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using System;
using System.Text;
using System.Linq;
using System.Drawing;
using System.Diagnostics;
using System.Windows.Forms;
using System.Threading;
using System.Threading.Tasks;
using System.Collections.Generic;
using Tango.PMR.Stubs;
using Tango.Stubs;
const Int32 F2_ANALOG_DYEINGH_TEMP1_1_TX_00 = 0x200 ;
const Int32 F2_ANALOG_DYEINGH_TEMP1_1_TX_01 = 0x202 ;
const Int32 F2_ANALOG_DYEINGH_TEMP1_1_RX_00 = 0x204 ;
const Int32 F2_ANALOG_DYEINGH_TEMP1_1_RX_01 = 0x206 ;
const Int32 F2_ANALOG_DYEINGH_TEMP1_1_AMT_OF_WORDS = 0x208 ;
const Int32 F2_AN_ENCLOSURETEMP1_1_TX_00 = 0x210 ;
const Int32 F2_AN_ENCLOSURETEMP1_1_TX_01 = 0x212 ;
const Int32 F2_AN_ENCLOSURETEMP1_1_RX_00 = 0x214 ;
const Int32 F2_AN_ENCLOSURETEMP1_1_RX_01 = 0x216 ;
const Int32 F2_AN_ENCLOSURETEMP1_1_AMT_OF_WORDS = 0x218 ;
const Int32 F2_ANALOG_DYEINGH_TEMP2_1_TX_00 = 0x220 ;
const Int32 F2_ANALOG_DYEINGH_TEMP2_1_TX_01 = 0x222 ;
const Int32 F2_ANALOG_DYEINGH_TEMP2_1_RX_00 = 0x224 ;
const Int32 F2_ANALOG_DYEINGH_TEMP2_1_RX_01 = 0x226 ;
const Int32 F2_ANALOG_DYEINGH_TEMP2_1_AMT_OF_WORDS = 0x228 ;
const Int32 F2_AN_ENCLOSURETEMP2_1_TX_00 = 0x230 ;
const Int32 F2_AN_ENCLOSURETEMP2_1_TX_01 = 0x232 ;
const Int32 F2_AN_ENCLOSURETEMP2_1_RX_00 = 0x234 ;
const Int32 F2_AN_ENCLOSURETEMP2_1_RX_01 = 0x236 ;
const Int32 F2_AN_ENCLOSURETEMP2_1_AMT_OF_WORDS = 0x238 ;
const Int32 F2_ANALOG_DYEINGH_TEMP3_1_TX_00 = 0x240 ;
const Int32 F2_ANALOG_DYEINGH_TEMP3_1_TX_01 = 0x242 ;
const Int32 F2_ANALOG_DYEINGH_TEMP3_1_RX_00 = 0x244 ;
const Int32 F2_ANALOG_DYEINGH_TEMP3_1_RX_01 = 0x246 ;
const Int32 F2_ANALOG_DYEINGH_TEMP3_1_AMT_OF_WORDS = 0x248 ;
const Int32 F2_AN_ENCLOSURETEMP3_1_TX_00 = 0x250 ;
const Int32 F2_AN_ENCLOSURETEMP3_1_TX_01 = 0x252 ;
const Int32 F2_AN_ENCLOSURETEMP3_1_RX_00 = 0x254 ;
const Int32 F2_AN_ENCLOSURETEMP3_1_RX_01 = 0x256 ;
const Int32 F2_AN_ENCLOSURETEMP3_1_AMT_OF_WORDS = 0x258 ;
const Int32 F2_ANALOG_DYEINGH_TEMP4_1_TX_00 = 0x260 ;
const Int32 F2_ANALOG_DYEINGH_TEMP4_1_TX_01 = 0x262 ;
const Int32 F2_ANALOG_DYEINGH_TEMP4_1_RX_00 = 0x264 ;
const Int32 F2_ANALOG_DYEINGH_TEMP4_1_RX_01 = 0x266 ;
const Int32 F2_ANALOG_DYEINGH_TEMP4_1_AMT_OF_WORDS = 0x268 ;
const Int32 F2_ANALOG_DRYER_TEMP1_1_TX_00 = 0x270 ;
const Int32 F2_ANALOG_DRYER_TEMP1_1_TX_01 = 0x272 ;
