产品概述
产品概述
三星公司2440A,2440A的突出特点是其处理器核心,是一个ARM公司设计的16、32位的RISI处理器,ARM920T实现了MMU,AMBA总线和哈佛结构的高速缓冲体系结构,这一结构具有独立的16KB指令高速缓冲和16K的数据高速缓冲,每个都是由具有8字节长度的行组成
本手册介绍S3C2440A片上的功能
【1】1.2V内核供电,1.8V2.5V3.3V存储器供电,3.3V外部I/O供电,具有16KB的指令缓冲和16K的数据缓冲
【2】外部存储控制器(SDRAM控制和片选逻辑)
【3】LCD控制器(最大支持4K色STN和256色TFT)提供1通道LCD专用DMA
【4】4通道DMA并有外部请求引脚
【5】3通道UART(IRDA1.0,64字节发送FIFO和64字节接收FIFO)
【6】2通道的SPI
【7】1通道IIC
【8】AC'97编解码器接口
【9】兼容SD主接口协议1.0版和MMC卡协议2.11兼容版
【10】2通道USB主机、1通道USB设备
【11】4通道PWM定时器和1通道内部定时器看门狗
【12】8通道10位ADC和触摸屏街口
【13】具有日历功能的RTC
【14】摄像头接口
【15】130个通用I/O和24通道的外部中断源
【16】具有普通,慢速空闲,掉电模式
【17】具有PLL片上时钟发生器
特性
体系特性:
手持设备完整系统和普通嵌入式都可以应用
16位和32位RISC体系架构和ARM920T CPU核心
增强型ARM架构MMU以支持WINCE,EPOC32 和linux
指令高速缓冲,数据高速缓冲,写缓冲和物理地址TAG RAM以减少执行主储存器带宽和延迟性问题
ARM920ICPU支持ARM调试架构
内部先进微型控制器AMBA,AMBA20,AHB,APB
系统管理
支持大小端
地址空间,每bank 128M字节(共1G)
支持可编程的每Bank 8/16/32位地址编程
8个存储器bank
六个存储器Bank位ROM,SRAM和其他
两个存储器Bank位ROM、SRAM,SDRAM
所有存储器具备完整可编程访问周期
支持外部等待信息来扩展总线周期
支持SDRAM掉电只刷新模式
支持从各种ROM启动
NAND FLASH 启动引导
支持NAND flash启动
4KB的启动内部缓冲区
支持启动NAND flash作为存储器
支持先进的NAND flash
高速缓冲器
64路指令缓冲和数据缓冲的组合向量的高速缓冲
每行8字节长度,其中含有一个有效位和两个dirty位
伪随机或者循环robin置换算法
执行直写或会写高速缓存新主存储器
写缓冲去可以保存16个值得数据和四个地址
时钟和电源管理
偏上的MPLL和UPLL
UPLL产生时钟运作USB主机设备
MPLL产生时钟运作1.3V下最高400MHZ的MCU
用软件可以有选择的提供时钟给各个功能模块
电源模式有:普通,慢速,空闲,睡眠模式
普通模式:正常运行模式
慢速模式:无PLL的低频率时钟
空闲时钟:只是停止CPU的时钟
睡眠模式:关闭包括所有外设的核心电源
EINT【15:0】或TRC时钟中断触发从睡眠中唤醒
中断控制器:
60个中断源:1个看门狗,5个定时器,9个uart,24个外部中断,4个DMA,2个RTC,2个ADC,1个IIC,2个SPI,1个SDI,2个USB,1个LCD,1个电池故障,1个NAND,2个摄像头,1个AC、97
外部中断源点评边缘模式都可以出发中断
支持快速中断请求,和非常紧急的中断请求
脉宽调制:
4通道16位具有可编程的PWM功能的定时器,1通道16位基于DMA或者基于中断运行的内部定时器
可编程的占空比,频率和极性
能够产生死区
支持外部中断源
RCT实时时钟
完整时钟特性,毫秒,秒,分时星期日月和年
工作在32.768KHZ时钟频率
闹钟中断
时钟节拍中断
通用输入输出
24个外部中断
130个复用输出输入端口
DMA控制器
4通道DMA控制器
支持存储器到存储器,I/O到存储器,存储器到I/O口的传输
采用触发传输方式来提高传输效率
UART
3通道基于DMA或基于中断运行的UART
支持5位,6位,73位,或者8位创新数据发送和接收
可编程的波特率
支持IRDA1。0
测试用回环模式
每个通道都包含内部64位发送FIFO和64位接收FIFO
A/D转换器和触屏接口
8通道多路复用ADC
最高500KSPS和10位分辨率
IIC总线接口
1通道多主机IIC总线
串行,8位,科标准模式100Kbit/s下快速模式下进行双向数据传输
LCD控制器STN LCD显示特性
支持3种类型STN LCD面板,4位算扫描,4位当扫描和8位当扫描显示类型
支持单色模式,4阶灰度,16阶灰度256色和4096色的STN LCD
支持多种屏幕尺寸
TFT彩色显示特性:支持TFT的1,2,4,或8bpp像素显示
支持彩色TFT的16,24bpp飞调色正才显示
支持24bpp模式下最大16M色的TFT显示
内嵌LPC3600思绪控制器,支持多种屏幕尺寸
IIS总线接口
1通道IIS总线,运行基于DMA总线控制器
串行,8、16位通道数据传输
支持IIS格式和MSB-justified数据格式
AC‘97音频编解码器
支持16位采样
1通道立体声PCM输入,1通道立体声PCM输出和1通道MIC
USB主机
两个USB主机端口
遵从OHCI REV.1.0版本
兼容USB规格1.1版本
SD主机接口
正常,中断和DMA数据传输模式
支持DMA burst4访问
兼容SD记忆卡协议
兼容DSIO卡协议
发送和接受具备64字节FIFO
兼容MMC卡协议2.11版本
SPI接口
兼容2通道SPI接口协议
发送接受接受具备2个八位移位寄存器
基于DMA或基于中断运行
摄像头接口
支持ITU,R BT601、656 8位模式
发送接受具备两个8位移位寄存器
基于DMA或基于中断运行
DZI(数字放大能力)
可编程视频同步信号
最大支持4096*4096像素输入
格式化摄像头输出
工作频率
FCLKI最高位400MZH
HCLK最高位136MHZ
PCLK最高位68MHZ
寄存器
2440的寄存器有很多,为此人们把它编写成了一个库
//============================================================================= // File Name : 2440addr.h // Function : S3C2440 Define Address Register // History // 0.0 : Programming start (February 15,2002) -> SOP // Revision : 03.11.2003 ver 0.0 Attatched for 2440 //============================================================================= #ifndef __2440ADDR_H__ #define __2440ADDR_H__ #ifdef __cplusplus extern "C" { #endif #include "option.h" // Memory control #define rBWSCON (*(volatile unsigned *)0x48000000) //Bus width & wait status #define rBANKCON0 (*(volatile unsigned *)0x48000004) //Boot ROM control #define rBANKCON1 (*(volatile unsigned *)0x48000008) //BANK1 control #define rBANKCON2 (*(volatile unsigned *)0x4800000c) //BANK2 cControl #define rBANKCON3 (*(volatile unsigned *)0x48000010) //BANK3 control #define rBANKCON4 (*(volatile unsigned *)0x48000014) //BANK4 control #define rBANKCON5 (*(volatile unsigned *)0x48000018) //BANK5 control #define rBANKCON6 (*(volatile unsigned *)0x4800001c) //BANK6 control #define rBANKCON7 (*(volatile unsigned *)0x48000020) //BANK7 control #define rREFRESH (*(volatile unsigned *)0x48000024) //DRAM/SDRAM refresh #define rBANKSIZE (*(volatile unsigned *)0x48000028) //Flexible Bank Size #define rMRSRB6 (*(volatile unsigned *)0x4800002c) //Mode register set for SDRAM #define rMRSRB7 (*(volatile unsigned *)0x48000030) //Mode register set for SDRAM // USB Host // INTERRUPT #define rSRCPND (*(volatile unsigned *)0x4a000000) //Interrupt request status #define rINTMOD (*(volatile unsigned *)0x4a000004) //Interrupt mode control #define rINTMSK (*(volatile unsigned *)0x4a000008) //Interrupt mask control #define rPRIORITY (*(volatile unsigned *)0x4a00000c) //IRQ priority control #define rINTPND (*(volatile unsigned *)0x4a000010) //Interrupt request status #define rINTOFFSET (*(volatile unsigned *)0x4a000014) //Interruot request source offset #define rSUBSRCPND (*(volatile unsigned *)0x4a000018) //Sub source pending #define rINTSUBMSK (*(volatile unsigned *)0x4a00001c) //Interrupt sub mask // DMA #define rDISRC0 (*(volatile unsigned *)0x4b000000) //DMA 0 Initial source #define rDISRCC0 (*(volatile unsigned *)0x4b000004) //DMA 0 Initial source control #define rDIDST0 (*(volatile unsigned *)0x4b000008) //DMA 0 Initial Destination #define rDIDSTC0 (*(volatile unsigned *)0x4b00000c) //DMA 0 Initial Destination control #define rDCON0 (*(volatile unsigned *)0x4b000010) //DMA 0 Control #define rDSTAT0 (*(volatile unsigned *)0x4b000014) //DMA 0 Status #define rDCSRC0 (*(volatile unsigned *)0x4b000018) //DMA 0 Current source #define rDCDST0 (*(volatile unsigned *)0x4b00001c) //DMA 0 Current destination #define rDMASKTRIG0 (*(volatile unsigned *)0x4b000020) //DMA 0 Mask trigger #define rDISRC1 (*(volatile unsigned *)0x4b000040) //DMA 1 Initial source #define rDISRCC1 (*(volatile unsigned *)0x4b000044) //DMA 1 Initial source control #define rDIDST1 (*(volatile unsigned *)0x4b000048) //DMA 1 Initial Destination #define rDIDSTC1 (*(volatile unsigned *)0x4b00004c) //DMA 1 Initial Destination control #define rDCON1 (*(volatile unsigned *)0x4b000050) //DMA 1 Control #define rDSTAT1 (*(volatile unsigned *)0x4b000054) //DMA 1 Status #define rDCSRC1 (*(volatile unsigned *)0x4b000058) //DMA 1 Current source #define rDCDST1 (*(volatile unsigned *)0x4b00005c) //DMA 1 Current destination #define rDMASKTRIG1 (*(volatile unsigned *)0x4b000060) //DMA 1 Mask trigger #define rDISRC2 (*(volatile unsigned *)0x4b000080) //DMA 2 Initial source #define rDISRCC2 (*(volatile unsigned *)0x4b000084) //DMA 2 Initial source control #define rDIDST2 (*(volatile unsigned *)0x4b000088) //DMA 2 Initial Destination #define rDIDSTC2 (*(volatile unsigned *)0x4b00008c) //DMA 2 Initial Destination control #define rDCON2 (*(volatile unsigned *)0x4b000090) //DMA 2 Control #define rDSTAT2 (*(volatile unsigned *)0x4b000094) //DMA 2 Status #define rDCSRC2 (*(volatile unsigned *)0x4b000098) //DMA 2 Current source #define rDCDST2 (*(volatile unsigned *)0x4b00009c) //DMA 2 Current destination #define rDMASKTRIG2 (*(volatile unsigned *)0x4b0000a0) //DMA 2 Mask trigger #define rDISRC3 (*(volatile unsigned *)0x4b0000c0) //DMA 3 Initial source #define rDISRCC3 (*(volatile unsigned *)0x4b0000c4) //DMA 3 Initial source control #define rDIDST3 (*(volatile unsigned *)0x4b0000c8) //DMA 3 Initial Destination #define rDIDSTC3 (*(volatile unsigned *)0x4b0000cc) //DMA 3 Initial Destination control #define rDCON3 (*(volatile unsigned *)0x4b0000d0) //DMA 3 Control #define rDSTAT3 (*(volatile unsigned *)0x4b0000d4) //DMA 3 Status #define rDCSRC3 (*(volatile unsigned *)0x4b0000d8) //DMA 3 Current source #define rDCDST3 (*(volatile unsigned *)0x4b0000dc) //DMA 3 Current destination #define rDMASKTRIG3 (*(volatile unsigned *)0x4b0000e0) //DMA 3 Mask trigger // CLOCK & POWER MANAGEMENT #define rLOCKTIME (*(volatile unsigned *)0x4c000000) //PLL lock time counter #define rMPLLCON (*(volatile unsigned *)0x4c000004) //MPLL Control #define rUPLLCON (*(volatile unsigned *)0x4c000008) //UPLL Control #define rCLKCON (*(volatile unsigned *)0x4c00000c) //Clock generator control #define rCLKSLOW (*(volatile unsigned *)0x4c000010) //Slow clock control #define rCLKDIVN (*(volatile unsigned *)0x4c000014) //Clock divider control #define rCAMDIVN (*(volatile unsigned *)0x4c000018) //USB, CAM Clock divider control // LCD CONTROLLER #define rLCDCON1 (*(volatile unsigned *)0x4d000000) //LCD control 1 #define rLCDCON2 (*(volatile unsigned *)0x4d000004) //LCD control 2 #define rLCDCON3 (*(volatile unsigned *)0x4d000008) //LCD control 3 #define rLCDCON4 (*(volatile unsigned *)0x4d00000c) //LCD control 4 #define rLCDCON5 (*(volatile unsigned *)0x4d000010) //LCD control 5 #define rLCDSADDR1 (*(volatile unsigned *)0x4d000014) //STN/TFT Frame buffer start address 1 #define rLCDSADDR2 (*(volatile unsigned *)0x4d000018) //STN/TFT Frame buffer start address 2 #define rLCDSADDR3 (*(volatile unsigned *)0x4d00001c) //STN/TFT Virtual screen address set #define rREDLUT (*(volatile unsigned *)0x4d000020) //STN Red lookup table #define rGREENLUT (*(volatile unsigned *)0x4d000024) //STN Green lookup table #define rBLUELUT (*(volatile unsigned *)0x4d000028) //STN Blue lookup table #define rDITHMODE (*(volatile unsigned *)0x4d00004c) //STN Dithering mode #define rTPAL (*(volatile unsigned *)0x4d000050) //TFT Temporary palette #define rLCDINTPND (*(volatile unsigned *)0x4d000054) //LCD Interrupt pending #define rLCDSRCPND (*(volatile unsigned *)0x4d000058) //LCD Interrupt source #define rLCDINTMSK (*(volatile unsigned *)0x4d00005c) //LCD Interrupt mask #define rTCONSEL (*(volatile unsigned *)0x4d000060) //LPC3600 Control --- edited by junon #define PALETTE 0x4d000400 //Palette start address //Nand Flash #define rNFCONF (*(volatile unsigned *)0x4E000000) //NAND Flash configuration #define rNFCONT (*(volatile unsigned *)0x4E000004) //NAND Flash control #define rNFCMD (*(volatile unsigned *)0x4E000008) //NAND Flash command #define rNFADDR (*(volatile unsigned *)0x4E00000C) //NAND Flash address #define rNFDATA (*(volatile unsigned *)0x4E000010) //NAND Flash data #define rNFDATA8 (*(volatile unsigned char *)0x4E000010) //NAND Flash data #define NFDATA (0x4E000010) //NAND Flash data address #define rNFMECCD0 (*(volatile unsigned *)0x4E000014) //NAND Flash ECC for Main Area #define rNFMECCD1 (*(volatile unsigned *)0x4E000018) #define rNFSECCD (*(volatile unsigned *)0x4E00001C) //NAND Flash ECC for Spare Area #define rNFSTAT (*(volatile unsigned *)0x4E000020) //NAND Flash operation status #define rNFESTAT0 (*(volatile unsigned *)0x4E000024) #define rNFESTAT1 (*(volatile