rt-thread-official/bsp/nxp/lpc/lpc408x/Libraries/Drivers/include/lpc_pwm.h

358 lines
13 KiB
C

/**********************************************************************
* $Id$ lpc_pwm.h 2011-06-02
*//**
* @file lpc_pwm.h
* @brief Contains all macro definitions and function prototypes
* support for PWM firmware library on LPC
* @version 1.0
* @date 02. June. 2011
* @author NXP MCU SW Application Team
*
* Copyright(C) 2011, NXP Semiconductor
* All rights reserved.
*
***********************************************************************
* Software that is described herein is for illustrative purposes only
* which provides customers with programming information regarding the
* products. This software is supplied "AS IS" without any warranties.
* NXP Semiconductors assumes no responsibility or liability for the
* use of the software, conveys no license or title under any patent,
* copyright, or mask work right to the product. NXP Semiconductors
* reserves the right to make changes in the software without
* notification. NXP Semiconductors also make no representation or
* warranty that such application will be suitable for the specified
* use without further testing or modification.
* Permission to use, copy, modify, and distribute this software and its
* documentation is hereby granted, under NXP Semiconductors'
* relevant copyright in the software, without fee, provided that it
* is used in conjunction with NXP Semiconductors microcontrollers. This
* copyright, permission, and disclaimer notice must appear in all copies of
* this code.
**********************************************************************/
/* Peripheral group ----------------------------------------------------------- */
/** @defgroup PWM PWM (Pulse Width Modulator)
* @ingroup LPC_CMSIS_FwLib_Drivers
* @{
*/
#ifndef __LPC_PWM_H_
#define __LPC_PWM_H_
/* Includes ------------------------------------------------------------------- */
#include "LPC407x_8x_177x_8x.h"
#include "lpc_types.h"
#ifdef __cplusplus
extern "C"
{
#endif
/* Private Macros ------------------------------------------------------------- */
/** @defgroup PWM_Private_Macros PWM Private Macros
* @{
*/
/* --------------------- BIT DEFINITIONS -------------------------------------- */
/**********************************************************************
* IR register definitions
**********************************************************************/
/** Interrupt flag for PWM match channel for 6 channel */
#define PWM_IR_PWMMRn(n) ((uint32_t)((n<4)?(1<<n):(1<<(n+4))))
/** Interrupt flag for capture input */
#define PWM_IR_PWMCAPn(n) ((uint32_t)(1<<(n+4)))
/** IR register mask */
#define PWM_IR_BITMASK ((uint32_t)(0x0000073F))
/**********************************************************************
* TCR register definitions
**********************************************************************/
/** TCR register mask */
#define PWM_TCR_BITMASK ((uint32_t)(0x0000000B))
/** PWM Counter Enable */
#define PWM_TCR_COUNTER_ENABLE ((uint32_t)(1<<0))
/** PWM Counter Reset */
#define PWM_TCR_COUNTER_RESET ((uint32_t)(1<<1))
/** PWM Enable */
#define PWM_TCR_PWM_ENABLE ((uint32_t)(1<<3))
/**********************************************************************
* CTCR register definitions
**********************************************************************/
/** CTCR register mask */
#define PWM_CTCR_BITMASK ((uint32_t)(0x0000000F))
/** PWM Counter-Timer Mode */
#define PWM_CTCR_MODE(n) ((uint32_t)(n&0x03))
/** PWM Capture input select */
#define PWM_CTCR_SELECT_INPUT(n) ((uint32_t)((n&0x03)<<2))
/**********************************************************************
* MCR register definitions
**********************************************************************/
/** MCR register mask */
#define PWM_MCR_BITMASK ((uint32_t)(0x001FFFFF))
/** generate a PWM interrupt when a MATCHn occurs */