const Int32 F2_ANALOG_DRYER_TEMP1_1_RX_00 = 0x274 ;
const Int32 F2_ANALOG_DRYER_TEMP1_1_RX_01 = 0x276 ;
const Int32 F2_ANALOG_DRYER_TEMP1_1_AMT_OF_WORDS = 0x278 ;
const Int32 F2_ANALOG_DYEINGH_TEMP5_1_TX_00 = 0x280 ;
const Int32 F2_ANALOG_DYEINGH_TEMP5_1_TX_01 = 0x282 ;
const Int32 F2_ANALOG_DYEINGH_TEMP5_1_RX_00 = 0x284 ;
const Int32 F2_ANALOG_DYEINGH_TEMP5_1_RX_01 = 0x286 ;
const Int32 F2_ANALOG_DYEINGH_TEMP5_1_AMT_OF_WORDS = 0x288 ;
const Int32 F2_ANALOG_DRYER_TEMP2_1_TX_00 = 0x290 ;
const Int32 F2_ANALOG_DRYER_TEMP2_1_TX_01 = 0x292 ;
const Int32 F2_ANALOG_DRYER_TEMP2_1_RX_00 = 0x294 ;
const Int32 F2_ANALOG_DRYER_TEMP2_1_RX_01 = 0x296 ;
const Int32 F2_ANALOG_DRYER_TEMP2_1_AMT_OF_WORDS = 0x298 ;
const Int32 F2_ANALOG_MIXCHIP_TEMP_1_TX_00 = 0x2A0 ;
const Int32 F2_ANALOG_MIXCHIP_TEMP_1_TX_01 = 0x2A2 ;
const Int32 F2_ANALOG_MIXCHIP_TEMP_1_RX_00 = 0x2A4 ;
const Int32 F2_ANALOG_MIXCHIP_TEMP_1_RX_01 = 0x2A6 ;
const Int32 F2_ANALOG_MIXCHIP_TEMP_1_AMT_OF_WORDS = 0x2A8 ;
const Int32 F2_ANALOG_DRYER_TEMP3_1_TX_00 = 0x2B0 ;
const Int32 F2_ANALOG_DRYER_TEMP3_1_TX_01 = 0x2B2 ;
const Int32 F2_ANALOG_DRYER_TEMP3_1_RX_00 = 0x2B4 ;
const Int32 F2_ANALOG_DRYER_TEMP3_1_RX_01 = 0x2B6 ;
const Int32 F2_ANALOG_DRYER_TEMP3_1_AMT_OF_WORDS = 0x2B8 ;
const Int32 F2_SPI_Busy1_Direct = 0x090; // Reads the direct values that are currently being sent to the fpga. spi_busy15 spi_busy14 spi_busy13 spi_busy12 F2_AN_ENCLOSURETEMP3_1_BUSY F2_AN_ENCLOSURETEMP2_1_BUSY F2_AN_ENCLOSURETEMP1_1_BUSY F2_ANALOG_MIXCHIP_TEMP_1_BUSY F2_ANALOG_DYEINGH_TEMP5_1_BUSY F2_ANALOG_DYEINGH_TEMP4_1_BUSY F2_ANALOG_DYEINGH_TEMP3_1_BUSY F2_ANALOG_DYEINGH_TEMP2_1_BUSY F2_ANALOG_DYEINGH_TEMP1_1_BUSY F2_ANALOG_DRYER_TEMP3_1_BUSY F2_ANALOG_DRYER_TEMP2_1_BUSY F2_ANALOG_DRYER_TEMP1_1_BUSY
const Int32 F2_Prescaler1_reg3 = 0x3e4; // Parameter for prescaler divisions - 3bit spi temp low duty cycle value for pmw rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv parambit2 parambit1 parambit0
const Int32 F2_Prescaler1_reg4 = 0x3e6; // Parameter for prescaler divisions - 3bit spi temp high duty cycle value for pmw rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv rsv parambit2 parambit1 parambit0
const Int32 ADS1220_RESET = 0x06 ; // RESET Reset the device 0000 011x
const Int32 ADS1220_START_SYNC = 0x08 ; // START/SYNC Start or restart conversions 0000 100x
