?? spt6608.inc
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//============================================================================*/
// Register address definitions */
//============================================================================*/
//-------------------------------------*/
// Port A, B, C, D, E, F */
//-------------------------------------*/
.const P_IOA_Data =0x7000; //R/W, portA data
// IOA0~IOA7 can be set as input or output pin by pin.
// Input mode - IOA0~IOA7 provide pull-high resistosrs
// IOA6 & IOA7 provide pull-low resistors
// Output mode - CMOS output
// Wake-up - IOA0~IOA7 all provide wake-up function
.const P_IOA_Buf =0x7001; //R, port A output latch
.const P_IOA_Dir =0x7002; //R/W, portA direction, 0/1 = I/O
.const P_IOA_PullR =0x7003; //R/W, portA pull-highs & pull-lows
// b15~b8 = 1 to enable pull-high of IOA7~IOA0
// b7~b6 = 1 to enable pull-low of IOA7~IOA6
.const P_IOA_Latch =0x7004; //R, latch IO for wakeup
//---------------------------------
.const P_IOB_Data =0x7005; //R/W, portB data
// IOB0~IOB7 can be set as input or output pin by pin.
// Input mode - CMOS input (without pulled reisitors)
// Output mode - IOB0~IOB5 are CMOS outputs
// IOB6 & IOB7 are NMOS open-drain
// Wake-up - no wake-up function
.const P_IOB_Buf =0x7006; //R, portB output latch
.const P_IOB_Dir =0x7007; //R/W, portB direction, 0/1 = I/O
//---------------------------------
.const P_IOC_Data =0x7008; //R/W, portC data
// IOC0~IOC7 can be set as input or output pin by pin.
// Input mode - CMOS input (without pulled reisitors)
// Output mode - IOC0~IOC4 are CMOS outputs
// IOC5 & IOC7 are NMOS open-drain
// Wake-up - IOC0 & IOC1 provide wake-up function
.const P_IOC_Buf =0x7009; //R, portC output latch
.const P_IOC_Dir =0x700A; //R/W, portC direction
//---------------------------------
.const P_IOD_Data =0x700B; //R/W, portD data
// IOD0~7 can be set as input or output pin by pin.
// Input mode - CMOS input (without pulled reisitors)
// Output mode - IOD0~IOD7 are CMOS outputs
// Wake-up - no wake-up function
.const P_IOD_Buf =0x700C; //R, portD output latch
.const P_IOD_Dir =0x700D; //R/W, portD direction, 0/1 = I/O
//---------------------------------
.const P_IOE_Data =0x7050; //R/W, portA data
// IOE0~IOE7 can be set as input or output pin by pin.
// Input mode - IOE0~IOE7 provide pull-high resistosrs
// IOE6 & IOE7 provide pull-low resistors
// Output mode - CMOS output
// Wake-up - IOE0~IOE7 all provide wake-up function
.const P_IOE_Buf =0x7051; //R, port E output latch
.const P_IOE_Dir =0x7052; //R/W, portE direction, 0/1 = I/O
.const P_IOE_PullR =0x7053; //R/W, portE pull-highs & pull-lows
// b15~b8 = 1 to enable pull-high of IOE7~IOE0
// b7~b6 = 1 to enable pull-low of IOE7~IOE6
.const P_IOE_Latch =0x7054; //R, latch IO for wakeup
//---------------------------------
.const P_IOCD_Ctrl =0x700E;
// b0,b1, 00 - C0 provide interrupt/wake-up at falling edge
// 01 - C0 provide interrupt/wake-up at rising edge
// 1x - C0 provide interrupt/wake-up at both edges
