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BIOS.c
288 lines (261 loc) · 13.5 KB
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BIOS.c
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/********************* (C) COPYRIGHT 2010 e-Design Co.,Ltd. ********************
File Name : BIOS.c
Version : DS203_SYS Ver 1.5x Author : bure
*******************************************************************************/
#include "Function.h"
#include "Config.h"
#include "Ident.h"
#include "BIOS.h"
#include "LCD.h"
#include "ASM.h"
uc8 HDW_Ver[20] = "Hardware Ver 2.60 ";
uc8 DFU_Ver[5] = "3.10";
u8 VerStr[8];
u8 Clash = 0;
const G_attr G_ATTR[1] =//LCD_X;LCD_Y;Yp_Max;Xp_Max;Tg_Num;Yv_Max;Xt_Max
{ 400, 240, 8-1, 22-1, 15, 200, 4096,
//Co_Max;Ya_Num;Yd_Num;INSERT;KpA1;KpA2;KpB1;KpB2
1, 1, 1, 17, 0, 1024, 0, 1024};
const Y_attr Y_ATTR[9] ={// STR KA1 KA2 KB1 KB2 SCALE
{ "50mV", 0, 1024, 0, 1024, 2000},
{ "0.1V", 0, 1024, 0, 1024, 4000},
{ "0.2V", -2, 1024, -6, 1024, 8000},
{ "0.5V", -1, 1024, -6, 1024, 20000},
{ " 1V ", 0, 1024, -6, 1024, 40000},
{ " 2V ", -2, 1024, -6, 1024, 80000},
{ " 5V ", -1, 1024, -6, 1024, 200000},
{ "!10V!", 0, 1024, -6, 1024, 400000}};
const X_attr X_ATTR[27] ={
// STR PSC ARR CCR KP SCALE
{"! 1S !", 1000-1, 2400-1, 1200, 1024, 33333333},
{"500mS", 1000-1, 1200-1, 600, 1024, 16666667},
{"200mS", 1000-1, 480-1, 240, 1024, 6666667},
{"100mS", 1000-1, 240-1, 120, 1024, 3333333},
{"!50mS!", 1000-1, 120-1, 60, 1024, 1666667},
{"!20mS!", 100-1, 480-1, 240, 1024, 666667},
{"!10mS!", 100-1, 240-1, 120, 1024, 333333},
{" 5mS ", 100-1, 120-1, 60, 1024, 166667},
{" 2mS ", 10-1, 480-1, 240, 1024, 66667},
{" 1mS ", 10-1, 240-1, 120, 1024, 33333},
{"500uS", 10-1, 120-1, 60, 1024, 16667},
{"200uS", 1-1, 480-1, 240, 1024, 6667},
{"100uS", 1-1, 240-1, 120, 1024, 3333},
{"!50uS!", 1-1, 120-1, 60, 1024, 1667},
{"!20uS!", 1-1, 48-1, 24, 1024, 667},
{"!10uS!", 1-1, 24-1, 12, 1024, 333},
{" 5uS ", 1-1, 12-1, 6, 1024, 167},
{" 2uS ", 1-1, 5-1, 3, 983, 67}, //1024*4.8/5 =983
{" 1uS ", 1-1, 3-1, 2, 819, 33}, //1024*2.4/3 =819
{"0.5uS", 1-1, 2-1, 1, 614, 17}, //1024*1.2/2 =614
{"0.2uS", 1-1, 1-1, 1, 492, 7}, //1024*0.48 =492
{"0.1uS", 1-1, 1-1, 1, 246, 3}, //1024*0.24 =246
{" 2uS+", 1-1, 10-1, 3, 983, 67}, //1024*9.6/10=983
{" 1uS+", 1-1, 5-1, 2, 983, 33}, //1024*4.8/5 =983
{".5uS+", 1-1, 3-1, 1, 819, 17}, //1024*2.4/3 =819
{".2uS+", 1-1, 2-1, 1, 983, 7}, //1024*0.96 =983
{".1uS+", 1-1, 1-1, 1, 491, 3}};//1024*0.48 =492
const T_attr T_ATTR[32] ={
// STR CHx CMD STR CHx CMD STR CHx CMD STR CHx CMD
{"<Vt", 0, 0x00},{"<Vt", 1, 0x02},{"<Vt", 2, 0x04},{"<Vt", 3, 0x06},