unsigned *)0x4E000028) #define rNFMECC0 (*(volatile unsigned *)0x4E00002C) #define rNFMECC1 (*(volatile unsigned *)0x4E000030) #define rNFSECC (*(volatile unsigned *)0x4E000034) #define rNFSBLK (*(volatile unsigned *)0x4E000038) //NAND Flash Start block address #define rNFEBLK (*(volatile unsigned *)0x4E00003C) //NAND Flash End block address //Camera Interface. Edited for 2440A #define rCISRCFMT (*(volatile unsigned *)0x4F000000) #define rCIWDOFST (*(volatile unsigned *)0x4F000004) #define rCIGCTRL (*(volatile unsigned *)0x4F000008) #define rCICOYSA1 (*(volatile unsigned *)0x4F000018) #define rCICOYSA2 (*(volatile unsigned *)0x4F00001C) #define rCICOYSA3 (*(volatile unsigned *)0x4F000020) #define rCICOYSA4 (*(volatile unsigned *)0x4F000024) #define rCICOCBSA1 (*(volatile unsigned *)0x4F000028) #define rCICOCBSA2 (*(volatile unsigned *)0x4F00002C) #define rCICOCBSA3 (*(volatile unsigned *)0x4F000030) #define rCICOCBSA4 (*(volatile unsigned *)0x4F000034) #define rCICOCRSA1 (*(volatile unsigned *)0x4F000038) #define rCICOCRSA2 (*(volatile unsigned *)0x4F00003C) #define rCICOCRSA3 (*(volatile unsigned *)0x4F000040) #define rCICOCRSA4 (*(volatile unsigned *)0x4F000044) #define rCICOTRGFMT (*(volatile unsigned *)0x4F000048) #define rCICOCTRL (*(volatile unsigned *)0x4F00004C) #define rCICOSCPRERATIO (*(volatile unsigned *)0x4F000050) #define rCICOSCPREDST (*(volatile unsigned *)0x4F000054) #define rCICOSCCTRL (*(volatile unsigned *)0x4F000058) #define rCICOTAREA (*(volatile unsigned *)0x4F00005C) #define rCICOSTATUS (*(volatile unsigned *)0x4F000064) #define rCIPRCLRSA1 (*(volatile unsigned *)0x4F00006C) #define rCIPRCLRSA2 (*(volatile unsigned *)0x4F000070) #define rCIPRCLRSA3 (*(volatile unsigned *)0x4F000074) #define rCIPRCLRSA4 (*(volatile unsigned *)0x4F000078) #define rCIPRTRGFMT (*(volatile unsigned *)0x4F00007C) #define rCIPRCTRL (*(volatile unsigned *)0x4F000080) #define rCIPRSCPRERATIO (*(volatile unsigned *)0x4F000084) #define rCIPRSCPREDST (*(volatile unsigned *)0x4F000088) #define rCIPRSCCTRL (*(volatile unsigned *)0x4F00008C) #define rCIPRTAREA (*(volatile unsigned *)0x4F000090) #define rCIPRSTATUS (*(volatile unsigned *)0x4F000098) #define rCIIMGCPT (*(volatile unsigned *)0x4F0000A0) // UART #define rULCON0 (*(volatile unsigned *)0x50000000) //UART 0 Line control #define rUCON0 (*(volatile unsigned *)0x50000004) //UART 0 Control #define rUFCON0 (*(volatile unsigned *)0x50000008) //UART 0 FIFO control #define rUMCON0 (*(volatile unsigned *)0x5000000c) //UART 0 Modem control #define rUTRSTAT0 (*(volatile unsigned *)0x50000010) //UART 0 Tx/Rx status #define rUERSTAT0 (*(volatile unsigned *)0x50000014) //UART 0 Rx error status #define rUFSTAT0 (*(volatile unsigned *)0x50000018) //UART 0 FIFO status #define rUMSTAT0 (*(volatile unsigned *)0x5000001c) //UART 0 Modem status #define rUBRDIV0 (*(volatile unsigned *)0x50000028) //UART 0 Baud rate divisor #define rULCON1 (*(volatile unsigned *)0x50004000) //UART 1 Line control #define rUCON1 (*(volatile unsigned *)0x50004004) //UART 1 Control #define rUFCON1 (*(volatile unsigned *)0x50004008) //UART 1 FIFO control #define rUMCON1 (*(volatile unsigned *)0x5000400c) //UART 1 Modem control #define rUTRSTAT1 (*(volatile unsigned *)0x50004010) //UART 1 Tx/Rx status #define rUERSTAT1 (*(volatile unsigned *)0x50004014) //UART 1 Rx error status #define rUFSTAT1 (*(volatile unsigned *)0x50004018) //UART 1 FIFO status #define rUMSTAT1 (*(volatile unsigned *)0x5000401c) //UART 1 Modem status #define rUBRDIV1 (*(volatile unsigned *)0x50004028) //UART 1 Baud rate divisor #define rULCON2 (*(volatile unsigned *)0x50008000) //UART 2 Line control #define rUCON2 (*(volatile unsigned *)0x50008004) //UART 2 Control #define rUFCON2 (*(volatile unsigned *)0x50008008) //UART 2 FIFO control #define rUMCON2 (*(volatile unsigned *)0x5000800c) //UART 2 Modem control #define rUTRSTAT2 (*(volatile unsigned *)0x50008010) //UART 2 Tx/Rx status #define rUERSTAT2 (*(volatile unsigned *)0x50008014) //UART 2 Rx error status #define rUFSTAT2 (*(volatile unsigned *)0x50008018) //UART 2 FIFO status #define rUMSTAT2 (*(volatile unsigned *)0x5000801c) //UART 2 Modem status #define rUBRDIV2 (*(volatile unsigned *)0x50008028) //UART 2 Baud rate divisor #ifdef __BIG_ENDIAN #define rUTXH0 (*(volatile unsigned char *)0x50000023) //UART 0 Transmission Hold #define rURXH0 (*(volatile unsigned char *)0x50000027) //UART 0 Receive buffer #define rUTXH1 (*(volatile unsigned char *)0x50004023) //UART 1 Transmission Hold #define rURXH1 (*(volatile unsigned char *)0x50004027) //UART 1 Receive buffer #define rUTXH2 (*(volatile unsigned char *)0x50008023) //UART 2 Transmission Hold #define rURXH2 (*(volatile unsigned char *)0x50008027) //UART 2 Receive buffer #define WrUTXH0(ch) (*(volatile unsigned char *)0x50000023)=(unsigned char)(ch) #define RdURXH0() (*(volatile unsigned char *)0x50000027) #define WrUTXH1(ch) (*(volatile unsigned char *)0x50004023)=(unsigned char)(ch) #define RdURXH1() (*(volatile unsigned char *)0x50004027) #define WrUTXH2(ch) (*(volatile unsigned char *)0x50008023)=(unsigned char)(ch) #define