#define PWM_MCR_INT_ON_MATCH(n) ((uint32_t)(1<<(((n&0x7)<<1)+(n&0x07))))
/** reset the PWM when a MATCHn occurs */
#define PWM_MCR_RESET_ON_MATCH(n) ((uint32_t)(1<<(((n&0x7)<<1)+(n&0x07)+1)))
/** stop the PWM when a MATCHn occurs */
#define PWM_MCR_STOP_ON_MATCH(n) ((uint32_t)(1<<(((n&0x7)<<1)+(n&0x07)+2)))
/**********************************************************************
* CCR register definitions
**********************************************************************/
/** CCR register mask */
#define PWM_CCR_BITMASK ((uint32_t)(0x0000003F))
/** PCAPn is rising edge sensitive */
#define PWM_CCR_CAP_RISING(n) ((uint32_t)(1<<(((n&0x2)<<1)+(n&0x1))))
/** PCAPn is falling edge sensitive */
#define PWM_CCR_CAP_FALLING(n) ((uint32_t)(1<<(((n&0x2)<<1)+(n&0x1)+1)))
/** PWM interrupt is generated on a PCAP event */
#define PWM_CCR_INT_ON_CAP(n) ((uint32_t)(1<<(((n&0x2)<<1)+(n&0x1)+2)))
/**********************************************************************
* PCR register definitions
**********************************************************************/
/** PCR register mask */
#define PWM_PCR_BITMASK (uint32_t)0x00007E7C
/** PWM output n is a single edge controlled output */
#define PWM_PCR_PWMSELn(n) ((uint32_t)(((n&0x7)<2) ? 0 : (1<<n)))
/** enable PWM output n */
#define PWM_PCR_PWMENAn(n) ((uint32_t)(((n&0x7)<1) ? 0 : (1<<(n+8))))
/**********************************************************************
* LER register definitions
**********************************************************************/
/** LER register mask*/
#define PWM_LER_BITMASK ((uint32_t)(0x0000007F))
/** PWM MATCHn register update control */
#define PWM_LER_EN_MATCHn_LATCH(n) ((uint32_t)((n<7) ? (1<<n) : 0))
/**
* @}
*/
/* Public Types --------------------------------------------------------------- */
/** @defgroup PWM_Public_Types PWM Public Types
* @{
*/
typedef enum
{
PWM_0 = 0,
PWM_1 = 1
} en_PWM_unitId;
/** @brief Configuration structure in PWM TIMER mode */
typedef struct
{
uint8_t PrescaleOption; /**< Prescale option, should be:
- PWM_TIMER_PRESCALE_TICKVAL: Prescale in absolute value
- PWM_TIMER_PRESCALE_USVAL: Prescale in microsecond value
*/
uint8_t Reserved[3];
uint32_t PrescaleValue; /**< Prescale value, 32-bit long, should be matched
with PrescaleOption
*/
} PWM_TIMERCFG_Type;
/** @brief Configuration structure in PWM COUNTER mode */
typedef struct
{
uint8_t CounterOption; /**< Counter Option, should be:
- PWM_COUNTER_RISING: Rising Edge
- PWM_COUNTER_FALLING: Falling Edge
- PWM_COUNTER_ANY: Both rising and falling mode
*/
uint8_t CountInputSelect; /**< Counter input select, should be:
- PWM_COUNTER_PCAP1_0: PWM Counter input selected is PCAP1.0 pin
- PWM_COUNTER_PCAP1_1: PWM Counter input selected is PCAP1.1 pin
*/
uint8_t Reserved[2];
} PWM_COUNTERCFG_Type;
/** @brief PWM Match channel configuration structure */
typedef struct
{
uint8_t MatchChannel; /**< Match channel, should be in range
from 0..6 */
uint8_t IntOnMatch; /**< Interrupt On match, should be:
- ENABLE: Enable this function.
- DISABLE: Disable this function.
*/
uint8_t StopOnMatch; /**< Stop On match, should be:
- ENABLE: Enable this function.
- DISABLE: Disable this function.
*/
uint8_t ResetOnMatch; /**< Reset On match, should be:
- ENABLE: Enable this function.
- DISABLE: Disable this function.
*/
} PWM_MATCHCFG_Type;
/** @brief PWM Capture Input configuration structure */
typedef struct
{
uint8_t CaptureChannel; /**< Capture channel, should be in range
from 0..1 */
uint8_t RisingEdge; /**< caption rising edge, should be:
- ENABLE: Enable rising edge.
- DISABLE: Disable this function.
*/
uint8_t FallingEdge; /**< caption falling edge, should be:
- ENABLE: Enable falling edge.
- DISABLE: Disable this function.
*/
uint8_t IntOnCaption; /**< Interrupt On caption, should be:
- ENABLE: Enable interrupt function.
- DISABLE: Disable this function.
