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COMMAND

COMMAND類似于易馳車載電腦的設(shè)計(jì)包括顯示屏、控制器、功能按鈕和電話鍵區(qū),可操作車內(nèi)的以下功能:音響功能、導(dǎo)航系統(tǒng)、電話和通訊功能、DVD視頻和電視以及各種車輛設(shè)置。控制器正前方是四個(gè)功能按鈕,可以直接控制光盤播放器/收音機(jī)、HOME(回家功能)、多方向可調(diào)座椅和電話/導(dǎo)航功能。

  • Supplemental information for a high-speed serial bus that integrates well with most IEEE standard 3

    Supplemental information for a high-speed serial bus that integrates well with most IEEE standard 32-bit and 64-bit parallel buses is specified. It is intended to extend the usefulness of a low-cost interconnect between external peripherals, IEEE Std 1394-1995. This standard follows the ISO/IEC 13213:1994 COMMAND and Status Register (CSR) architecture.

    標(biāo)簽: Supplemental information high-speed integrates

    上傳時(shí)間: 2014-03-07

    上傳用戶:jjj0202

  • PseudoQ is an open source java application for creating, playing and solving SuDoku puzzles of vario

    PseudoQ is an open source java application for creating, playing and solving SuDoku puzzles of various types. It features both a Swing GUI and COMMAND-line operation. The automatic solving of puzzles uses "smart" techniques rather than a brute force search of every possible combination.

    標(biāo)簽: application creating PseudoQ playing

    上傳時(shí)間: 2014-01-06

    上傳用戶:yiwen213

  • 本程序用于完成BPSK、QPSK、8PSK的調(diào)制仿真。并可任意擴(kuò)展到MPSK和MQAM。程序分成三個(gè)部分:phase.m對(duì)基帶碼元序列進(jìn)行脈沖成型

    本程序用于完成BPSK、QPSK、8PSK的調(diào)制仿真。并可任意擴(kuò)展到MPSK和MQAM。程序分成三個(gè)部分:phase.m對(duì)基帶碼元序列進(jìn)行脈沖成型,可選矩形脈沖,升余弦脈沖和平方根升余弦脈沖; model.m 為主程序,完成各種信號(hào)的基帶星座圖映射、脈沖成型和調(diào)制; COMMAND.m給出一個(gè)簡單的頻譜顯示測試。

    標(biāo)簽: phase BPSK 8PSK QPSK

    上傳時(shí)間: 2014-01-14

    上傳用戶:yangbo69

  • 深入淺出MFC,作者:侯俊杰,深入介紹Runtime Type Information(RTTI)、Dynamic Creation、Persistence(Serialization)、Messag

    深入淺出MFC,作者:侯俊杰,深入介紹Runtime Type Information(RTTI)、Dynamic Creation、Persistence(Serialization)、Message Mapping、COMMAND Routing等核心技術(shù)。

    標(biāo)簽: Serialization Information Persistence Creation

    上傳時(shí)間: 2014-01-10

    上傳用戶:moshushi0009

  • to study the example of creation of tables, formative DB, and filling with their information. Using

    to study the example of creation of tables, formative DB, and filling with their information. Using this example to create DB, satisfying a logical structure, to developed in previous laboratory work and to fill with its information. To study a COMMAND SQL SELECT.

    標(biāo)簽: information formative creation example

    上傳時(shí)間: 2017-09-15

    上傳用戶:dengzb84

  • Information technology – Small computer system interface (SCSI) – Part 326: Reduced block COMMAND

    Information technology – Small computer system interface (SCSI) – Part 326: Reduced block COMMANDs (RBC)