{">Vt", 0, 0x01},{">Vt", 1, 0x03},{">Vt", 2, 0x05},{">Vt", 3, 0x07},
{":!\\!",0, 0x08},{":!\\!",1, 0x0A},{":!\\!",2, 0x0C},{":!\\!",3, 0x0E},
{":!^!", 0, 0x09},{":!^!", 1, 0x0B},{":!^!", 2, 0x0D},{":!^!", 3, 0x0F},
{"<TL", 0, 0x10},{"<TL", 1, 0x12},{"<TL", 2, 0x14},{"<TL", 3, 0x16},
{">TL", 0, 0x11},{">TL", 1, 0x13},{">TL", 2, 0x15},{">TL", 3, 0x17},
{"<TH", 0, 0x18},{"<TH", 1, 0x1A},{"<TH", 2, 0x1C},{"<TH", 3, 0x1E},
{">TH", 0, 0x19},{">TH", 1, 0x1B},{">TH", 2, 0x1D},{">TH", 3, 0x1F}};
/*******************************************************************************
Set: 硬件控制设备设置
*******************************************************************************/
u32 Set(u8 Object, u32 Value)
{
switch (Object){
case CH_A_OFFSET: if(Value < 65536){
TIM5_ARR = 470; TIM5_CCR1 = 450 - Value; // Value = 0~200
} else {
TIM5_ARR = Value >>16; TIM5_CCR1 = Value & 0xFFFF;
} break;
case CH_B_OFFSET: if(Value < 65536){
TIM5_ARR = 470; TIM5_CCR2 = 450 - Value; // Value = 0~200
} else {
TIM5_ARR = Value >>16; TIM5_CCR2 = Value & 0xFFFF;
} break;
case BACKLIGHT: TIM8_CCR1 = Value; // Value = 0~100
break;
case BEEP_VOLUME: TIM8_CCR2 = 100 - Value/2; // Value = 0~50
break;
case BETTERY_DT: ADC3_CR2 |= (Value & 1)<<22; // Value = 1/0 ADC3_CR2 |=0x00400000;
break;
case ADC_MODE: if(Value == SEPARATE) FIFO_MODE_LOW();
else FIFO_MODE_HIGH(); break;
case FIFO_CLR: if(Value == W_PTR){FIFO_CLRW_HIGH(); FIFO_CLRW_LOW();}
if(Value == R_PTR){FIFO_CLRR_HIGH(); FIFO_CLRR_LOW();} break;
case T_BASE_PSC: TIM1_PSC = Value;
break;
case T_BASE_ARR: if(Value==0) {TIM1_CCER=0; RCC_CFGR=0x041D8402;} // MCO as SYSCLK
else if(Value==1) {TIM1_CCER=0; RCC_CFGR=0x071D8402;} // MCO as SYSCLK/2
else {RCC_CFGR=0x001D8402; TIM1_CCER=0x0003; // MCO as OC1
TIM1_ARR=Value; TIM1_CCR1=(Value+1)/2;}
break;
case CH_A_COUPLE: if(Value == AC ) AC_1(); else DC_1();
break;
case CH_B_COUPLE: if(Value == AC ) AC_2(); else DC_2();
break;
case CH_A_RANGE:
switch (Value){
case _50MV: Ax0_ON(); Ax1_ON(); Ax2_HIGH(); Ax5_HIGH();
break;
case _100MV: Ax0_ON(); Ax1_ON(); Ax2_LOW(); Ax5_HIGH();
break;
case _200MV: Ax0_ON(); Ax1_ON(); Ax2_HIGH(); Ax5_LOW();
break;
case _500MV: Ax0_ON(); Ax1_ON(); Ax2_LOW(); Ax5_LOW();
break;
case _1V: Ax0_OFF(); Ax1_OFF(); Ax2_HIGH(); Ax5_HIGH();
break;
case _2V: Ax0_OFF(); Ax1_OFF(); Ax2_LOW(); Ax5_HIGH();
break;
case _5V: Ax0_OFF(); Ax1_OFF(); Ax2_HIGH(); Ax5_LOW();
break;
case _10V: Ax0_OFF(); Ax1_OFF(); Ax2_LOW(); Ax5_LOW();
break;
case CH_B: Ax0_ON(); Ax1_OFF(); Ax2_LOW(); Ax5_LOW();
break;
} break;
case CH_B_RANGE:
switch (Value){
