reg78e65.h

我写的stv2248 芯片的驱动程序

/*--------------------------------------------------------------------------
REG52.H

Header file for generic 80C52 and 80C32 microcontroller.
Copyright (c) 1988-2001 Keil Elektronik GmbH and Keil Software, Inc.
All rights reserved.
--------------------------------------------------------------------------*/

/*  BYTE Registers  */
#ifndef Reg52_h
#define Reg52_h

sfr P0    = 0x80;
sfr P1    = 0x90;
sfr P2    = 0xA0;
sfr P3    = 0xB0;
sfr P4    = 0xD8;
sfr PSW   = 0xD0;
sfr ACC   = 0xE0;
sfr B     = 0xF0;
sfr SP    = 0x81;
sfr DPL   = 0x82;
sfr DPH   = 0x83;
sfr PCON  = 0x87;
sfr TCON  = 0x88;
sfr TMOD  = 0x89;
sfr TL0   = 0x8A;
sfr TL1   = 0x8B;
sfr TH0   = 0x8C;
sfr TH1   = 0x8D;
sfr IE    = 0xA8;
sfr IP    = 0xB8;
sfr SCON  = 0x98;
sfr SBUF  = 0x99;

/*  8052 Extensions  */
sfr T2CON  = 0xC8;
sfr RCAP2L = 0xCA;
sfr RCAP2H = 0xCB;
sfr TL2    = 0xCC;
sfr TH2    = 0xCD;


/*  BIT Registers  */
/*  PSW  */
sbit CY    = PSW^7;
sbit AC    = PSW^6;
sbit F0    = PSW^5;
sbit RS1   = PSW^4;
sbit RS0   = PSW^3;
sbit OV    = PSW^2;
sbit P     = PSW^0; //8052 only

/*  TCON  */
sbit TF1   = TCON^7;
sbit TR1   = TCON^6;
sbit TF0   = TCON^5;
sbit TR0   = TCON^4;
sbit IE1   = TCON^3;
sbit IT1   = TCON^2;
sbit IE0   = TCON^1;
sbit IT0   = TCON^0;

/*  IE  */
sbit EA    = IE^7;
sbit ET2   = IE^5; //8052 only
sbit ES    = IE^4;
sbit ET1   = IE^3;
sbit EX1   = IE^2;
sbit ET0   = IE^1;
sbit EX0   = IE^0;

/*  IP  */
sbit PT2   = IP^5;
sbit PS    = IP^4;
sbit PT1   = IP^3;
sbit PX1   = IP^2;
sbit PT0   = IP^1;
sbit PX0   = IP^0;

/*  P3  */
sbit RD    = P3^7;
sbit WR    = P3^6;
sbit T1    = P3^5;
sbit T0    = P3^4;
sbit INT1  = P3^3;
sbit INT0  = P3^2;
sbit TXD   = P3^1;
sbit RXD   = P3^0;

/*  SCON  */
sbit SM0   = SCON^7;
sbit SM1   = SCON^6;
sbit SM2   = SCON^5;
sbit REN   = SCON^4;
sbit TB8   = SCON^3;
sbit RB8   = SCON^2;
sbit TI    = SCON^1;
sbit RI    = SCON^0;

/*  P1  */
sbit T2EX  = P1^1; // 8052 only
sbit T2    = P1^0; // 8052 only
             
/*  T2CON  */
sbit TF2    = T2CON^7;
sbit EXF2   = T2CON^6;
sbit RCLK   = T2CON^5;
sbit TCLK   = T2CON^4;
sbit EXEN2  = T2CON^3;
sbit TR2    = T2CON^2;
sbit C_T2   = T2CON^1;
sbit CP_RL2 = T2CON^0;

sbit P0_0	= P0^0;
sbit P0_1	= P0^1;
sbit P0_2	= P0^2;
sbit P0_3	= P0^3;
sbit P0_4	= P0^4;
sbit P0_5	= P0^5;
sbit P0_6	= P0^6;
sbit P0_7	= P0^7;

sbit P1_0	= P1^0;
sbit P1_1	= P1^1;
sbit P1_2	= P1^2;
sbit P1_3	= P1^3;
sbit P1_4	= P1^4;
sbit P1_5	= P1^5;
sbit P1_6	= P1^6;
sbit P1_7	= P1^7;

sbit P2_0	= P2^0;
sbit P2_1	= P2^1;
sbit P2_2	= P2^2;
sbit P2_3	= P2^3;
sbit P2_4	= P2^4;
sbit P2_5	= P2^5;
sbit P2_6	= P2^6;
sbit P2_7	= P2^7;

sbit P3_0	= P3^0;
sbit P3_1	= P3^1;
sbit P3_2	= P3^2;
sbit P3_3	= P3^3;
sbit P3_4	= P3^4;
sbit P3_5	= P3^5;
sbit P3_6	= P3^6;
sbit P3_7	= P3^7;

sbit P4_0 = P4 ^ 0;
sbit P4_1 = P4 ^ 1;
sbit P4_2 = P4 ^ 2;
sbit P4_3 = P4 ^ 3;