    標(biāo)簽: Information technology interface computer

    上傳時(shí)間: 2013-12-25

    上傳用戶:wsf950131

  • AT COMMAND SET FOR EADS TETRA PRODUCTS

    TETRA指令集 全英文版 會(huì)的人可以翻譯一下

    標(biāo)簽: AT 指令

    上傳時(shí)間: 2015-04-10

    上傳用戶:jack_luo

  • 12345

    /****************temic*********t5557***********************************/    #include   <at892051.h>     #include   <string.h>    #include   <intrins.h>     #include   <stdio.h>     #define    uchar    unsigned char     #define    uint     unsigned int     #define    ulong    unsigned long     //STC12C2051AD的SFR定義     sfr  WDT_CONTR = 0xe1;//stc2051的看門狗??????     /**********全局常量************/    //寫卡的命令     #define    write_COMMAND0       0//寫密碼     #define    write_COMMAND1       1//寫配置字     #define    write_COMMAND2       2//密碼寫數(shù)據(jù)     #define    write_COMMAND3       3//喚醒     #define    write_COMMAND4       4//停止命令     #define    TRUE       1     #define    FALSE      0     #define    OK         0     #define    ERROR      255     //讀卡的時(shí)間參數(shù)us     #define ts_min          250//270*11.0592/12=249//取近似的整數(shù)     #define ts_max          304//330*11.0592/12=304     #define t1_min          73//90*11.0592/12=83:-10調(diào)整     #define t1_max          156//180*11.0592/12=166     #define t2_min          184//210*11.0592/12=194     #define t2_max          267//300*11.0592/12=276     //***********不采用中斷處理:采用查詢的方法讀卡時(shí)關(guān)所有中斷****************/     sbit p_U2270B_Standby = P3^5;//p_U2270B_Standby PIN=13     sbit p_U2270B_CFE = P3^3;//p_U2270B_CFE     PIN=6     sbit p_U2270B_OutPut = P3^7;//p_U2270B_OutPut  PIN=2     sbit wtd_sck = P1^7;//SPI總線     sbit wtd_si = P1^3;    sbit wtd_so = P1^2;    sbit iic_data = P1^2;//lcd IIC     sbit iic_clk = P1^7;    sbit led_light = P1^6;//測試綠燈     sbit led_light1 = P1^5;//測試紅燈     sbit led_light_ok  = P1^1;//讀卡成功標(biāo)志     sbit fengmingqi = P1^5;    /***********全局變量************************************/       uchar data Nkey_a[4] = {0xA0, 0xA1, 0xA2, 0xA3};//初始密碼             //uchar idata card_snr[4];   //配置字     uchar data bankdata[28] = {1,2,3,4,5,6,7,1,2,3,4,5,6,7,1,2,3,4,5,6,7,1,2,3,4,5,6,7};     //存儲(chǔ)卡上用戶數(shù)據(jù)(1-7)7*4=28     uchar data cominceptbuff[6] = {1,2,3,4,5,6};//串口接收數(shù)組ram     uchar COMMAND; //第一個(gè)命令     uchar COMMAND1;//     //uint  temp;     uchar j,i;    uchar myaddr = 8;    //uchar ywqz_count,time_count;             //ywqz jishu:     uchar bdata DATA;    sbit BIT0 = DATA^0;    sbit BIT1 = DATA^1;    sbit BIT2 = DATA^2;    sbit BIT3 = DATA^3;    sbit BIT4 = DATA^4;    sbit BIT5 = DATA^5;    sbit BIT6 = DATA^6;    sbit BIT7 = DATA^7;    uchar bdata DATA1;    sbit BIT10 = DATA1^0;    sbit BIT11 = DATA1^1;    sbit BIT12 = DATA1^2;    sbit BIT13 = DATA1^3;    sbit BIT14 = DATA1^4;    sbit BIT15 = DATA1^5;    sbit BIT16 = DATA1^6;    sbit BIT17 = DATA1^7;    bit i_CurrentLevel;//i_CurrentLevel  BIT 00H(Saves current level of OutPut pin of U2270B)     bit timer1_end;    bit read_ok = 0;    //緩存定時(shí)值,因用同一個(gè)定時(shí)器     union HLint { uint W;    struct   {    uchar H;uchar L;   }   B; };//union HLint idata a     union HLint data a;    //緩存定時(shí)值,因用同一個(gè)定時(shí)器     union HLint0 { uint W;    struct {   uchar H;   uchar L; } B; };//union HLint idata a     union HLint0 data b;    /**********************函數(shù)原型*****************/    //讀寫操作     void f_readcard(void);//全部讀出1~7 AOR喚醒     void f_writecard(uchar x);//根據(jù)命令寫不同的內(nèi)容和操作     void f_clearpassword(void);//清除密碼     void f_changepassword(void);//修改密碼     //功能子函數(shù)     void write_password(uchar data *data p);//寫初始密碼或數(shù)據(jù)     void write_block(uchar x,uchar data *data p);//不能用通用指針     void write_bit(bit x);//寫位     /*子函數(shù)區(qū)*****************************************************/    void delay_2(uint x)    //延時(shí),時(shí)間x*10us@12mhz,最小20us@12mhz     {    x--; x--;    while(x)    {      _nop_();      _nop_();      x--;    }    _nop_();//WDT_CONTR=0X3C;不能頻繁的復(fù)位     _nop_();    }    /////////////////////////////////////////////////////////////////////     void initial(void)    {    