum = 1;
		this->channel = 2;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 2 && pin == 2)
	{
		PinCfg.Funcnum = 1;
		this->channel = 3;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 2 && pin == 3)
	{
		PinCfg.Funcnum = 1;
		this->channel = 4;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 2 && pin == 4)
	{
		PinCfg.Funcnum = 1;
		this->channel = 5;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 2 && pin == 5)
	{
		PinCfg.Funcnum = 1;
		this->channel = 6;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 3 && pin == 25)
	{
		PinCfg.Funcnum = 3;
		this->channel = 2;
		this->peripheral = LPC_PWM1;
	}
	else if(port == 3 && pin == 26)
	{
		PinCfg.Funcnum = 3;
		this->channel = 3;
		this->peripheral = LPC_PWM1;
	}
	else
	{
		//invalid port/pin specified
// 		check_failed((uint8_t *)__FILE__, __LINE__);
		while(1);
	}

	PinCfg.Portnum = port;
	PinCfg.Pinnum = pin;
	PinCfg.OpenDrain = PINSEL_PINMODE_NORMAL;
	PinCfg.Pinmode = PINSEL_PINMODE_TRISTATE;
	PINSEL_ConfigPin(&PinCfg);


	if(isInitialized)
	{
		uint32_t pwmclk = CLKPWR_GetPCLK(CLKPWR_PCLKSEL_PWM1);

		/* Set match value for PWM match channel 0 and reset on match to set the period for all channels */
		PWM_MatchUpdate(this->peripheral, 0, pwmclk / this->frequency, PWM_MATCH_UPDATE_NOW);
		PWM_MATCHCFG_Type PWMMatchCfgDat;
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = 0;
		PWMMatchCfgDat.ResetOnMatch = ENABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(this->peripheral, &PWMMatchCfgDat);


		/* Configure each PWM channel: --------------------------------------------- */
		/* - Single edge
		 * - PWM Duty on each PWM channel determined by
		 * the match on channel 0 to the match of that match channel.
		 * Example: PWM Duty on PWM channel 1 determined by
		 * the match on channel 0 to the match of match channel 1.
		 */
		PWM_ChannelConfig(this->peripheral, this->channel, PWM_CHANNEL_SINGLE_EDGE);


		/* Set up match value */
		PWM_MatchUpdate(this->peripheral, this->channel, this->dutyCycle * (pwmclk / this->frequency), PWM_MATCH_UPDATE_NOW);
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = this->channel;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(this->peripheral, &PWMMatchCfgDat);

		/* Enable PWM Channel Output */
		PWM_ChannelCmd(this->peripheral, this->channel, ENABLE);
		return;
	}
	isInitialized = true;

	
	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWM_TIMERCFG_Type PWMCfgDat;
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(this->peripheral, PWM_MODE_TIMER, (void*)&PWMCfgDat);

	uint32_t pwmclk = CLKPWR_GetPCLK(CLKPWR_PCLKSEL_PWM1);

	/* Set match value for PWM match channel 0 and reset on match to set the period for all channels */
	PWM_MatchUpdate(this->peripheral, 0, pwmclk / this->frequency, PWM_MATCH_UPDATE_NOW);
	PWM_MATCHCFG_Type PWMMatchCfgDat;
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(this->peripheral, &PWMMatchCfgDat);


	/* Configure each PWM channel: --------------------------------------------- */
	/* - Single edge
	 * - PWM Duty on each PWM channel determined by
	 * the match on channel 0 to the match of that match channel.
	 * Example: PWM Duty on PWM channel 1 determined by
	 * the match on channel 0 to the match of match channel 1.
	 */
	PWM_ChannelConfig(this->peripheral, this->channel, PWM_CHANNEL_SINGLE_EDGE);


	/* Set up match value */
	PWM_MatchUpdate(this->peripheral, this->channel, this->dutyCycle * (pwmclk / this->frequency), PWM_MATCH_UPDATE_NOW);
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = this->channel;
	PWMMatchCfgDat.ResetOnMatch = DISABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(this->peripheral, &PWMMatchCfgDat);
	
	/* Enable PWM Channel Output */
	PWM_ChannelCmd(this->peripheral, this->channel, ENABLE);
	
	/* Reset and Start counter */
	PWM_ResetCounter(this->peripheral);
	PWM_CounterCmd(this->peripheral, ENABLE);
	