// For Winbond MCU
#ifdef W78e532
sfr TA=0xc7;
sfr CHPCON=0x9f;	//jr add for w78e532
sfr SFRCN=0xaf;
sfr ROMCON=0xab;
#else
sfr CHPENR = 0xF6;//for Winbond Mcu to the Isp mode
sfr CHPCON = 0xBF;//for Winbond Mcu to the Isp mode
#endif

// for Myson MTV312
#if 0// for Myson 312MV//vick myson
 #define	XFR_ADDR	0xF00
 #define	XFR_DDC		0xE00

 #define	DDCRAM		(((BYTE xdata*)XFR_DDC)[0x00])
 #define	IICCTR		(((BYTE xdata*)XFR_ADDR)[0x00])
 #define	IICSTUSL	(((BYTE xdata*)XFR_ADDR)[0x01])
 #define	IICSTUSH	(((BYTE xdata*)XFR_ADDR)[0x02])
 #define	INTFLG		(((BYTE xdata*)XFR_ADDR)[0x03])
 #define	INTEN		(((BYTE xdata*)XFR_ADDR)[0x04])
 #define	MBUF		(((BYTE xdata*)XFR_ADDR)[0x05])
 #define	RCATXABUF	(((BYTE xdata*)XFR_ADDR)[0x06])
 #define	DDCCTR		(((BYTE xdata*)XFR_ADDR)[0x06])
 #define	SLVAADDR	(((BYTE xdata*)XFR_ADDR)[0x07])
 #define	SLVAADR		(((BYTE xdata*)XFR_ADDR)[0x07])
 #define	RCBTXBBUF	(((BYTE xdata*)XFR_ADDR)[0x08])
 #define	SLVBADDR	(((BYTE xdata*)XFR_ADDR)[0x09])
 #define	DBUF		(((BYTE xdata*)XFR_ADDR)[0x0A])

 #define	ISPSLV	(((BYTE xdata*)XFR_ADDR)[0x0B])
 #define	ISPEN	(((BYTE xdata*)XFR_ADDR)[0x0C])
 
 #define	MADC	(((BYTE xdata*)XFR_ADDR)[0x10])
 
 #define	DA0	(((BYTE xdata*)XFR_ADDR)[0x20])
 #define	DA1	(((BYTE xdata*)XFR_ADDR)[0x21])
 #define	DA2	(((BYTE xdata*)XFR_ADDR)[0x22])
 #define	DA3	(((BYTE xdata*)XFR_ADDR)[0x23])
 #define	DA4	(((BYTE xdata*)XFR_ADDR)[0x24])
 #define	DA5	(((BYTE xdata*)XFR_ADDR)[0x25])
 #define	DA6	(((BYTE xdata*)XFR_ADDR)[0x26])
 #define	DA7	(((BYTE xdata*)XFR_ADDR)[0x27])
 #define	DA8	(((BYTE xdata*)XFR_ADDR)[0x28])
 #define	DA9	(((BYTE xdata*)XFR_ADDR)[0x29])
 #define	DA10	(((BYTE xdata*)XFR_ADDR)[0x2A])
 #define	DA11	(((BYTE xdata*)XFR_ADDR)[0x2B])
 #define	DA12	(((BYTE xdata*)XFR_ADDR)[0x2C])
 #define	DA13	(((BYTE xdata*)XFR_ADDR)[0x2D])
 
 #define	PADMOD0	(((BYTE xdata*)XFR_ADDR)[0x50])
 #define	PADMOD1	(((BYTE xdata*)XFR_ADDR)[0x51])
 #define	PADMOD2	(((BYTE xdata*)XFR_ADDR)[0x52])
 #define	PADMOD3	(((BYTE xdata*)XFR_ADDR)[0x53])
 #define	PADMOD4	(((BYTE xdata*)XFR_ADDR)[0x54])
 #define	PADMOD5	(((BYTE xdata*)XFR_ADDR)[0x55])
 #define	OPTION	(((BYTE xdata*)XFR_ADDR)[0x56])
 
 #define	XBANK	(((BYTE xdata*)XFR_ADDR)[0x35])