*/
} PWM_CAPTURECFG_Type;
/* Timer/Counter in PWM configuration type definition -----------------------------------*/
/** @brief PMW TC mode select option */
typedef enum
{
PWM_MODE_TIMER = 0, /*!< PWM using Timer mode */
PWM_MODE_COUNTER, /*!< PWM using Counter mode */
} PWM_TC_MODE_OPT;
#define PARAM_PWM_TC_MODE(n) ((n==PWM_MODE_TIMER) || (n==PWM_MODE_COUNTER))
/** @brief PWM Timer/Counter prescale option */
typedef enum
{
PWM_TIMER_PRESCALE_TICKVAL = 0, /*!< Prescale in absolute value */
PWM_TIMER_PRESCALE_USVAL /*!< Prescale in microsecond value */
} PWM_TIMER_PRESCALE_OPT;
#define PARAM_PWM_TIMER_PRESCALE(n) ((n==PWM_TIMER_PRESCALE_TICKVAL) || (n==PWM_TIMER_PRESCALE_USVAL))
/** @brief PWM Input Select in counter mode */
typedef enum
{
PWM_COUNTER_PCAP1_0 = 0, /*!< PWM Counter input selected is PCAP1.0 pin */
PWM_COUNTER_PCAP1_1 /*!< PWM counter input selected is CAP1.1 pin */
} PWM_COUNTER_INPUTSEL_OPT;
#define PARAM_PWM_COUNTER_INPUTSEL(n) ((n==PWM_COUNTER_PCAP1_0) || (n==PWM_COUNTER_PCAP1_1))
/** @brief PWM Input Edge Option in counter mode */
typedef enum
{
PWM_COUNTER_RISING = 1, /*!< Rising edge mode */
PWM_COUNTER_FALLING = 2, /*!< Falling edge mode */
PWM_COUNTER_ANY = 3 /*!< Both rising and falling mode */
} PWM_COUNTER_EDGE_OPT;
#define PARAM_PWM_COUNTER_EDGE(n) ((n==PWM_COUNTER_RISING) || (n==PWM_COUNTER_FALLING) \
|| (n==PWM_COUNTER_ANY))
/* PWM configuration type definition ----------------------------------------------------- */
/** @brief PWM operating mode options */
typedef enum
{
PWM_CHANNEL_SINGLE_EDGE, /*!< PWM Channel Single edge mode */
PWM_CHANNEL_DUAL_EDGE /*!< PWM Channel Dual edge mode */
} PWM_CHANNEL_EDGE_OPT;
#define PARAM_PWM_CHANNEL_EDGE(n) ((n==PWM_CHANNEL_SINGLE_EDGE) || (n==PWM_CHANNEL_DUAL_EDGE))
/** @brief PWM update type */
typedef enum
{
PWM_MATCH_UPDATE_NOW = 0, /**< PWM Match Channel Update Now */
PWM_MATCH_UPDATE_NEXT_RST /**< PWM Match Channel Update on next
PWM Counter resetting */
} PWM_MATCH_UPDATE_OPT;
#define PARAM_PWM_MATCH_UPDATE(n) ((n==PWM_MATCH_UPDATE_NOW) || (n==PWM_MATCH_UPDATE_NEXT_RST))
/** @brief PWM interrupt status type definition ----------------------------------------------------- */
/** @brief PWM Interrupt status type */
typedef enum
{
PWM_INTSTAT_MR0 = PWM_IR_PWMMRn(0), /**< Interrupt flag for PWM match channel 0 */
PWM_INTSTAT_MR1 = PWM_IR_PWMMRn(1), /**< Interrupt flag for PWM match channel 1 */
PWM_INTSTAT_MR2 = PWM_IR_PWMMRn(2), /**< Interrupt flag for PWM match channel 2 */
PWM_INTSTAT_MR3 = PWM_IR_PWMMRn(3), /**< Interrupt flag for PWM match channel 3 */
PWM_INTSTAT_CAP0 = PWM_IR_PWMCAPn(0), /**< Interrupt flag for capture input 0 */
PWM_INTSTAT_CAP1 = PWM_IR_PWMCAPn(1), /**< Interrupt flag for capture input 1 */
PWM_INTSTAT_MR4 = PWM_IR_PWMMRn(4), /**< Interrupt flag for PWM match channel 4 */
PWM_INTSTAT_MR6 = PWM_IR_PWMMRn(5), /**< Interrupt flag for PWM match channel 5 */
PWM_INTSTAT_MR5 = PWM_IR_PWMMRn(6), /**< Interrupt flag for PWM match channel 6 */
}PWM_INTSTAT_TYPE;
/**
* @}
*/
/* Public Functions ----------------------------------------------------------- */
/** @defgroup PWM_Public_Functions PWM Public Functions
* @{
*/
void PWM_PinConfig(uint8_t pwmId, uint8_t PWM_Channel, uint8_t PinselOption);
IntStatus PWM_GetIntStatus(uint8_t pwmId, uint32_t IntFlag);
void PWM_ClearIntPending(uint8_t pwmId, uint32_t IntFlag);
void PWM_ConfigStructInit(uint8_t PWMTimerCounterMode, void *PWM_InitStruct);
void PWM_Init(uint8_t pwmId, uint32_t PWMTimerCounterMode, void *PWM_ConfigStruct);
void PWM_DeInit (uint8_t pwmId);
void PWM_Cmd(uint8_t pwmId, FunctionalState NewState);
void PWM_CounterCmd(uint8_t pwmId, FunctionalState NewState);
void PWM_ResetCounter(uint8_t pwmId);
void PWM_ConfigMatch(uint8_t pwmId, PWM_MATCHCFG_Type *PWM_MatchConfigStruct);
void PWM_ConfigCapture(uint8_t pwmId, PWM_CAPTURECFG_Type *PWM_CaptureConfigStruct);
uint32_t PWM_GetCaptureValue(uint8_t pwmId, uint8_t CaptureChannel);
void PWM_MatchUpdate(uint8_t pwmId, uint8_t MatchChannel, \
uint32_t MatchValue, uint8_t UpdateType);
void PWM_ChannelConfig(uint8_t pwmId, uint8_t PWMChannel, uint8_t ModeOption);
void PWM_ChannelCmd(uint8_t pwmId, uint8_t PWMChannel, FunctionalState NewState);
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif /* __LPC_PWM_H_ */
/**
* @}
*/
/* --------------------------------- End Of File ------------------------------ */