	/* Start PWM now */
	PWM_Cmd(this->peripheral, ENABLE);
}

Exemple #7

Fichier : pwm_dual_edge.c Projet : m3y54m/32bitmicro

/*********************************************************************//**
 * @brief		c_entry: Main PWM program body
 * @param[in]	None
 * @return 		int
 **********************************************************************/
int c_entry(void)
{
	uint8_t temp;
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;
	PINSEL_CFG_Type PinCfg;

	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	/*
	 * Initialize PWM pin connect
	 *
	 */
	PinCfg.Funcnum = 1;
	PinCfg.OpenDrain = 0;
	PinCfg.Pinmode = 0;
	PinCfg.Portnum = 2;
	for (temp = 0; temp <= 6; temp++){
		PinCfg.Pinnum = temp;
		PINSEL_ConfigPin(&PinCfg);
	}


	/* Set match value for PWM match channel 0 = 100, update immediately */
	PWM_MatchUpdate(LPC_PWM1, 0, 100, PWM_MATCH_UPDATE_NOW);
	/* PWM Timer/Counter will be reset when channel 0 matching
	 * no interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

	/* Configure each PWM channel: --------------------------------------------- */
	/* - Channel 2: Double Edge
	 * - Channel 4: Double Edge
	 * - Channel 5: Single Edge
	 * The Match register values are as follows:
	 * - MR0 = 100 (PWM rate)
	 * - MR1 = 41, MR2 = 78 (PWM2 output)
	 * - MR3 = 53, MR4 = 27 (PWM4 output)
	 * - MR5 = 65 (PWM5 output)
	 * PWM Duty on each PWM channel:
	 * - Channel 2: Set by match 1, Reset by match 2.
	 * - Channel 4: Set by match 3, Reset by match 4.
	 * - Channel 5: Set by match 0, Reset by match 5.
	 */

	/* Edge setting ------------------------------------ */
	PWM_ChannelConfig(LPC_PWM1, 2, PWM_CHANNEL_DUAL_EDGE);
	PWM_ChannelConfig(LPC_PWM1, 4, PWM_CHANNEL_DUAL_EDGE);
	PWM_ChannelConfig(LPC_PWM1, 5, PWM_CHANNEL_SINGLE_EDGE);

	/* Match value setting ------------------------------------ */
	PWM_MatchUpdate(LPC_PWM1, 1, 41, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(LPC_PWM1, 2, 78, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(LPC_PWM1, 3, 53, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(LPC_PWM1, 4, 27, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(LPC_PWM1, 5, 65, PWM_MATCH_UPDATE_NOW);


	/* Match option setting ------------------------------------ */
	for (temp = 1; temp < 6; temp++)
	{
		/* Configure match option */
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = temp;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);
	}

	/* Enable PWM Channel Output ------------------------------------ */
	/* Channel 2 */
	PWM_ChannelCmd(LPC_PWM1, 2, ENABLE);
	/* Channel 4 */
	PWM_ChannelCmd(LPC_PWM1, 4, ENABLE);
	/* Channel 5 */
	PWM_ChannelCmd(LPC_PWM1, 5, ENABLE);

	/* Reset and Start counter */
	PWM_ResetCounter(LPC_PWM1);
	PWM_CounterCmd(LPC_PWM1, ENABLE);

	/* Start PWM now */
	PWM_Cmd(LPC_PWM1, ENABLE);

    /* Loop forever */
    while(1);
    return 1;
}

Exemple #8

Fichier : Pwm_DualEdge.c Projet : satyanarayangullapalli/arm_lpc_1788_sdk

/*********************************************************************//**
 * @brief		c_entry: Main PWM program body
 * @param[in]	None
 * @return 		None
 **********************************************************************/
void c_entry(void)
{
	uint8_t pwmChannel;
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;

	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(_USING_PWM_NO, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	// Initialize PWM pin connect
#if (_USING_PWM_NO == 1)
	for (pwmChannel = 0; pwmChannel <= 6; pwmChannel++)
	{
		PINSEL_ConfigPin (2, pwmChannel, 1);
	}
#elif (_USING_PWM_NO == 0)
	PINSEL_ConfigPin (1, 2, 3);//PWM0.1
	PINSEL_ConfigPin (1, 3, 3);//PWM0.2
	PINSEL_ConfigPin (1, 5, 3);//PWM0.3
	PINSEL_ConfigPin (1, 6, 3);//PWM0.4
	PINSEL_ConfigPin (1, 7, 3);//PWM0.5
	PINSEL_ConfigPin (1, 11, 3);//PWM0.6
#else
	return 0;
#endif


