rt-thread-official/bsp/xplorer4330/libraries/lpc_ip/sct_001.h

/*
* @brief State Configurable Timer registers and control functions
*
* @note
* Copyright(C) NXP Semiconductors, 2012
* All rights reserved.
*
* @par
* Software that is described herein is for illustrative purposes only
* which provides customers with programming information regarding the
* LPC products.  This software is supplied "AS IS" without any warranties of
* any kind, and NXP Semiconductors and its licensor disclaim any and 
* all warranties, express or implied, including all implied warranties of 
* merchantability, fitness for a particular purpose and non-infringement of 
* intellectual property rights.  NXP Semiconductors assumes no responsibility
* or liability for the use of the software, conveys no license or rights under any
* patent, copyright, mask work right, or any other intellectual property rights in 
* or to any products. NXP Semiconductors reserves the right to make changes
* in the software without notification. NXP Semiconductors also makes no 
* representation or warranty that such application will be suitable for the
* specified use without further testing or modification.
* 
* @par
* Permission to use, copy, modify, and distribute this software and its 
* documentation is hereby granted, under NXP Semiconductors' and its 
* licensor's relevant copyrights 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.
*/

#ifndef __SCT_001_H_
#define __SCT_001_H_

#include "sys_config.h"
#include "cmsis.h"

#ifdef __cplusplus
extern "C" {
#endif 

/** @defgroup IP_SCT_001 IP: SCT register block and driver
 * @ingroup IP_Drivers
 * State Configurable Timer
 * @{
 */

#define CONFIG_SCT_nEV   (16)            /* Number of events */
#define CONFIG_SCT_nRG   (16)            /* Number of match/compare registers */
#define CONFIG_SCT_nOU   (16)            /* Number of outputs */