SCON = 0x50; //串口方式1,允許接收     //SCON  =0x50;     //01010000B:10位異步收發(fā),波特率可變,SM2=0不用接收到有效停止位才RI=1,     //REN=1允許接收     TMOD = 0x21; //定時(shí)器1 定時(shí)方式2(8位),定時(shí)器0 定時(shí)方式1(16位)     TCON = 0x40; //設(shè)定時(shí)器1 允許開始計(jì)時(shí)(IT1=1)     TH1 = 0xfD;  //FB 18.432MHz 9600 波特率     TL1 = 0xfD;  //fd 11.0592 9600     IE = 0X90;     //EA=ES=1     TR1 = 1;     //啟動(dòng)定時(shí)器     WDT_CONTR = 0x3c;//使能看門狗     p_U2270B_Standby = 0;//單電源     PCON = 0x00;    IP = 0x10;//uart you xian XXXPS PT1 PX1 PT0 PX0     led_light1 = 1;    led_light = 0;    p_U2270B_OutPut = 1;    }    /************************************************/    void f_readcard()//讀卡     {    EA = 0;//全關(guān),防止影響跳變的定時(shí)器計(jì)時(shí)     WDT_CONTR = 0X3C;//喂狗     p_U2270B_CFE = 1;//      delay_2(232);  //>2.5ms            /*   //   aor    用喚醒功能來防碰撞   p_U2270B_CFE = 0; delay_2(18);//start gap>150us   write_bit(1);//10=操作碼讀0頁   write_bit(0);       write_password(&bankdata[24]);//密碼block7   p_U2270B_CFE =1 ;//    delay_2(516);//編程及確認(rèn)時(shí)間5.6ms   */    WDT_CONTR = 0X3C;//喂狗     led_light = 0;    b.W = 0;    while(!(read_ok == 1))    {             //while(p_U2270B_OutPut);//等一個(gè)穩(wěn)定的低電平?超時(shí)判斷?              while(!p_U2270B_OutPut);//等待上升沿的到來同步信號(hào)檢測1       TR0 = 1;      //deng xia jiang       while(p_U2270B_OutPut);//等待下降沿       TR0 = 0;   a.B.H = TH0;   a.B.L = TL0;   TH0 = TL0 = 0;   TR0 = 1;//定時(shí)器晚啟動(dòng)10個(gè)周期       //同步頭       if((324 < a.W) && (a.W < 353)) ;//檢測同步信號(hào)1                  else     {     TR0 = 0;     TH0 = TL0 = 0;     goto read_error;    }      //等待上升沿        while(!p_U2270B_OutPut);   TR0 = 0;   a.B.H = TH0;   a.B.L = TL0;   TH0 = TL0 = 0;   TR0 = 1;//b.N1<<=8;            if(a.B.L < 195);//0.5p       else     {     TR0 = 0;     TH0 = TL0 = 0;     goto read_error;    }      //讀0~7塊的數(shù)據(jù)       for(j = 0;j < 28;j++)      {       //uchar i;                  for(i = 0;i < 16;i++)//8個(gè)位        {        //等待下降沿的到來         while(p_U2270B_OutPut);                TR0 = 0;     a.B.H = TH0;     a.B.L = TL0;     TH0 = TL0 = 0;     TR0 = 1;              if(t2_max < a.W/*)&&(a.W < t2_max)*/)//1P          {         b.W >>= 2;//先左移再賦值          b.B.L += 0xc0;                             i++;        }        else if(t1_min < a.B.L/*)&&(a.B.L < t1_max)*/)//0.5p         {         b.W >>= 1;         b.B.L += 0x80;                           }        else      {      TR0 = 0;      TH0 = TL0 = 0;      goto read_error;     }        i++;        while(!p_U2270B_OutPut);//上升                   TR0 = 0;     a.B.H = TH0;     a.B.L = TL0;     TH0 = TL0 = 0;     TR0 = 1;                      if(t2_min < a.W/*)&&(a.W < t2_max)*/)//1P          {         b.W >>= 2;         i++;        }        else if(t1_min < a.B.L/*a.W)&&(a.B.L < t1_max)*/)//0.5P         //else if(!(a.W==0))         {         b.W >>= 1;         //temp+=0x00;          //led_light1=0;led_light=1;delay_2(40000);         }        else      {      TR0 = 0;      TH0 = TL0 = 0;      goto read_error;     }        i++;       }       //取出奇位        DATA = b.B.L;       BIT13 = BIT7;    BIT12 = BIT5;    BIT11 = BIT3;    BIT10 = BIT1;       DATA = b.B.H;       BIT17 = BIT7;    BIT16 = BIT5;    BIT15 = BIT3;    BIT14 = BIT1;       bankdata[j] = DATA1;      }              read_ok = 1;//讀卡完成了     read_error:    _nop_();    }       }    /***************************************************/    void f_writecard(uchar x)//寫卡     {    p_U2270B_CFE = 1;    delay_2(232);  //>2.5ms            //psw=0 standard write     if (x == write_COMMAND0)//寫密碼:初始化密碼     {      uchar i;      uchar data *data p;      p = cominceptbuff;      p_U2270B_CFE = 0;   delay_2(31);//start gap>330us       write_bit(1);//寫操作碼1:10       write_bit(0);//寫操作碼0       write_bit(0);//寫鎖定位0       for(i = 0;i < 35;i++)      {       write_bit(1);//寫數(shù)據(jù)位1       }      p_U2270B_CFE = 1;      led_light1 = 0;   led_light = 1;   delay_2(40000);//測試使用       //write_block(cominceptbuff[4],p);       p_U2270B_CFE = 1;      bankdata[20] = cominceptbuff[0];//密碼存入       bankdata[21] = cominceptbuff[1];      