	/* Set match value for PWM match channel 0 = 100, update immediately */
	PWM_MatchUpdate(_USING_PWM_NO, 0, 100, PWM_MATCH_UPDATE_NOW);

	/* PWM Timer/Counter will be reset when channel 0 matching
	 * no interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(_USING_PWM_NO, &PWMMatchCfgDat);

	/* Configure each PWM channel: --------------------------------------------- */
	/* - Channel 2: Double Edge
	 * - Channel 4: Double Edge
	 * - Channel 5: Single Edge
	 * The Match register values are as follows:
	 * - MR0 = 100 (PWM rate)
	 * - MR1 = 41, MR2 = 78 (PWM2 output)
	 * - MR3 = 53, MR4 = 27 (PWM4 output)
	 * - MR5 = 65 (PWM5 output)
	 * PWM Duty on each PWM channel:
	 * - Channel 2: Set by match 1, Reset by match 2.
	 * - Channel 4: Set by match 3, Reset by match 4.
	 * - Channel 5: Set by match 0, Reset by match 5.
	 */

	/* Edge setting ------------------------------------ */
	PWM_ChannelConfig(_USING_PWM_NO, 2, PWM_CHANNEL_DUAL_EDGE);
	PWM_ChannelConfig(_USING_PWM_NO, 4, PWM_CHANNEL_DUAL_EDGE);
	PWM_ChannelConfig(_USING_PWM_NO, 5, PWM_CHANNEL_SINGLE_EDGE);

	/* Match value setting ------------------------------------ */
	PWM_MatchUpdate(_USING_PWM_NO, 1, 41, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(_USING_PWM_NO, 2, 78, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(_USING_PWM_NO, 3, 53, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(_USING_PWM_NO, 4, 27, PWM_MATCH_UPDATE_NOW);
	PWM_MatchUpdate(_USING_PWM_NO, 5, 65, PWM_MATCH_UPDATE_NOW);


	/* Match option setting ------------------------------------ */
	for (pwmChannel = 1; pwmChannel < 6; pwmChannel++)
	{
		/* Configure match option */
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = pwmChannel;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;

		PWM_ConfigMatch(PWM_1, &PWMMatchCfgDat);
	}

	/* Enable PWM Channel Output ------------------------------------ */
	/* Channel 2 */
	PWM_ChannelCmd(_USING_PWM_NO, 2, ENABLE);

	/* Channel 4 */
	PWM_ChannelCmd(_USING_PWM_NO, 4, ENABLE);

	/* Channel 5 */
	PWM_ChannelCmd(_USING_PWM_NO, 5, ENABLE);

	/* Reset and Start counter */
	PWM_ResetCounter(_USING_PWM_NO);

	PWM_CounterCmd(_USING_PWM_NO, ENABLE);

	/* Start PWM now */
	PWM_Cmd(_USING_PWM_NO, ENABLE);

    /* Loop forever */
    while(1);
}

Exemple #9

Fichier : pwm_match_int.c Projet : readermank/kico_si5

/*********************************************************************//**
 * @brief		c_entry: Main PWM program body
 * @param[in]	None
 * @return 		int
 **********************************************************************/
int c_entry(void)
{
	uint8_t temp, temp2;
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;
	PINSEL_CFG_Type PinCfg;

	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	/*
	 * Initialize PWM pin connect
	 */
	PinCfg.Funcnum = 1;
	PinCfg.OpenDrain = 0;
	PinCfg.Pinmode = 0;
	PinCfg.Portnum = 2;
	for (temp = 0; temp <= 6; temp++){
		PinCfg.Pinnum = temp;
		PINSEL_ConfigPin(&PinCfg);
	}


	/* Set match value for PWM match channel 0 = 256, update immediately */
	PWM_MatchUpdate(LPC_PWM1, 0, 256, PWM_MATCH_UPDATE_NOW);
	/* PWM Timer/Counter will be reset when channel 0 matching
	 * Enable interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = ENABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

	/* Configure each PWM channel: --------------------------------------------- */
	/* - Single edge
	 * - PWM Duty on each PWM channel determined by
	 * the match on channel 0 to the match of that match channel.
	 * Example: PWM Duty on PWM channel 1 determined by
	 * the match on channel 0 to the match of match channel 1.
	 */