 #define	P4_0	(((BYTE xdata*)XFR_ADDR)[0x58])
 #define	P4_1	(((BYTE xdata*)XFR_ADDR)[0x59])
 #define	P4_2	(((BYTE xdata*)XFR_ADDR)[0x5A])
 
 #define	P5_0	(((BYTE xdata*)XFR_ADDR)[0x30])
 #define	P5_1	(((BYTE xdata*)XFR_ADDR)[0x31])
 #define	P5_2	(((BYTE xdata*)XFR_ADDR)[0x32])
 #define	P5_3	(((BYTE xdata*)XFR_ADDR)[0x33])
 #define	P5_4	(((BYTE xdata*)XFR_ADDR)[0x34])
 #define	P5_5	(((BYTE xdata*)XFR_ADDR)[0x35])
 #define	P5_6	(((BYTE xdata*)XFR_ADDR)[0x36])
 
 #define	P6_0	(((BYTE xdata*)XFR_ADDR)[0x38])
 #define	P6_1	(((BYTE xdata*)XFR_ADDR)[0x39])
 #define	P6_2	(((BYTE xdata*)XFR_ADDR)[0x3A])
 #define	P6_3	(((BYTE xdata*)XFR_ADDR)[0x3B])
 #define	P6_4	(((BYTE xdata*)XFR_ADDR)[0x3C])
 #define	P6_5	(((BYTE xdata*)XFR_ADDR)[0x3D])
 #define	P6_6	(((BYTE xdata*)XFR_ADDR)[0x3E])
 #define	P6_7	(((BYTE xdata*)XFR_ADDR)[0x3F])

 #define	HVSTUS	(((BYTE xdata*)XFR_ADDR)[0x40])
 #define	HCNTH	(((BYTE xdata*)XFR_ADDR)[0x41])
 #define	HCNTL	(((BYTE xdata*)XFR_ADDR)[0x42])
 #define	VCNTH	(((BYTE xdata*)XFR_ADDR)[0x43])
 #define	VCNTL	(((BYTE xdata*)XFR_ADDR)[0x44])
  
 #define	HVCTR0	(((BYTE xdata*)XFR_ADDR)[0x40])
 #define	HVCTR2	(((BYTE xdata*)XFR_ADDR)[0x42])
 #define	HVCTR3	(((BYTE xdata*)XFR_ADDR)[0x43])

 #define	HVINTFLG	(((BYTE xdata*)XFR_ADDR)[0x48])
 #define	HVINTEN		(((BYTE xdata*)XFR_ADDR)[0x49])

// #define	P4OUT	(((BYTE xdata*)XFR_ADDR)[0x44]) // for MYSON 112
// #define	SLVCTR	(((BYTE xdata*)XFR_ADDR)[0x90]) // for MYSON 112
// #define	WDT	(((BYTE xdata*)XFR_ADDR)[0x80]) // for MYSON 112
 #define	WDT	(((BYTE xdata*)XFR_ADDR)[0x18]) // for MYSON 112
#endif 

#endif



//***************************************************************
//Port define
//***************************************************************
/*sbit    Mute_Port=P0^0;
sbit    OSD_CL=P0^1;
sbit    OSD_DI=P0^2;
sbit    SyncDetPort=P0^3;
sbit    OSD_CE=P0^4;
sbit   	DVD_Rst_Port=P0^5;
sbit 	ANT_X=P0^6;
sbit 	Stable=P0^7;
sbit	Hsync		=	P1^0;
sbit	Vsync		=	P1^0;//P1^1;
sbit   	Power_Port=P1^2;
sbit	SCL=P1^3;               //模拟I2C时钟控制位//
sbit	SDA=P1^4;               //模拟I2C数据传送位//
sbit   	SW1=P1^5;
sbit   	SW2=P1^6;
sbit   	DVD_Save_Port=P1^7;
sbit    Mode_key=P2^0;
sbit    Ch_dec_key=P2^1;
sbit    Play_key=P2^2;
sbit    Power_key=P2^3;
sbit    audio_test=P2^4;
sbit	dsa_ack		= P2^5;
sbit	dsa_stb		= P2^6;
sbit	dsa_data	= P2^7;
sbit	swa_test	= P3^0;
sbit	swb_test	= P3^1;

sbit	acc_test	= P3^3;
sbit 	eject_o_ctrl= P3^4;
sbit 	eject_i_ctrl= P3^5;
sbit    Ch_inc_key=P3^6;
sbit	insw_test	= P3^7;
sbit	tv_ctrl	= P4^0;
//bit   DVD_LED;
//bit   TV_LED;
//bit   AV_LED;
//bit   Power_LED; */