// b3~b2, 00 - C1 provide interrupt/wake-up at falling edge
// 01 - C1 provide interrupt/wake-up at rising edge
// 1x - C1 provide interrupt/wake-up at both edgex
// b4, 0 - tone output (IOD1) comes from timer A overflow
// 1 - tone output (IOD1) comes from timer B overflow
// b5, 0 - IOD1 is normal I/O
// 1 - IOD1 is tone-output
//-------------------------------*/
// Interrupt & Wake-Up */
//-------------------------------*/
.const P_Int =0x7010; // write 0/1 - disable/enable interrupt
// read 0/1 - interrupt is disabled/enabled
.const P_IntClr =0x7011; // write 1 - clear happened interrupt flag
// read 1 - interrupt is happened
.const P_WakeUp =0x7012; // write 0/1 - disable/enable wake-up
// read 0/1 - wake-up is disabled/enabled
.const P_WakeUpClr =0x7013; // write 1 - clear happened wake-up flag
// read 1 - wake-up is happened
.const B_Irq0 =0x0001; // vector = FFF8
.const B_RiInt =0x0001;
.const B_Irq1 =0x0002; // vector = FFF9
.const B_IoaInt =0x0002;
.const B_Irq2 =0x0004; // vector = FFFA
.const B_TmrAInt =0x0004;
.const B_Irq3 =0x0008; // vector = FFFB
.const B_TmrBInt =0x0008;
.const B_Irq4 =0x0010; // vector = FFFC
.const B_T32KHzInt =0x0010;
.const B_8KHzInt =0x0010;
.const B_Irq5 =0x0020; // vector = FFFD
.const B_T2KHzInt =0x0020;
.const B_1KHzInt =0x0020;
.const B_512HzInt =0x0020;
.const B_Irq6 =0x0040; // vector = FFFE
.const B_T128HzInt =0x0040;
.const B_T8HzInt =0x0080; // vector = FFFF
.const B_2HzInt =0x0080;
.const B_Ioc0Int =0x0100; // vector = FFF6
.const B_Ioc1Int =0x0200; // vector = FFF8
.const B_LineInt =0x0400; // vector = FFF8
.const B_URATInt =0x0800; // vector = FFF6
.const B_IrDAInt =0x0800; // vector = FFF6
//-------------------------------*/
.const P_IoaWakeUp =0x7014; // R/W, b7~b0=1 to enable IOA7~0 wake-up
.const P_IoeWakeUp =0x7055; // R/W, b7~b0=1 to enable IOE7~0 wake-up
//-------------------------------*/
// System Clock */
//-------------------------------*/
.const P_SystemClock =0x7015;
// b2~b0: CPU Operating Clock Select
// 000 - Fosc
// 001 - Fosc/2
// 010 - Fosc/4
// 011 - Fosc/8 (default)
// 100 - Fosc/8
// 101 - Fosc/8
// 110 - Fosc/8
// 111 - Stop/Sleep
// b7: 0 - Fosc= Low-Speed Mode
// 1 - Fosc= High-Speed Mode
.const B_FoscDivBy1 =0x0000;
.const B_FoscDivBy2 =0x0001;
.const B_FoscDivBy4 =0x0002;
.const B_FoscDivBy8 =0x0003;
.const B_Sleep =0x0007;
.const B_NormalCpuClock =B_FoscDivBy4;
.const B_10M =0x0080;
.const P_Watchdog_Clr =0x7016; // period = 2sec
// write 16-bit (0x55AA) value to reset watch dog
//-------------------------------*/
// Time Base */
//-------------------------------*/
.const P_TimeBaseSet =0x7018;
// b15: enable 32768
// b14: weak/strong mode
// b7~b6: T32KHzS
// 00 - 4KHz
// 01 - 8KHz
// 10 - 16KHz
// 11 - 32KHz
// b5~b4: T2KHz
// 00 - 256Hz
// 01 - 512Hz
// 10 - 1KHz
// 11 - 2KHz
// b3~b2: T128HzS
// 00 - 16Hz
// 01 - 32Hz
// 10 - 64Hz
// 11 - 128Hz
// b1~b0: T8HzS
// 00 - 1Hz
// 01 - 2Hz
// 10 - 4Hz
// 11 - 8Hz
// Time Base, generated by 32768Hz, is a combination of frequency selection
// for timers and interrupt.