	/* Configure PWM channel edge option
	 * Note: PWM Channel 1 is in single mode as default state and
	 * can not be changed to double edge mode */
	for (temp = 2; temp < 7; temp++)
	{
		PWM_ChannelConfig(LPC_PWM1, temp, PWM_CHANNEL_SINGLE_EDGE);
	}

	/* Setting interrupt for PWM ---------------------------------------------- */
    /* Disable PWM interrupt */
    NVIC_DisableIRQ(PWM1_IRQn);
    /* preemption = 1, sub-priority = 1 */
    NVIC_SetPriority(PWM1_IRQn, ((0x01<<3)|0x01));

	/* Configure match value for each match channel */
	temp2 = 10;
	for (temp = 1; temp < 7; temp++)
	{
		/* Set up match value */
		PWM_MatchUpdate(LPC_PWM1, temp, temp2, PWM_MATCH_UPDATE_NOW);
		/* Configure match option */
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = temp;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);
		/* Enable PWM Channel Output */
		PWM_ChannelCmd(LPC_PWM1, temp, ENABLE);
		/* Increase match value by 10 */
		temp2 += 10;
	}

    /* Enable PWM interrupt */
    NVIC_EnableIRQ(PWM1_IRQn);

	/* Reset and Start counter */
	PWM_ResetCounter(LPC_PWM1);
	PWM_CounterCmd(LPC_PWM1, ENABLE);

	/* Start PWM now */
	PWM_Cmd(LPC_PWM1, ENABLE);

	// Update PWM1.1 every 0x1000 match interrupt
	while (1)
	{
		if (match_cnt >= 0x1000) {
			match_cnt = 0;
			long_duty++;
			if (long_duty >= 256) {
				// Reset duty
				long_duty = 0;
				// Print info
				//UART_Puts_(uartdev, "PWM1.1 is reset!");
			}

			// Update PWM1.1 duty
			PWM_MatchUpdate(LPC_PWM1, 1, long_duty, PWM_MATCH_UPDATE_NOW);
		}
	}
    return 1;
}

Exemple #10

Fichier : pwm_single_edge.c Projet : DesignByArie/lpc17xx.cmsis.driver.library

/*********************************************************************//**
 * @brief		c_entry: Main PWM program body
 * @param[in]	None
 * @return 		int
 **********************************************************************/
int c_entry(void)
{
	uint8_t temp, temp2;
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;
	PINSEL_CFG_Type PinCfg;

	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	/*
	 * Initialize PWM pin connect
	 */
	PinCfg.Funcnum = 1;
	PinCfg.OpenDrain = 0;
	PinCfg.Pinmode = 0;
	PinCfg.Portnum = 2;
	for (temp = 0; temp <= 6; temp++){
		PinCfg.Pinnum = temp;
		PINSEL_ConfigPin(&PinCfg);
	}


	/* Set match value for PWM match channel 0 = 256, update immediately */
	PWM_MatchUpdate(LPC_PWM1, 0, 256, PWM_MATCH_UPDATE_NOW);
	/* PWM Timer/Counter will be reset when channel 0 matching
	 * no interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

	/* Configure each PWM channel: --------------------------------------------- */
	/* - Single edge
	 * - PWM Duty on each PWM channel determined by
	 * the match on channel 0 to the match of that match channel.
	 * Example: PWM Duty on PWM channel 1 determined by
	 * the match on channel 0 to the match of match channel 1.
	 */

	/* Configure PWM channel edge option
	 * Note: PWM Channel 1 is in single mode as default state and
	 * can not be changed to double edge mode */
	for (temp = 2; temp < 7; temp++)
	{
		PWM_ChannelConfig(LPC_PWM1, temp, PWM_CHANNEL_SINGLE_EDGE);
	}


	/* Configure match value for each match channel */
	temp2 = 10;
	for (temp = 1; temp < 7; temp++)
	{
		/* Set up match value */
		PWM_MatchUpdate(LPC_PWM1, temp, temp2, PWM_MATCH_UPDATE_NOW);
		/* Configure match option */
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = temp;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);
		/* Enable PWM Channel Output */
		PWM_ChannelCmd(LPC_PWM1, temp, ENABLE);
		/* Increase match value by 10 */
		temp2 += 10;
	}

	/* Reset and Start counter */
	PWM_ResetCounter(LPC_PWM1);
	PWM_CounterCmd(LPC_PWM1, ENABLE);

	/* Start PWM now */
	PWM_Cmd(LPC_PWM1, ENABLE);