bankdata[22] = cominceptbuff[2];      bankdata[23] = cominceptbuff[3];    }    else if (x == write_COMMAND1)//配置卡參數(shù):初始化     {      uchar data *data p;      p = cominceptbuff;      write_bit(1);//寫操作碼1:10       write_bit(0);//寫操作碼0       write_bit(0);//寫鎖定位0               write_block(cominceptbuff[4],p);      p_U2270B_CFE=  1;    }    //psw=1  pssword mode     else if(x == write_COMMAND2)  //密碼寫數(shù)據(jù)    {      uchar data*data p;      p = &bankdata[24];      write_bit(1);//寫操作碼1:10       write_bit(0);//寫操作碼0       write_password(p);//發(fā)口令       write_bit(0);//寫鎖定位0       p = cominceptbuff;      write_block(cominceptbuff[4],p);//寫數(shù)據(jù)            }    else if(x == write_COMMAND3)//aor    //喚醒 {      //cominceptbuff[1]操作碼10 X xxxxxB       uchar data *data p;      p = cominceptbuff;      write_bit(1);//10       write_bit(0);             write_password(p);//密碼       p_U2270B_CFE = 1;//此時(shí)數(shù)據(jù)不停的循環(huán)傳出     }    else //停止操作碼     {      write_bit(1);//11       write_bit(1);             p_U2270B_CFE = 1;         }    p_U2270B_CFE = 1;    delay_2(560);//5.6ms     }    /************************************/    void f_clearpassword()//清除密碼     {    uchar data *data p;    uchar i,x;          p = &bankdata[24];//原密碼     p_U2270B_CFE = 0; delay_2(18);//start gap>150us     //操作碼10:10xxxxxxB     write_bit(1);    write_bit(0);              for(x = 0;x < 4;x++)//發(fā)原密碼     {             DATA = *(p++);      for(i = 0;i < 8;i++)      {       write_bit(BIT0);       DATA >>= 1;      }    }    write_bit(0);//鎖定位0:0     p = &cominceptbuff[0];    write_block(0x00,p);//寫新配置參數(shù):pwd=0             //密碼無效:即清除密碼     DATA = 0x00;//停止操作碼00000000B     for(i = 0;i < 2;i++)    {    write_bit(BIT7);    DATA <<= 1;    }    p_U2270B_CFE = 1;       delay_2(560);//5.6ms     }    /*********************************/    void f_changepassword()//修改密碼            {       uchar data *data p;    uchar i,x,addr;    addr = 0x07;//block7     p = &Nkey_a[0];//原密碼     DATA = 0x80;//操作碼10:10xxxxxxB     for(i = 0;i < 2;i++)    {      write_bit(BIT7);      DATA <<= 1;    }    for(x = 0;x < 4;x++)//發(fā)原密碼     {             DATA = *(p++);      for(i = 0;i < 8;i++)      {       write_bit(BIT7);       DATA >>= 1;      }    }    write_bit(0);//鎖定位0:0     p = &cominceptbuff[0];    write_block(0x07,p);//寫新密碼     p_U2270B_CFE = 1;    bankdata[24] = cominceptbuff[0];//密碼存入     bankdata[25] = cominceptbuff[1];    bankdata[26] = cominceptbuff[2];    bankdata[27] = cominceptbuff[3];    DATA = 0x00;//停止操作碼00000000B     for(i = 0;i < 2;i++)    {      write_bit(BIT7);      DATA <<= 1;    }    p_U2270B_CFE = 1;       delay_2(560);//5.6ms     }    /***************************子函數(shù)***********************************/    void write_bit(bit x)//寫一位     {    if(x)    {      p_U2270B_CFE = 1;   delay_2(32);//448*11.0592/120=42延時(shí)448us       p_U2270B_CFE = 0;   delay_2(28);//280*11.0592/120=26寫1     }    else    {      p_U2270B_CFE = 1;   delay_2(92);//192*11.0592/120=18       p_U2270B_CFE = 0;   delay_2(28);//280*11.0592/120=26寫0     }    }    /*******************寫一個(gè)block*******************/    void write_block(uchar addr,uchar data *data p)    {    uchar i,j;        for(i = 0;i < 4;i++)//block0數(shù)據(jù)     {             DATA = *(p++);      for(j = 0;j < 8;j++)      {       write_bit(BIT0);       DATA >>= 1;      }    }    DATA = addr <<= 5;//0地址     for(i = 0;i < 3;i++)    {      write_bit(BIT7);      DATA <<= 1;    }                   }    /*************************************************/    void write_password(uchar data *data p)    {    uchar i,j;        for(i = 0;i < 4;i++)//     {             DATA = *(p++);      for(j = 0;j < 8;j++)      {       write_bit(BIT0);       DATA >>= 1;      }    }        }   /*************************************************/   void main()    {    initial();    TI = RI = 0;    ES = 1;    EA = 1;  delay_2(28);   //f_readcard();     while(1) {   f_readcard();      //讀卡   f_writecard(COMMAND1);  //寫卡    f_clearpassword();   //清除密碼     f_changepassword();    //修改密碼 } }