case _50MV: Bx0_ON(); Bx1_ON(); Bx2_HIGH(); Bx5_HIGH();
break;
case _100MV: Bx0_ON(); Bx1_ON(); Bx2_LOW(); Bx5_HIGH();
break;
case _200MV: Bx0_ON(); Bx1_ON(); Bx2_HIGH(); Bx5_LOW();
break;
case _500MV: Bx0_ON(); Bx1_ON(); Bx2_LOW(); Bx5_LOW();
break;
case _1V: Bx0_OFF(); Bx1_OFF(); Bx2_HIGH(); Bx5_HIGH();
break;
case _2V: Bx0_OFF(); Bx1_OFF(); Bx2_LOW(); Bx5_HIGH();
break;
case _5V: Bx0_OFF(); Bx1_OFF(); Bx2_HIGH(); Bx5_LOW();
break;
case _10V: Bx0_OFF(); Bx1_OFF(); Bx2_LOW(); Bx5_LOW();
break;
case CH_A: Bx0_ON(); Bx1_OFF(); Bx2_LOW(); Bx5_LOW();
break;
} break;
case ANALOG_ARR: GPIOB_CRL = 0x34BBB438; TIM4_CR1 = 0x0080; // SQR_OUT = Disnable
GPIOA_CRL = 0x111011BB; DAC_CR = 0x0001; // DAC = Ensable
TIM7_ARR = Value; TIM7_CR1 = 0x0085; break;// DAC_CLK = Enable
case ANALOG_PTR: DMA2_CMAR4 = Value;
break;
case ANALOG_CNT: DMA2_CNDTR4 = Value; // Fout = (Cnt*(ARR+1)/72)KHz
break;
case DIGTAL_PSC: TIM4_PSC = Value; GPIOA_CRL |= 0x40000; // DAC_OUT = Disnable
TIM7_CR1 = 0x0084; DAC_CR = 0; break; // DAC = Disnable
case DIGTAL_ARR: TIM4_ARR = Value;
break;
case DIGTAL_CCR: GPIOB_CRL &= 0xF0FFFFFF; GPIOB_CRL |= 0x0B000000; // PORT_SQR = Enable
TIM4_CCR1 = Value; TIM4_CR1 = 0x0081; break; // SQR_OUT = Enable
case KEY_IF_RST: TIM3_SR = 0; //Clear TIM3 interrupt flag
break;
case STANDBY: if(Value == 1) { STB_EN();} else { STB_DN();}
break;
case FPGA_RST: GPIOB_CRH &= 0xF0FFFFFF; GPIOB_CRH |= 0x01000000; // 设PB14为输出状态
SPI_CRST_LOW(); Delayms(1); // SPI_CRST_LOW 1mS
SPI_SS_HIGH(); Delayms(1); // SPI_SS_HIGH 1mS
SPI_SS_LOW(); Delayms(1); // SPI_SS_LOW 1mS
SPI_CRST_HIGH(); Delayms(2); // SPI_CRST_HIGH 2mS
GPIOB_CRH &= 0xF0FFFFFF; GPIOB_CRH |= 0x08000000; break; // 设PB14为输入状态
case TRIGG_MODE: Set_Param(Object, Value);
break;
case V_THRESHOLD: Set_Param(Object, Value);
break;
case T_THRESHOLD: Set_Param(Object, Value & 0xFF);
Set_Param(Object +1, Value >> 8); break;
case ADC_CTRL: Set_Param(Object, Value);
break;
case A_POSITION: Set_Param(Object, Value);
break;
case B_POSITION: Set_Param(Object, Value);
break;
case REG_ADDR: Set_Param(Object, Value);
break;
}
return 0;
}
/*******************************************************************************
SendByte: Send a byte to FPGA
*******************************************************************************/
void SendByte(u8 Data)
{
u8 i;
FIFO_SCK_HIGH();
for(i=0; i<8; ++i){
if((Data<<i) & 0x80) FIFO_SDA_HIGH();
else FIFO_SDA_LOW();
FIFO_SCK_LOW();
FIFO_SCK_HIGH();
}
FIFO_SDA_LOW();
FIFO_SCK_LOW();
FIFO_SDA_HIGH(); // Send data to buffer
}
/*******************************************************************************