RdURXH2() (*(volatile unsigned char *)0x50008027) #define UTXH0 (0x50000020+3) //Byte_access address by DMA #define URXH0 (0x50000024+3) #define UTXH1 (0x50004020+3) #define URXH1 (0x50004024+3) #define UTXH2 (0x50008020+3) #define URXH2 (0x50008024+3) #else //Little Endian #define rUTXH0 (*(volatile unsigned char *)0x50000020) //UART 0 Transmission Hold #define rURXH0 (*(volatile unsigned char *)0x50000024) //UART 0 Receive buffer #define rUTXH1 (*(volatile unsigned char *)0x50004020) //UART 1 Transmission Hold #define rURXH1 (*(volatile unsigned char *)0x50004024) //UART 1 Receive buffer #define rUTXH2 (*(volatile unsigned char *)0x50008020) //UART 2 Transmission Hold #define rURXH2 (*(volatile unsigned char *)0x50008024) //UART 2 Receive buffer #define WrUTXH0(ch) (*(volatile unsigned char *)0x50000020)=(unsigned char)(ch) #define RdURXH0() (*(volatile unsigned char *)0x50000024) #define WrUTXH1(ch) (*(volatile unsigned char *)0x50004020)=(unsigned char)(ch) #define RdURXH1() (*(volatile unsigned char *)0x50004024) #define WrUTXH2(ch) (*(volatile unsigned char *)0x50008020)=(unsigned char)(ch) #define RdURXH2() (*(volatile unsigned char *)0x50008024) #define UTXH0 (0x50000020) //Byte_access address by DMA #define URXH0 (0x50000024) #define UTXH1 (0x50004020) #define URXH1 (0x50004024) #define UTXH2 (0x50008020) #define URXH2 (0x50008024) #endif // PWM TIMER #define rTCFG0 (*(volatile unsigned *)0x51000000) //Timer 0 configuration #define rTCFG1 (*(volatile unsigned *)0x51000004) //Timer 1 configuration #define rTCON (*(volatile unsigned *)0x51000008) //Timer control #define rTCNTB0 (*(volatile unsigned *)0x5100000c) //Timer count buffer 0 #define rTCMPB0 (*(volatile unsigned *)0x51000010) //Timer compare buffer 0 #define rTCNTO0 (*(volatile unsigned *)0x51000014) //Timer count observation 0 #define rTCNTB1 (*(volatile unsigned *)0x51000018) //Timer count buffer 1 #define rTCMPB1 (*(volatile unsigned *)0x5100001c) //Timer compare buffer 1 #define rTCNTO1 (*(volatile unsigned *)0x51000020) //Timer count observation 1 #define rTCNTB2 (*(volatile unsigned *)0x51000024) //Timer count buffer 2 #define rTCMPB2 (*(volatile unsigned *)0x51000028) //Timer compare buffer 2 #define rTCNTO2 (*(volatile unsigned *)0x5100002c) //Timer count observation 2 #define rTCNTB3 (*(volatile unsigned *)0x51000030) //Timer count buffer 3 #define rTCMPB3 (*(volatile unsigned *)0x51000034) //Timer compare buffer 3 #define rTCNTO3 (*(volatile unsigned *)0x51000038) //Timer count observation 3 #define rTCNTB4 (*(volatile unsigned *)0x5100003c) //Timer count buffer 4 #define rTCNTO4 (*(volatile unsigned *)0x51000040) //Timer count observation 4 // USB DEVICE #ifdef __BIG_ENDIAN <ERROR IF BIG_ENDIAN> #define rFUNC_ADDR_REG (*(volatile unsigned char *)0x52000143) //Function address #define rPWR_REG (*(volatile unsigned char *)0x52000147) //Power management #define rEP_INT_REG (*(volatile unsigned char *)0x5200014b) //EP Interrupt pending and clear #define rUSB_INT_REG (*(volatile unsigned char *)0x5200015b) //USB Interrupt pending and clear #define rEP_INT_EN_REG (*(volatile unsigned char *)0x5200015f) //Interrupt enable #define rUSB_INT_EN_REG (*(volatile unsigned char *)0x5200016f) #define rFRAME_NUM1_REG (*(volatile unsigned char *)0x52000173) //Frame number lower byte #define rFRAME_NUM2_REG (*(volatile unsigned char *)0x52000177) //Frame number higher byte #define rINDEX_REG (*(volatile unsigned char *)0x5200017b) //Register index #define rMAXP_REG (*(volatile unsigned char *)0x52000183) //Endpoint max packet #define rEP0_CSR (*(volatile unsigned char *)0x52000187) //Endpoint 0 status #define rIN_CSR1_REG (*(volatile unsigned char *)0x52000187) //In endpoint control status #define rIN_CSR2_REG (*(volatile unsigned char *)0x5200018b) #define rOUT_CSR1_REG (*(volatile unsigned char *)0x52000193) //Out endpoint control status #define rOUT_CSR2_REG (*(volatile unsigned char *)0x52000197) #define rOUT_FIFO_CNT1_REG (*(volatile unsigned char *)0x5200019b) //Endpoint out write count #define rOUT_FIFO_CNT2_REG (*(volatile unsigned char *)0x5200019f) #define rEP0_FIFO (*(volatile unsigned char *)0x520001c3) //Endpoint 0 FIFO #define rEP1_FIFO (*(volatile unsigned char *)0x520001c7) //Endpoint 1 FIFO #define rEP2_FIFO (*(volatile unsigned char *)0x520001cb) //Endpoint 2 FIFO #define rEP3_FIFO (*(volatile unsigned char *)0x520001cf) //Endpoint 3 FIFO #define rEP4_FIFO (*(volatile unsigned char *)0x520001d3) //Endpoint 4 FIFO #define rEP1_DMA_CON (*(volatile unsigned char *)0x52000203) //EP1 DMA interface control #define rEP1_DMA_UNIT (*(volatile unsigned char *)0x52000207) //EP1 DMA Tx unit counter #define rEP1_DMA_FIFO (*(volatile unsigned char *)0x5200020b) //EP1 DMA Tx FIFO counter #define rEP1_DMA_TTC_L (*(volatile unsigned char *)0x5200020f) //EP1 DMA total Tx counter #define rEP1_DMA_TTC_M (*(volatile unsigned char *)0x52000213) #define rEP1_DMA_TTC_H (*(volatile unsigned char *)0x52000217) #define rEP2_DMA_CON (*(volatile unsigned char *)0x5200021b) //EP2 DMA interface control #define rEP2_DMA_UNIT (*(volatile unsigned char *)0x5200021f) //EP2 DMA Tx unit counter #define rEP2_DMA_FIFO (*(volatile unsigned char *)0x52000223) //EP2 DMA Tx FIFO counter #define rEP2_DMA_TTC_L (*(volatile unsigned char *)0x52000227) //EP2 DMA total Tx counter #define rEP2_DMA_TTC_M (*(volatile unsigned char *)0x5200022b) #define rEP2_DMA_TTC_H (*(volatile unsigned char *)0x5200022f) #define rEP3_DMA_CON (*(volatile unsigned char *)0x52000243) //EP3 DMA interface control #define rEP3_DMA_UNIT (*(volatile unsigned char *)0x52000247) //EP3 DMA Tx unit counter #define rEP3_DMA_FIFO (*(volatile unsigned char *)0x5200024b) //EP3 DMA Tx FIFO counter #define rEP3_DMA_TTC_L (*(volatile unsigned char *)0x5200024f) //EP3 DMA total Tx counter #define rEP3_DMA_TTC_M (*(volatile unsigned char *)0x52000253) #define rEP3_DMA_TTC_H (*(volatile unsigned char *)0x52000257) #define rEP4_DMA_CON (*(volatile unsigned char *)0x5200025b) //EP4 DMA interface control #define rEP4_DMA_UNIT (*(volatile unsigned char *)0x5200025f) //EP4 DMA Tx unit counter #define rEP4_DMA_FIFO (*(volatile unsigned char *)0x52000263) //EP4 DMA Tx FIFO counter #define rEP4_DMA_TTC_L (*(volatile unsigned char *)0x52000267) //EP4 DMA total Tx counter #define rEP4_DMA_TTC_M (*(volatile unsigned char *)0x5200026b) #define rEP4_DMA_TTC_H (*(volatile unsigned char *)0x5200026f) #else // Little Endian #define rFUNC_ADDR_REG (*(volatile unsigned char *)0x52000140) //Function address #define rPWR_REG (*(volatile unsigned char *)0x52000144) //Power management #define rEP_INT_REG (*(volatile unsigned char *)0x52000148) //EP Interrupt pending and clear #define rUSB_INT_REG (*(volatile unsigned char *)0x52000158) //USB Interrupt pending and clear #define rEP_INT_EN_REG (*(volatile unsigned char *)0x5200015c) //Interrupt enable #define rUSB_INT_EN_REG (*(volatile unsigned char *)0x5200016c) #define rFRAME_NUM1_REG (*(volatile unsigned char *)0x52000170) //Frame number lower byte #define rFRAME_NUM2_REG (*(volatile unsigned char *)0x52000174) //Frame number higher byte #define rINDEX_REG (*(volatile unsigned char *)0x52000178) //Register index #define rMAXP_REG (*(volatile unsigned char *)0x52000180) //Endpoint max packet #define rEP0_CSR (*(volatile unsigned char *)0x52000184) //Endpoint 0 status #define rIN_CSR1_REG (*(volatile unsigned char *)0x52000184) //In endpoint control status #define rIN_CSR2_REG (*(volatile unsigned char *)0x52000188) #define rOUT_CSR1_REG (*(volatile unsigned char *)0x52000190) //Out endpoint control status #define rOUT_CSR2_REG (*(volatile unsigned char *)0x52000194) #define rOUT_FIFO_CNT1_REG (*(volatile unsigned char *)0x52000198) //Endpoint out write count #define rOUT_FIFO_CNT2_REG (*(volatile unsigned char *)0x5200019c) #define rEP0_FIFO (*(volatile unsigned char *)0x520001c0) //Endpoint 0 FIFO #define rEP1_FIFO (*(volatile unsigned char *)0x520001c4) //Endpoint 1 FIFO #define rEP2_FIFO (*(volatile unsigned char *)0x520001c8) //Endpoint 2 FIFO #define rEP3_FIFO (*(volatile unsigned char *)0x520001cc) //Endpoint 3 FIFO #define rEP4_FIFO (*(volatile unsigned char *)0x520001d0) //Endpoint 4 FIFO #define rEP1_DMA_CON (*(volatile unsigned char *)0x52000200) //EP1 DMA interface control #define rEP1_DMA_UNIT (*(volatile unsigned char *)0x52000204) //EP1 DMA Tx unit counter #define rEP1_DMA_FIFO (*(volatile unsigned char *)0x52000208) //EP1 DMA Tx FIFO counter #define rEP1_DMA_TTC_L (*(volatile unsigned char *)0x5200020c) //EP1 DMA total Tx counter #define rEP1_DMA_TTC_M (*(volatile unsigned char *)0x52000210) #define rEP1_DMA_TTC_H (*(volatile unsigned char *)0x52000214) #define rEP2_DMA_CON (*(volatile unsigned char *)0x52000218) //EP2 DMA interface control #define rEP2_DMA_UNIT (*(volatile unsigned char *)0x5200021c) //EP2 DMA Tx unit counter #define rEP2_DMA_FIFO (*(volatile unsigned char *)0x52000220) //EP2 DMA Tx FIFO counter #define rEP2_DMA_TTC_L (*(volatile unsigned char *)0x52000224) //EP2 DMA total Tx counter #define rEP2_DMA_TTC_M (*(volatile unsigned char *)0x52000228) #define rEP2_DMA_TTC_H (*(volatile unsigned char *)0x5200022c) #define rEP3_DMA_CON (*(volatile unsigned char *)0x52000240) //EP3 DMA interface control #define rEP3_DMA_UNIT (*(volatile unsigned char *)0x52000244) //EP3 DMA Tx unit counter #define rEP3_DMA_FIFO (*(volatile unsigned char *)0x52000248) //EP3 DMA Tx FIFO counter #define rEP3_DMA_TTC_L (*(volatile unsigned char *)0x5200024c) //EP3 DMA total Tx counter #define rEP3_DMA_TTC_M (*(volatile unsigned char *)0x52000250) #define rEP3_DMA_TTC_H (*(volatile unsigned char *)0x52000254) #define rEP4_DMA_CON (*(volatile unsigned char *)0x52000258) //EP4 DMA interface control #define rEP4_DMA_UNIT (*(volatile unsigned char *)0x5200025c) //EP4 DMA Tx unit counter #define rEP4_DMA_FIFO (*(volatile unsigned char *)0x52000260) //EP4 DMA Tx FIFO counter #define rEP4_DMA_TTC_L (*(volatile unsigned char *)0x52000264) //EP4 DMA total Tx counter #define rEP4_DMA_TTC_M (*(volatile unsigned char *)0x52000268) #define rEP4_DMA_TTC_H (*(volatile unsigned char *)0x5200026c) #endif // __BIG_ENDIAN // WATCH DOG TIMER #define rWTCON (*(volatile unsigned *)0x53000000) //Watch-dog timer mode #define rWTDAT (*(volatile unsigned *)0x53000004) //Watch-dog timer data #define rWTCNT (*(volatile unsigned *)0x53000008) //Eatch-dog timer count // IIC #define rIICCON (*(volatile unsigned *)0x54000000) //IIC control #define rIICSTAT (*(volatile unsigned *)0x54000004) //IIC status #define rIICADD (*(volatile unsigned *)0x54000008) //IIC address #define rIICDS (*(volatile unsigned *)0x5400000c) //IIC data shift #define rIICLC (*(volatile unsigned *)0x54000010) //IIC multi-master line control // IIS #define rIISCON (*(volatile unsigned *)0x55000000) //IIS Control #define rIISMOD (*(volatile unsigned *)0x55000004) //IIS Mode #define rIISPSR (*(volatile unsigned *)0x55000008) //IIS Prescaler #define rIISFCON (*(volatile unsigned *)0x5500000c) //IIS FIFO control #ifdef __BIG_ENDIAN #define IISFIFO ((volatile unsigned short *)0x55000012) //IIS FIFO entry #else //Little Endian #define IISFIFO ((volatile unsigned short *)0x55000010) //IIS FIFO entry #endif //AC97, Added for S3C2440A #define rAC_GLBCTRL *(volatile unsigned *)0x5b000000 #define rAC_GLBSTAT *(volatile unsigned *)0x5b000004 #define rAC_CODEC_CMD *(volatile unsigned *)0x5b000008 #define rAC_CODEC_STAT *(volatile unsigned *)0x5b00000C #define rAC_PCMADDR *(volatile unsigned *)0x5b000010 #define rAC_MICADDR *(volatile unsigned *)0x5b000014 #define rAC_PCMDATA *(volatile unsigned *)0x5b000018 #define rAC_MICDATA *(volatile unsigned *)0x5b00001C #define AC_PCMDATA 0x5b000018 #define AC_MICDATA 0x5b00001C // I/O PORT #define rGPACON (*(volatile unsigned *)0x56000000) //Port A control #define rGPADAT (*(volatile unsigned *)0x56000004) //Port A data #define rGPBCON (*(volatile unsigned *)0x56000010) //Port B control #define rGPBDAT (*(volatile unsigned *)0x56000014) //Port B data #define rGPBUP (*(volatile unsigned *)0x56000018) //Pull-up control B #define rGPCCON (*(volatile unsigned *)0x56000020) //Port C control #define rGPCDAT (*(volatile unsigned *)0x56000024) //Port C data #define rGPCUP (*(volatile unsigned *)0x56000028) //Pull-up control C #define rGPDCON (*(volatile unsigned *)0x56000030) //Port D control #define rGPDDAT (*(volatile unsigned *)0x56000034) //Port D data #define rGPDUP (*(volatile unsigned *)0x56000038) //Pull-up control D #define rGPECON (*(volatile unsigned *)0x56000040) //Port E control #define rGPEDAT (*(volatile unsigned *)0x56000044) //Port E data #define rGPEUP (*(volatile unsigned *)0x56000048) //Pull-up control E #define rGPFCON (*(volatile unsigned *)0x56000050) //Port F control #define rGPFDAT (*(volatile unsigned *)0x56000054) //Port F data #define rGPFUP (*(volatile unsigned *)0x56000058) //Pull-up control F #define rGPGCON (*(volatile unsigned *)0x56000060) //Port G control #define rGPGDAT (*(volatile unsigned *)0x56000064) //Port G data #define rGPGUP (*(volatile unsigned *)0x56000068) //Pull-up control G #define rGPHCON (*(volatile unsigned *)0x56000070) //Port H control #define rGPHDAT (*(volatile unsigned *)0x56000074) //Port H data #define rGPHUP (*(volatile unsigned *)0x56000078) //Pull-up control H #define rGPJCON (*(volatile unsigned *)0x560000d0) //Port J control #define rGPJDAT (*(volatile unsigned *)0x560000d4) //Port J data #define rGPJUP (*(volatile unsigned *)0x560000d8) //Pull-up control J #define rMISCCR (*(volatile unsigned *)0x56000080) //Miscellaneous control #define rDCLKCON (*(volatile unsigned *)0x56000084) //DCLK0/1 control #define rEXTINT0 (*(volatile unsigned *)0x56000088) //External interrupt control register 0 #define rEXTINT1 (*(volatile unsigned *)0x5600008c) //External interrupt control register 1 #define rEXTINT2 (*(volatile unsigned *)0x56000090) //External interrupt control register 2 #define rEINTFLT0 (*(volatile unsigned *)0x56000094) //Reserved #define rEINTFLT1 (*(volatile unsigned *)0x56000098) //Reserved #define rEINTFLT2 (*(volatile unsigned *)0x5600009c) //External interrupt filter control register 2 #define rEINTFLT3 (*(volatile unsigned *)0x560000a0) //External interrupt filter control register 3 #define rEINTMASK (*(volatile unsigned *)0x560000a4) //External interrupt mask #define rEINTPEND (*(volatile unsigned *)0x560000a8) //External interrupt pending #define rGSTATUS0 (*(volatile unsigned *)0x560000ac) //External pin status #define rGSTATUS1 (*(volatile unsigned *)0x560000b0) //Chip ID(0x32440000) #define rGSTATUS2 (*(volatile unsigned *)0x560000b4) //Reset type #define rGSTATUS3 (*(volatile unsigned *)0x560000b8) //Saved data0(32-bit) before entering POWER_OFF mode #define rGSTATUS4 (*(volatile unsigned *)0x560000bc) //Saved data0(32-bit) before entering POWER_OFF mode // Added for 2440 #define rFLTOUT (*(volatile unsigned *)0x560000c0) // Filter output(Read only) #define rDSC0 (*(volatile unsigned *)0x560000c4) // Strength control register 0 #define rDSC1 (*(volatile unsigned *)0x560000c8) // Strength control register 1 #define rMSLCON (*(volatile unsigned *)0x560000cc) // Memory sleep control register // RTC #ifdef __BIG_ENDIAN #define rRTCCON (*(volatile unsigned char *)0x57000043) //RTC control #define rTICNT (*(volatile unsigned char *)0x57000047) //Tick time count #define rRTCALM (*(volatile unsigned char *)0x57000053) //RTC