.const B_Enable32768 =0x8000;
.const B_Strong32768 =0x4000; // After powering on, set 32768 at strong mode
.const B_1Hz =0x0000;
.const B_2Hz =0x0001;
.const B_4Hz =0x0002;
.const B_8Hz =0x0003;
.const B_16Hz =0x0000;
.const B_32Hz =0x0004;
.const B_64Hz =0x0008;
.const B_128Hz =0x000C;
.const B_256Hz =0x0000;
.const B_512Hz =0x0010;
.const B_1KHz =0x0020;
.const B_2KHz =0x0030;
.const B_4KHz =0x0000;
.const B_8KHz =0x0040;
.const B_16KHz =0x0080;
.const B_32KHz =0x00C0;
//-------------------------------*/
// Timer A & B */
//-------------------------------*/
// Writing a value of N to P_TimerA_Data or P_TimerB_Data and selecting an
// appropriate clock sources, the timer will count up from N, N+1, N+2, ....
// ,FFFE, FFFF. After the timer reaches 'FFFF', and INT signal is generated
// and is sent to INT controller for processing. At the same time, N will be
// reloaded into timer and count up again.
.const P_Tmr_Ctrl =0x701A;
// b15: TMA_En
// 0 - disable 吵 111 - T8Hz (1Hz,2Hz,4Hz,8Hz)
// 1 - enable 趁驢 (P_TimeBaseSet, 0x7018)
// b14: TMA_Ctrl
// 0 - TMA_Sel
// 1 - source1,2
// b13: TMA_Sel
// 0 - Fosc
// 1 - Timer B Overflow
// b12~b10: Source 1 of Timer A
// 000 - External Clock (IOD1)
// 001 - 0Hz (VDD)
// 010 - Fosc/2
// 011 - Fosc/4
// 100 - Fosc/8
// 101 - 32768
// 110 - T32KHz (4KHz,8KHz,16KHz,32KHz)
// 111 - T2KHz (256Hz,512Hz,1KHz,2KHz)
// b9~b8: Source 2 of Timer A
// 00 - External Clock (IOD0)
// 01 - 0Hz (VDD)
// 10 - T128Hz (16Hz,32Hz,64Hz,128Hz)
// 11 - T8Hz (1Hz,2Hz,4Hz,8Hz)
// b7: TMB_En
// 0 - disable 吵 111 - T8Hz (1Hz,2Hz,4Hz,8Hz)
// 1 - enable 趁驢 (P_TimeBaseSet, 0x7018)
// b6~b4: Source of Timer B
// 000 - Fosc
// 001 - Fosc/2
// 010 - Fosc/4
// 010 - 32768
// 100 - T32KHz (4KHz,8KHz,16KHz,32KHz)
// 101 - T2KHz (256Hz,512Hz,1KHz,2KHz)
.const P_TmrA_Data =0x701B; // R/W, up-counter
.const P_TmrA_Load =0x701C; // W, write any value to load data to timer A
.const P_TmrB_Data =0x701E; // R/W, up-counter
.const P_TmrB_Load =0x701F; // W, write any value to load data to timer B
//-------------------------------*/
// Low Voltage Detect */
//-------------------------------*/
//.const P_BatDet =0x7021;
// b2~b0: adjust low-battery threshold
// b5: Detection result
// 0 - voltage is lower than threshold
// 1 - voltage is higher than threshold
// b7: Low-Battery detector enable
// 0/1- disable/enable battery detect. 50us is a must to get detect result !!!