/**
  * @brief State Configurable Timer register block structure
  */
typedef struct
{
    __IO  uint32_t CONFIG;              /* Configuration Register */
    union {
        __IO uint32_t CTRL_U;           /* Control Register */
        struct {
            __IO uint16_t CTRL_L;       /* low control register */
            __IO uint16_t CTRL_H;       /* high control register */
        };
    };
    __IO uint16_t LIMIT_L;              /* limit register for counter L */
    __IO uint16_t LIMIT_H;              /* limit register for counter H */
    __IO uint16_t HALT_L;               /* halt register for counter L */
    __IO uint16_t HALT_H;               /* halt register for counter H */
    __IO uint16_t STOP_L;               /* stop register for counter L */
    __IO uint16_t STOP_H;               /* stop register for counter H */
    __IO uint16_t START_L;              /* start register for counter L */
    __IO uint16_t START_H;              /* start register for counter H */
         uint32_t RESERVED1[10];        /* 0x03C reserved */
    union {
        __IO uint32_t COUNT_U;          /* counter register */
        struct {
            __IO uint16_t COUNT_L;      /* counter register for counter L */
            __IO uint16_t COUNT_H;      /* counter register for counter H */
        };
    };
    __IO uint16_t STATE_L;              /* state register for counter L */
    __IO uint16_t STATE_H;              /* state register for counter H */
    __I  uint32_t INPUT;                /* input register */
    __IO uint16_t REGMODE_L;            /* match - capture registers mode register L */
    __IO uint16_t REGMODE_H;            /* match - capture registers mode register H */
    __IO uint32_t OUTPUT;               /* output register */
    __IO uint32_t OUTPUTDIRCTRL;        /* output counter direction Control Register */
    __IO uint32_t RES;                  /* conflict resolution register */
    __IO uint32_t DMA0REQUEST;          /* DMA0 Request Register */
    __IO uint32_t DMA1REQUEST;          /* DMA1 Request Register */
         uint32_t RESERVED2[35];
    __IO uint32_t EVEN;                 /* event enable register */
    __IO uint32_t EVFLAG;               /* event flag register */
    __IO uint32_t CONEN;                /* conflict enable register */
    __IO uint32_t CONFLAG;              /* conflict flag register */
    union {
        __IO union {                    /* ... Match / Capture value */
            uint32_t U;                 /*       SCTMATCH[i].U  Unified 32-bit register */
            struct {
                uint16_t L;             /*       SCTMATCH[i].L  Access to L value */
                uint16_t H;             /*       SCTMATCH[i].H  Access to H value */
            };
        } MATCH[CONFIG_SCT_nRG];
        __I union {
            uint32_t U;                 /*       SCTCAP[i].U  Unified 32-bit register */
            struct {
                uint16_t L;             /*       SCTCAP[i].L  Access to H value */
                uint16_t H;             /*       SCTCAP[i].H  Access to H value */
            };
        } CAP[CONFIG_SCT_nRG];
    };
    uint32_t RESERVED3[32-CONFIG_SCT_nRG];      /* ...-0x17C reserved */
    union {
        __IO uint16_t MATCH_L[CONFIG_SCT_nRG];       /* 0x180-... Match Value L counter */
        __I  uint16_t CAP_L[CONFIG_SCT_nRG];         /* 0x180-... Capture Value L counter */
    };
    uint16_t RESERVED4[32-CONFIG_SCT_nRG];      /* ...-0x1BE reserved */
    union {
        __IO uint16_t MATCH_H[CONFIG_SCT_nRG];       /* 0x1C0-... Match Value H counter */
        __I  uint16_t CAP_H[CONFIG_SCT_nRG];         /* 0x1C0-... Capture Value H counter */
    };
    uint16_t RESERVED5[32-CONFIG_SCT_nRG];      /* ...-0x1FE reserved */
    union {
        __IO union {                    /* 0x200-... Match Reload / Capture Control value */
            uint32_t U;                 /*       SCTMATCHREL[i].U  Unified 32-bit register */
            struct {
                uint16_t L;             /*       SCTMATCHREL[i].L  Access to L value */
                uint16_t H;             /*       SCTMATCHREL[i].H  Access to H value */
            };
        } MATCHREL[CONFIG_SCT_nRG];
        __IO union {
            uint32_t U;                 /*       SCTCAPCTRL[i].U  Unified 32-bit register */
            struct {
                uint16_t L;             /*       SCTCAPCTRL[i].L  Access to H value */
                uint16_t H;             /*       SCTCAPCTRL[i].H  Access to H value */
            };
        } CAPCTRL[CONFIG_SCT_nRG];
    };
    uint32_t RESERVED6[32-CONFIG_SCT_nRG];      /* ...-0x27C reserved */
    union {
        __IO uint16_t MATCHREL_L[CONFIG_SCT_nRG];    /* 0x280-... Match Reload value L counter */
        __IO uint16_t CAPCTRL_L[CONFIG_SCT_nRG];     /* 0x280-... Capture Control value L counter */
    };
    uint16_t RESERVED7[32-CONFIG_SCT_nRG];      /* ...-0x2BE reserved */
    union {
        __IO uint16_t MATCHREL_H[CONFIG_SCT_nRG];    /* 0x2C0-... Match Reload value H counter */
        __IO uint16_t CAPCTRL_H[CONFIG_SCT_nRG];     /* 0x2C0-... Capture Control value H counter */
    };
    uint16_t RESERVED8[32-CONFIG_SCT_nRG];      /* ...-0x2FE reserved */
    __IO struct {                       /* 0x300-0x3FC  SCTEVENT[i].STATE / SCTEVENT[i].CTRL*/
        uint32_t STATE;                 /* Event State Register */
        uint32_t CTRL;                  /* Event Control Register */
    } EVENT[CONFIG_SCT_nEV];
    uint32_t RESERVED9[128-2*CONFIG_SCT_nEV];   /* ...-0x4FC reserved */
    __IO struct {                       /* 0x500-0x57C  SCTOUT[i].SET / SCTOUT[i].CLR */
        uint32_t SET;                   /* Output n Set Register */
        uint32_t CLR;                   /* Output n Clear Register */
    } OUT[CONFIG_SCT_nOU];
    uint32_t RESERVED10[191-2*CONFIG_SCT_nOU];  /* ...-0x7F8 reserved */
    __I  uint32_t MODULECONTENT;        /* 0x7FC Module Content */
} IP_SCT_001_Type;

/**
 * @}
 */
 
#ifdef __cplusplus
}
#endif 

#endif /* __SCT_001_H_ */