    標(biāo)簽: 12345

    上傳時(shí)間: 2017-10-20

    上傳用戶:my_lcs

  • SIM7600C 全網(wǎng)通4G模塊軟硬件設(shè)計(jì)技術(shù)資料包

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    標(biāo)簽: sim7600c 4g模塊

    上傳時(shí)間: 2021-11-09

    上傳用戶:

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    1. Scope ......................................................................................................................................................................... 12. DDR4 SDRAM Package Pinout and Addressing ....................................................................................................... 22.1 DDR4 SDRAM Row for X4,X8 and X16 ................................................................................................................22.2 DDR4 SDRAM Ball Pitch........................................................................................................................................22.3 DDR4 SDRAM Columns for X4,X8 and X16 ..........................................................................................................22.4 DDR4 SDRAM X4/8 Ballout using MO-207......................................................................................................... 22.5 DDR4 SDRAM X16 Ballout using MO-207.............................................................................................................32.6 Pinout Description ..................................................................................................................................................52.7 DDR4 SDRAM Addressing.....................................................................................................................................73. Functional Description ...............................................................................................................................................83.1 Simplified State Diagram ....................................................................................................................................83.2 Basic Functionality..................................................................................................................................................93.3 RESET and Initialization Procedure .....................................................................................................................103.3.1 Power-up Initialization Sequence .............................................................................................................103.3.2 Reset Initialization with Stable Power ......................................................................................................113.4 Register Definition ................................................................................................................................................123.4.1 Programming the mode registers .............................................................................................................123.5 Mode Register ......................................................................................................................................................134. DDR4 SDRAM COMMAND Description and Operation ............................................................................................. 244.1 COMMAND Truth Table ..........................................................................................................................................244.2 CKE Truth Table ...................................................................................................................................................254.3 Burst Length, Type and Order ..............................................................................................................................264.3.1 BL8 Burst order with CRC Enabled .........................................................................................................264.4 DLL-off Mode & DLL on/off Switching procedure ................................................................................................274.4.1 DLL on/off switching procedure ...............................................................................................................274.4.2 DLL “on” to DLL “off” Procedure ..............................................................................................................274.4.3 DLL “off” to DLL “on” Procedure ..............................................................................................................284.5 DLL-off Mode........................................................................................................................................................294.6 Input Clock Frequency Change ............................................................................................................................304.7 Write Leveling.......................................................................................................................................................314.7.1 DRAM setting for write leveling & DRAM termination function in that mode ............................................324.7.2 Procedure Description .............................................................................................................................334.7.3 Write Leveling Mode Exit .........................................................................................................................34

    標(biāo)簽: DDR4

    上傳時(shí)間: 2022-01-09

    上傳用戶:

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