//-------------------------------*/
// DTMF & Tone Generator */
//-------------------------------*/
.const P_DtmfTone =0x7022;
.const B_DtmfColEn =0x0080;
.const B_Tone1En =0x0040;
.const B_DtmfRowEn =0x0008;
.const B_Tone0En =0x0004;
.const B_DacEn =0x0100;
.const B_OutputSelDACO =0x0200;
.const P_Ch0Envelope =0x7023;
// b15~b8 :envelope output
.const P_Ch1Envelope =0x7024;
// b15~b8 :envelope output
.const P_DAC =0x7029
// b15~b8 :envelope output
//-------------------------------*/
// A/D & AGC */
//-------------------------------*/
.const P_AgcCtrl =0x7025;
.const B_AdcQuickCharge =0x0080;
.const P_AFECtrl =0x7026;
.const B_EnLine =0x0080;
.const B_EnMic =0x0020;
.const B_EnADIN4 =0x0008;
.const B_EnADIN3 =0x0004;
.const B_EnDAC =0x0001;
.const B_MicQuickCharge=0x0010;
.const P_Adc =0x7027; // (R) 10-bit ADC (b15~b6)
// b0 : AD Source Input
// 1 - Sampled data is from telephone Line
// 0 - Sampled data is from mic line
.const B_Source =0x0001;
.const P_RiDet =0x7028; // (R/W)
.const B_RiDet =0x0040;
.const B_EnRiDet =0x0080;
//-----------------------------------------------------------------------------//
//Line Control
//Procedure : 1. Enable Line det.
// 2. Latch line status
// 3. Enable wakeup/int
// 4. Set wakeup/int sources
// 5. Sleep....
//-----------------------------------------------------------------------------//
.const P_LineDetCtrl = 0x702E; //(R/W)
.const B_CMPOut = 0x0001; //
.const B_En_WPINT = 0x0040; //
.const B_En_Det = 0x0080; //
.const P_LatchLine = 0x702E; //
//-------------------------------------*/
// SPLC501 Interference */
//-------------------------------------*/
.const P_Lcd501Ctrl =0x7040;
.const P_Lcd501Data =0x7041;
.const P_Lcd501BdySel =0x7042;
//-------------------------------------*/
// SPR1024 Interference */
//-------------------------------------*/
.const P_SerialData = 0x7030;
.const P_SerialAddr1 = 0x7031; //M7~M0
.const P_SerialAddr2 = 0x7032; //M15~M8
.const P_SerialAddr3 = 0x7033; //M23~M16
.const P_SerialCtrl = 0x7034;
.const B_EnableSI = 0x0080; //Enable serial SRAM interface
.const B_RWFrame = 0x0040; //0:read ; 1:write
.const B_SendFrame = 0x0020;
.const B_CLK_8 = 0x0000; //Clock/8
.const B_CLK_2 = 0x0008; //Clock/2
.const B_CLK_4 = 0x0010; //Clock/4
.const B_CLK_16 = 0x0018; //Clock/16
.const P_SerialStart =0x7035;
.const B_Busy = 0x0080; //read mode
.const P_SerialStop =0x7036;
//-----------------------------------------------------------------------------//
// UART/IrDA Interface
//-----------------------------------------------------------------------------//
.const P_IrDACmd1 = 0x7046;
.const B_RLAT1 = 0x0010;
.const B_RLAT0 = 0x0008;
.const B_POLT = 0x0004;
.const B_POLR = 0x0002;
.const B_IrDAEn = 0x0001;
.const P_IrDACmd2 = 0x7047;
.const P_UARTCmd1 = 0x7049;
.const B_RxIntEn = 0x0080;
.const B_TxIntEn = 0x0040;
.const B_I_Reset = 0x0020;
.const B_Parity = 0x0008;
.const B_P_Check = 0x0004;
.const B_SCLK1 = 0x0002;
.const B_SCLK0 = 0x0001;
.const P_UARTCmd2 = 0x704A;
//read mode
.const B_RxRdy = 0x0080;
.const B_TxRdy = 0x0040;
.const B_FE = 0x0020;
.const B_OE = 0x0010;
.const B_PE = 0x0008;
.const B_AcRdy = 0x0001;
//write mode
.const B_RxPinEn = 0x0080;
.const B_TxPinEn = 0x0040;
.const P_UARTData = 0x704B;
.const P_UARTBR_Low = 0x704C;
.const P_UARTBR_High = 0x704D;
.const P_UARTABR_Low = 0x704E;
.const P_UARTABR_High = 0x704F;
.const P_SEL_IR_UART_CLK = 0x7057;
.const B_SEL_IR_UART_CLK = 0x0080;?? 快捷鍵說明
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