    /* Loop forever */
    while(1);
    return 1;
}

Exemple #11

Fichier : pwm_single_edge.c Projet : glocklueng/micropendousx

/*********************************************************************//**
 * @brief	Main PWM program body
 **********************************************************************/
int c_entry(void)
{
	uint8_t temp, temp2;
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;
	PINSEL_CFG_Type PinCfg;

	// DeInit NVIC and SCBNVIC
	NVIC_DeInit();
	NVIC_SCBDeInit();

	/* Configure the NVIC Preemption Priority Bits:
	 * two (2) bits of preemption priority, six (6) bits of sub-priority.
	 * Since the Number of Bits used for Priority Levels is five (5), so the
	 * actual bit number of sub-priority is three (3)
	 */
	NVIC_SetPriorityGrouping(0x05);

	//  Set Vector table offset value
#if (__RAM_MODE__==1)
	NVIC_SetVTOR(0x10000000);
#else
	NVIC_SetVTOR(0x00000000);
#endif

	/* Initialize debug */
	debug_frmwrk_init();

	// print welcome screen
	print_menu();

	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(LPC_PWM1, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	/*
	 * Initialize PWM pin connect
	 */
	PinCfg.Funcnum = 1;
	PinCfg.OpenDrain = 0;
	PinCfg.Pinmode = 0;
	PinCfg.Portnum = 2;
	for (temp = 0; temp <= 6; temp++){
		PinCfg.Pinnum = temp;
		PINSEL_ConfigPin(&PinCfg);
	}


	/* Set match value for PWM match channel 0 = 256, update immediately */
	PWM_MatchUpdate(LPC_PWM1, 0, 256, PWM_MATCH_UPDATE_NOW);
	/* PWM Timer/Counter will be reset when channel 0 matching
	 * no interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = DISABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);

	/* Configure each PWM channel: --------------------------------------------- */
	/* - Single edge
	 * - PWM Duty on each PWM channel determined by
	 * the match on channel 0 to the match of that match channel.
	 * Example: PWM Duty on PWM channel 1 determined by
	 * the match on channel 0 to the match of match channel 1.
	 */

	/* Configure PWM channel edge option
	 * Note: PWM Channel 1 is in single mode as default state and
	 * can not be changed to double edge mode */
	for (temp = 2; temp < 7; temp++)
	{
		PWM_ChannelConfig(LPC_PWM1, temp, PWM_CHANNEL_SINGLE_EDGE);
	}


	/* Configure match value for each match channel */
	temp2 = 10;
	for (temp = 1; temp < 7; temp++)
	{
		/* Set up match value */
		PWM_MatchUpdate(LPC_PWM1, temp, temp2, PWM_MATCH_UPDATE_NOW);
		/* Configure match option */
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = temp;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(LPC_PWM1, &PWMMatchCfgDat);
		/* Enable PWM Channel Output */
		PWM_ChannelCmd(LPC_PWM1, temp, ENABLE);
		/* Increase match value by 10 */
		temp2 += 10;
	}

	/* Reset and Start counter */
	PWM_ResetCounter(LPC_PWM1);
	PWM_CounterCmd(LPC_PWM1, ENABLE);

	/* Start PWM now */
	PWM_Cmd(LPC_PWM1, ENABLE);

    /* Loop forever */
    while(1);
    return 1;
}

Exemple #12

Fichier : Pwm_MatchInterrupt.c Projet : satyanarayangullapalli/arm_lpc_1788_sdk

/*********************************************************************//**
 * @brief		c_entry: Main PWM program body
 * @param[in]	None
 * @return 		None
 **********************************************************************/
void c_entry(void)
{
	uint8_t pwmChannel, channelVal;
	PWM_TIMERCFG_Type PWMCfgDat;
	PWM_MATCHCFG_Type PWMMatchCfgDat;

	/* PWM block section -------------------------------------------- */
	/* Initialize PWM peripheral, timer mode
	 * PWM prescale value = 1 (absolute value - tick value) */
	PWMCfgDat.PrescaleOption = PWM_TIMER_PRESCALE_TICKVAL;
	PWMCfgDat.PrescaleValue = 1;
	PWM_Init(_USING_PWM_NO, PWM_MODE_TIMER, (void *) &PWMCfgDat);