Set_Param: Trigger control Parameter Set
*******************************************************************************/
void Set_Param(u8 RegAddr, u8 Parameter)
{
RegAddr &= 0x1F;
FIFO_H_L_HIGH();
SendByte(RegAddr);
FIFO_H_L_LOW();
SendByte(Parameter);
}
/*******************************************************************************
Get: Get hardware attribute & status
*******************************************************************************/
u32 Get(u8 Object, u32 Value)
{
u16 Data;
u8* Ver;
switch (Object){
case FIFO_DIGIT: FIFO_H_L_LOW(); return (*(vu16 *)0x64000000); // 16bits FIFO Digital data
case FIFO_START: FIFO_H_L_LOW(); return ((*(vu16 *)0x64000000)& 0x04)>> 2; // Start = Bit2
case FIFO_EMPTY: FIFO_H_L_LOW(); return ((*(vu16 *)0x64000000)& 0x10)>> 4; // Empty = Bit4
case FIFO_FULL: FIFO_H_L_LOW(); return ((*(vu16 *)0x64000000)& 0x08)>> 3; // Full = Bit3
case KEY_STATUS: Data =(GPIOA_IDR & 0x4000); Data |=(GPIOC_IDR & 0x0400)<<3; // K1, K2
Data |=(GPIOC_IDR & 0x0200)>>1; Data |=(GPIOC_IDR & 0x0100)<<1; // K3, K4
Data |=(GPIOA_IDR & 0x2000)>>3; Data |=(GPIOC_IDR & 0x1000)>>1; // K5, K6
Data |=(GPIOC_IDR & 0x0800)<<1; Data |=(GPIOA_IDR & 0x8000); // K7, K8
Data |=(GPIOD_IDR & 0x0008); Data |=(GPIOD_IDR & 0x0040); // K9, K10
return Data; // Current keys status
case USB_POWER: return USB_PWR_ON; // USB power on = 1
case V_BATTERY: return (ADC3_DR*1400)/1024; // Battery voltage (mV)
case VERTICAL: return (u32)Y_ATTR; // 垂直通道属性指针
case HORIZONTAL: return (u32)X_ATTR; // 水平通道属性指针
case GLOBAL: return (u32)G_ATTR; // 整体属性指针
case TRIGGER: return (u32)T_ATTR; // 触发通道属性指针
case FPGA_OK: return FPGA_CFG_OK; // FPGA config ok = 1
case CHARGE: return CHRG_ST; // Battery charge = 1
case DFUVER: Ver = __Chk_DFU(); // DFU固件版本信息
if(Ver == 0) Ver = (u8*)DFU_Ver;
if(Value == 0) return (u32)Ver;
else return (Ver[0]-'0')*100 +(Ver[2]-'0')*10 +(Ver[3]-'0');
case HDWVER: Ver = __Chk_HDW(); // 设备硬件版本信息
if(Ver == 0) Ver = (u8*)(HDW_Ver + 13);
if(Value == 0) return (u32)Ver;
else return (Ver[0]-'0')*100 +(Ver[2]-'0')*10 +(Ver[3]-'0');
case SYSVER: Ver = (u8*)SYS_Ver; // SYS程序模块版本信息
if(Value == 0) return (u32)Ver;
else return (Ver[0]-'0')*100 +(Ver[2]-'0')*10 +(Ver[3]-'0');
case FPGAVER: FIFO_H_L_LOW();
Data = (*(vu16 *)0x64000000)>> 6; // FPGA配置程序版本信息
u16ToDec5(VerStr, Data);
VerStr[0]=VerStr[2]; VerStr[1]='.'; VerStr[2]=VerStr[3];
VerStr[3]=VerStr[4]; VerStr[4]= 0;
if(Value == 0) return (u32)(VerStr);
else return Data;
}
return 0; // No used
}
/********************************* END OF FILE ********************************/