alarm control #define rALMSEC (*(volatile unsigned char *)0x57000057) //Alarm second #define rALMMIN (*(volatile unsigned char *)0x5700005b) //Alarm minute #define rALMHOUR (*(volatile unsigned char *)0x5700005f) //Alarm Hour #define rALMDATE (*(volatile unsigned char *)0x57000063) //Alarm date //edited by junon #define rALMMON (*(volatile unsigned char *)0x57000067) //Alarm month #define rALMYEAR (*(volatile unsigned char *)0x5700006b) //Alarm year #define rRTCRST (*(volatile unsigned char *)0x5700006f) //RTC round reset #define rBCDSEC (*(volatile unsigned char *)0x57000073) //BCD second #define rBCDMIN (*(volatile unsigned char *)0x57000077) //BCD minute #define rBCDHOUR (*(volatile unsigned char *)0x5700007b) //BCD hour #define rBCDDATE (*(volatile unsigned char *)0x5700007f) //BCD date //edited by junon #define rBCDDAY (*(volatile unsigned char *)0x57000083) //BCD day //edited by junon #define rBCDMON (*(volatile unsigned char *)0x57000087) //BCD month #define rBCDYEAR (*(volatile unsigned char *)0x5700008b) //BCD year #else //Little Endian #define rRTCCON (*(volatile unsigned char *)0x57000040) //RTC control #define rTICNT (*(volatile unsigned char *)0x57000044) //Tick time count #define rRTCALM (*(volatile unsigned char *)0x57000050) //RTC alarm control #define rALMSEC (*(volatile unsigned char *)0x57000054) //Alarm second #define rALMMIN (*(volatile unsigned char *)0x57000058) //Alarm minute #define rALMHOUR (*(volatile unsigned char *)0x5700005c) //Alarm Hour #define rALMDATE (*(volatile unsigned char *)0x57000060) //Alarm date // edited by junon #define rALMMON (*(volatile unsigned char *)0x57000064) //Alarm month #define rALMYEAR (*(volatile unsigned char *)0x57000068) //Alarm year #define rRTCRST (*(volatile unsigned char *)0x5700006c) //RTC round reset #define rBCDSEC (*(volatile unsigned char *)0x57000070) //BCD second #define rBCDMIN (*(volatile unsigned char *)0x57000074) //BCD minute #define rBCDHOUR (*(volatile unsigned char *)0x57000078) //BCD hour #define rBCDDATE (*(volatile unsigned char *)0x5700007c) //BCD date //edited by junon #define rBCDDAY (*(volatile unsigned char *)0x57000080) //BCD day //edited by junon #define rBCDMON (*(volatile unsigned char *)0x57000084) //BCD month #define rBCDYEAR (*(volatile unsigned char *)0x57000088) //BCD year #endif //RTC // ADC #define rADCCON (*(volatile unsigned *)0x58000000) //ADC control #define rADCTSC (*(volatile unsigned *)0x58000004) //ADC touch screen control #define rADCDLY (*(volatile unsigned *)0x58000008) //ADC start or Interval Delay #define rADCDAT0 (*(volatile unsigned *)0x5800000c) //ADC conversion data 0 #define rADCDAT1 (*(volatile unsigned *)0x58000010) //ADC conversion data 1 #define rADCUPDN (*(volatile unsigned *)0x58000014) //Stylus Up/Down interrupt status // SPI #define rSPCON0 (*(volatile unsigned *)0x59000000) //SPI0 control #define rSPSTA0 (*(volatile unsigned *)0x59000004) //SPI0 status #define rSPPIN0 (*(volatile unsigned *)0x59000008) //SPI0 pin control #define rSPPRE0 (*(volatile unsigned *)0x5900000c) //SPI0 baud rate prescaler #define rSPTDAT0 (*(volatile unsigned *)0x59000010) //SPI0 Tx data #define rSPRDAT0 (*(volatile unsigned *)0x59000014) //SPI0 Rx data #define rSPCON1 (*(volatile unsigned *)0x59000020) //SPI1 control #define rSPSTA1 (*(volatile unsigned *)0x59000024) //SPI1 status #define rSPPIN1 (*(volatile unsigned *)0x59000028) //SPI1 pin control #define rSPPRE1 (*(volatile unsigned *)0x5900002c) //SPI1 baud rate prescaler #define rSPTDAT1 (*(volatile unsigned *)0x59000030) //SPI1 Tx data #define rSPRDAT1 (*(volatile unsigned *)0x59000034) //SPI1 Rx data // SD Interface #define rSDICON (*(volatile unsigned *)0x5a000000) //SDI control #define rSDIPRE (*(volatile unsigned *)0x5a000004) //SDI baud rate prescaler #define rSDICARG (*(volatile unsigned *)0x5a000008) //SDI command argument #define rSDICCON (*(volatile unsigned *)0x5a00000c) //SDI command control #define rSDICSTA (*(volatile unsigned *)0x5a000010) //SDI command status #define rSDIRSP0 (*(volatile unsigned *)0x5a000014) //SDI response 0 #define rSDIRSP1 (*(volatile unsigned *)0x5a000018) //SDI response 1 #define rSDIRSP2 (*(volatile unsigned *)0x5a00001c) //SDI response 2 #define rSDIRSP3 (*(volatile unsigned *)0x5a000020) //SDI response 3 #define rSDIDTIMER (*(volatile unsigned *)0x5a000024) //SDI data/busy timer #define rSDIBSIZE (*(volatile unsigned *)0x5a000028) //SDI block size #define rSDIDCON (*(volatile unsigned *)0x5a00002c) //SDI data control #define rSDIDCNT (*(volatile unsigned *)0x5a000030) //SDI data remain counter #define rSDIDSTA (*(volatile unsigned *)0x5a000034) //SDI data status #define rSDIFSTA (*(volatile unsigned *)0x5a000038) //SDI FIFO status #define rSDIIMSK (*(volatile unsigned *)0x5a00003c) //SDI interrupt mask. edited for 2440A #ifdef __BIG_ENDIAN /* edited for 2440A */ #define rSDIDAT (*(volatile unsigned *)0x5a00004c) //SDI data #define SDIDAT 0x5a00004c #else // Little Endian #define rSDIDAT (*(volatile unsigned *)0x5a000040) //SDI data #define SDIDAT 0x5a000040 #endif //SD Interface // Exception vector #define pISR_RESET (*(unsigned *)(_ISR_STARTADDRESS+0x0)) #define pISR_UNDEF (*(unsigned *)(_ISR_STARTADDRESS+0x4)) #define pISR_SWI (*(unsigned *)(_ISR_STARTADDRESS+0x8)) #define pISR_PABORT (*(unsigned *)(_ISR_STARTADDRESS+0xc)) #define pISR_DABORT (*(unsigned *)(_ISR_STARTADDRESS+0x10)) #define pISR_RESERVED (*(unsigned *)(_ISR_STARTADDRESS+0x14)) #define pISR_IRQ (*(unsigned *)(_ISR_STARTADDRESS+0x18)) #define pISR_FIQ (*(unsigned *)(_ISR_STARTADDRESS+0x1c)) // Interrupt vector #define pISR_EINT0 (*(unsigned *)(_ISR_STARTADDRESS+0x20)) #define pISR_EINT1 (*(unsigned *)(_ISR_STARTADDRESS+0x24)) #define pISR_EINT2 (*(unsigned *)(_ISR_STARTADDRESS+0x28)) #define pISR_EINT3 (*(unsigned *)(_ISR_STARTADDRESS+0x2c)) #define pISR_EINT4_7 (*(unsigned *)(_ISR_STARTADDRESS+0x30)) #define pISR_EINT8_23 (*(unsigned *)(_ISR_STARTADDRESS+0x34)) #define pISR_CAM (*(unsigned *)(_ISR_STARTADDRESS+0x38)) // Added for 2440. #define pISR_BAT_FLT (*(unsigned *)(_ISR_STARTADDRESS+0x3c)) #define pISR_TICK (*(unsigned *)(_ISR_STARTADDRESS+0x40)) #define pISR_WDT_AC97 (*(unsigned *)(_ISR_STARTADDRESS+0x44)) //Changed to pISR_WDT_AC97 for 2440A #define pISR_TIMER0 (*(unsigned *)(_ISR_STARTADDRESS+0x48)) #define pISR_TIMER1 (*(unsigned *)(_ISR_STARTADDRESS+0x4c)) #define pISR_TIMER2 (*(unsigned *)(_ISR_STARTADDRESS+0x50)) #define pISR_TIMER3 (*(unsigned *)(_ISR_STARTADDRESS+0x54)) #define pISR_TIMER4 (*(unsigned *)(_ISR_STARTADDRESS+0x58)) #define pISR_UART2 (*(unsigned *)(_ISR_STARTADDRESS+0x5c)) #define pISR_LCD (*(unsigned *)(_ISR_STARTADDRESS+0x60)) #define pISR_DMA0 (*(unsigned *)(_ISR_STARTADDRESS+0x64)) #define pISR_DMA1 (*(unsigned *)(_ISR_STARTADDRESS+0x68)) #define pISR_DMA2 (*(unsigned *)(_ISR_STARTADDRESS+0x6c)) #define pISR_DMA3 (*(unsigned *)(_ISR_STARTADDRESS+0x70)) #define pISR_SDI (*(unsigned *)(_ISR_STARTADDRESS+0x74)) #define pISR_SPI0 (*(unsigned *)(_ISR_STARTADDRESS+0x78)) #define pISR_UART1 (*(unsigned *)(_ISR_STARTADDRESS+0x7c)) #define pISR_NFCON (*(unsigned *)(_ISR_STARTADDRESS+0x80)) // Added for 2440. #define pISR_USBD (*(unsigned *)(_ISR_STARTADDRESS+0x84)) #define pISR_USBH (*(unsigned *)(_ISR_STARTADDRESS+0x88)) #define pISR_IIC (*(unsigned *)(_ISR_STARTADDRESS+0x8c)) #define pISR_UART0 (*(unsigned *)(_ISR_STARTADDRESS+0x90)) #define pISR_SPI1 (*(unsigned *)(_ISR_STARTADDRESS+0x94)) #define pISR_RTC (*(unsigned *)(_ISR_STARTADDRESS+0x98)) #define pISR_ADC (*(unsigned *)(_ISR_STARTADDRESS+0x9c)) // PENDING BIT #define BIT_EINT0 (0x1) #define BIT_EINT1 (0x1<<1) #define BIT_EINT2 (0x1<<2) #define BIT_EINT3 (0x1<<3) #define BIT_EINT4_7 (0x1<<4) #define BIT_EINT8_23 (0x1<<5) #define BIT_CAM (0x1<<6) // Added for 2440. #define BIT_BAT_FLT (0x1<<7) #define BIT_TICK (0x1<<8) #define BIT_WDT_AC97 (0x1<<9) // Changed from BIT_WDT to BIT_WDT_AC97 for 2440A #define BIT_TIMER0 (0x1<<10) #define BIT_TIMER1 (0x1<<11) #define BIT_TIMER2 (0x1<<12) #define BIT_TIMER3 (0x1<<13) #define BIT_TIMER4 (0x1<<14) #define BIT_UART2 (0x1<<15) #define BIT_LCD (0x1<<16) #define BIT_DMA0 (0x1<<17) #define BIT_DMA1 (0x1<<18) #define BIT_DMA2 (0x1<<19) #define BIT_DMA3 (0x1<<20) #define BIT_SDI (0x1<<21) #define BIT_SPI0 (0x1<<22) #define BIT_UART1 (0x1<<23) #define BIT_NFCON (0x1<<24) // Added for 2440. #define BIT_USBD (0x1<<25) #define BIT_USBH (0x1<<26) #define BIT_IIC (0x1<<27) #define BIT_UART0 (0x1<<28) #define BIT_SPI1 (0x1<<29) #define BIT_RTC (0x1<<30) #define BIT_ADC (0x1<<31) #define BIT_ALLMSK (0xffffffff) #define BIT_SUB_ALLMSK (0x7fff) //Changed from 0x7ff to 0x7fff for 2440A #define BIT_SUB_AC97 (0x1<<14) //Added for 2440A #define BIT_SUB_WDT (0x1<<13) //Added for 2440A #define BIT_SUB_CAM_P (0x1<<12) // edited for 2440A. #define BIT_SUB_CAM_C (0x1<<11) // edited for 2440A #define BIT_SUB_ADC (0x1<<10) #define BIT_SUB_TC (0x1<<9) #define BIT_SUB_ERR2 (0x1<<8) #define BIT_SUB_TXD2 (0x1<<7) #define BIT_SUB_RXD2 (0x1<<6) #define BIT_SUB_ERR1 (0x1<<5) #define BIT_SUB_TXD1 (0x1<<4) #define BIT_SUB_RXD1 (0x1<<3) #define BIT_SUB_ERR0 (0x1<<2) #define BIT_SUB_TXD0 (0x1<<1) #define BIT_SUB_RXD0 (0x1<<0) #define BIT_EINT4 (0x1<<4) #define BIT_EINT5 (0x1<<5) #define BIT_EINT6 (0x1<<6) #define BIT_EINT7 (0x1<<7) #define BIT_EINT8 (0x1<<8) #define BIT_EINT9 (0x1<<9) #define BIT_EINT10 (0x1<<10) #define BIT_EINT11 (0x1<<11) #define BIT_EINT12 (0x1<<12) #define BIT_EINT13 (0x1<<13) #define BIT_EINT14 (0x1<<14) #define BIT_EINT15 (0x1<<15) #define BIT_EINT16 (0x1<<16) #define BIT_EINT17 (0x1<<17) #define BIT_EINT18 (0x1<<18) #define BIT_EINT19 (0x1<<19) #define BIT_EINT20 (0x1<<20) #define BIT_EINT21 (0x1<<21) #define BIT_EINT22 (0x1<<22) #define BIT_EINT23 (0x1<<23) __inline void ClearPending(int bit) { rSRCPND |= bit; rINTPND |= bit; } __inline void ClearSubPending(int bit) { rSUBSRCPND |= bit; } __inline void ClearEintPending(int bit) { rEINTPEND |= bit; } #define EnableIrq(bit) rINTMSK &= ~(bit) #define DisableIrq(bit) rINTMSK |= (bit) #define EnableSubIrq(bit) rINTSUBMSK &= ~(bit) #define DisableSubIrq(bit) rINTSUBMSK |= (bit) #define EnableEintIrq(bit) rEINTMASK &= ~(bit) #define DisableEintIrq(bit) rEINTMASK |= (bit) #ifdef __cplusplus } #endif #endif //__2440ADDR_H__