	// Initialize PWM pin connect
#if (_USING_PWM_NO == 1)
	for (pwmChannel = 0; pwmChannel <= 6; pwmChannel++)
	{
		PINSEL_ConfigPin (2, pwmChannel, 1);
	}
#elif (_USING_PWM_NO == 0)
	PINSEL_ConfigPin (1, 2, 3);//PWM0.1
	PINSEL_ConfigPin (1, 3, 3);//PWM0.2
	PINSEL_ConfigPin (1, 5, 3);//PWM0.3
	PINSEL_ConfigPin (1, 6, 3);//PWM0.4
	PINSEL_ConfigPin (1, 7, 3);//PWM0.5
	PINSEL_ConfigPin (1, 11, 3);//PWM0.6
#else
	return 0;
#endif


	/* Set match value for PWM match channel 0 = 256, update immediately */
	PWM_MatchUpdate(_USING_PWM_NO, 0, 256, PWM_MATCH_UPDATE_NOW);

	/* PWM Timer/Counter will be reset when channel 0 matching
	 * Enable interrupt when match
	 * no stop when match */
	PWMMatchCfgDat.IntOnMatch = ENABLE;
	PWMMatchCfgDat.MatchChannel = 0;
	PWMMatchCfgDat.ResetOnMatch = ENABLE;
	PWMMatchCfgDat.StopOnMatch = DISABLE;
	PWM_ConfigMatch(_USING_PWM_NO, &PWMMatchCfgDat);

	/* Configure each PWM channel: --------------------------------------------- */
	/* - Single edge
	 * - PWM Duty on each PWM channel determined by
	 * the match on channel 0 to the match of that match channel.
	 * Example: PWM Duty on PWM channel 1 determined by
	 * the match on channel 0 to the match of match channel 1.
	 */

	/* Configure PWM channel edge option
	 * Note: PWM Channel 1 is in single mode as default state and
	 * can not be changed to double edge mode */
	for (pwmChannel = 2; pwmChannel < 7; pwmChannel++)
	{
		PWM_ChannelConfig(_USING_PWM_NO, pwmChannel, PWM_CHANNEL_SINGLE_EDGE);
	}

	/* Setting interrupt for PWM ---------------------------------------------- */
    /* Disable PWM interrupt */
#if (_USING_PWM_NO == 1)
    NVIC_DisableIRQ(PWM1_IRQn);

	/* preemption = 1, sub-priority = 1 */
    NVIC_SetPriority(PWM1_IRQn, ((0x01<<3)|0x01));
#elif (_USING_PWM_NO == 0)
	NVIC_DisableIRQ(PWM0_IRQn);

	/* preemption = 1, sub-priority = 1 */
    NVIC_SetPriority(PWM0_IRQn, ((0x01<<3)|0x01));
#endif

	/* Configure match value for each match channel */
	channelVal = 10;
	for (pwmChannel = 1; pwmChannel < 7; pwmChannel++)
	{
		/* Set up match value */
		PWM_MatchUpdate(_USING_PWM_NO, pwmChannel, channelVal, PWM_MATCH_UPDATE_NOW);

		/* Configure match option */
		PWMMatchCfgDat.IntOnMatch = DISABLE;
		PWMMatchCfgDat.MatchChannel = pwmChannel;
		PWMMatchCfgDat.ResetOnMatch = DISABLE;
		PWMMatchCfgDat.StopOnMatch = DISABLE;
		PWM_ConfigMatch(_USING_PWM_NO, &PWMMatchCfgDat);

		/* Enable PWM Channel Output */
		PWM_ChannelCmd(_USING_PWM_NO, pwmChannel, ENABLE);

		/* Increase match value by 10 */
		channelVal += 30;
	}

    /* Enable PWM interrupt */
#if (_USING_PWM_NO == 1)
	NVIC_EnableIRQ(PWM1_IRQn);
#elif (_USING_PWM_NO == 0)
	NVIC_EnableIRQ(PWM0_IRQn);
#endif

	/* Reset and Start counter */
	PWM_ResetCounter(_USING_PWM_NO);

	PWM_CounterCmd(_USING_PWM_NO, ENABLE);

	/* Start PWM now */
	PWM_Cmd(_USING_PWM_NO, ENABLE);

	// Update PWM1.1 every 0x1000 match interrupt
	while (1)
	{
		if (match_cnt >= 0x1000)
		{
			match_cnt = 0;
			long_duty++;
			if (long_duty >= 256)
			{
				// Reset duty
				long_duty = 0;
			}

			// Update PWM1.1 duty
			PWM_MatchUpdate(_USING_PWM_NO, 1, long_duty, PWM_MATCH_UPDATE_NOW);
		}
	}
}