const Int32 ADS1220_POWERDOWN = 0x02 ; // POWERDOWN Enter power-down mode 0000 001x
const Int32 ADS1220_RDATA = 0x10 ; // RDATA Read data by command 0001 xxxx
const Int32 ADS1220_RREG = 0x20 ; // RREG Read nn registers starting at address rr 0010 rrnn
const Int32 ADS1220_WREG = 0x40 ; // WREG Write nn registers starting at address rr 0010 rrnn
int ADS1220_Reset(Int32 Fpga, Int32 HighAdr, Int32 LowAdr)
{
//Amount of words = 1
Fpga_Write_Reg(Fpga, HighAdr+6, 0x1, 0);
Fpga_Write_Reg(Fpga, HighAdr, (ADS1220_RESET ) << 8, 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
return 1;
}
Int32 ADS1220_LoadOutReg(Int32 Fpga, Int32 HighAdr, Int32 LowAdr, Int32 BusyBitNo)
{
int tmp3 = 0;
Int32 temp = 0;
//Amount of words = 4
Fpga_Write_Reg(Fpga, HighAdr+6, 0x4, 0);
Fpga_Write_Reg(Fpga, HighAdr, (ADS1220_RDATA ) << 8, 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
tmp3 = (int) GetBit(Fpga, F2_SPI_Busy1_Direct, BusyBitNo);
while ( tmp3 == 1)
{
tmp3 = (int) GetBit(Fpga, F2_SPI_Busy1_Direct, BusyBitNo);
stubManager.Write("\n\nBUSY");
}
var RV_High = Fpga_Read_Reg(Fpga, HighAdr+4, 0);
var RV_Low = Fpga_Read_Reg(Fpga, LowAdr+4, 0);
temp = ( (Int32) RV_High.Value << 16) + (Int32) RV_Low.Value;
return temp;
}
int ADS1220_ReadReg(Int32 Fpga, Int32 HighAdr, Int32 LowAdr, Int32 RegAddr, Int32 BusyBitNo)
{
int temp = 0;
int tmp3 = 0;
//Amount of words = 2
Fpga_Write_Reg(Fpga, HighAdr+6, 0x2, 0);
Fpga_Write_Reg(Fpga, HighAdr, (ADS1220_RREG + (RegAddr << 2 )) << 8, 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
tmp3 = (int) GetBit(Fpga, F2_SPI_Busy1_Direct, BusyBitNo);
while ( tmp3 == 1)
{
tmp3 = (int) GetBit(Fpga, F2_SPI_Busy1_Direct, BusyBitNo);
stubManager.Write("\n\nBUSY");
}
var RV_High = Fpga_Read_Reg(Fpga, HighAdr+4, 0);
var RV_Low = Fpga_Read_Reg(Fpga, LowAdr+4, 0);
temp = ( (int) RV_High.Value << 16) + (int) RV_Low.Value;
return temp;
}
int ADS1220_WriteReg(Int32 Fpga, Int32 HighAdr, Int32 LowAdr, Int32 RegAddr, Int32 Data)
{
int temp = 0;
int tmp3 = 0;
//Amount of words = 2
Fpga_Write_Reg(Fpga, HighAdr+6, 0x2, 0);
Fpga_Write_Reg(Fpga, HighAdr, ((ADS1220_WREG + (RegAddr << 2) ) << 8) + (Data & 0xff), 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
return 1;
}
int ADS1220_StartSync(Int32 Fpga, Int32 HighAdr, Int32 LowAdr)
{
//Amount of words = 1
Fpga_Write_Reg(Fpga, HighAdr+6, 0x1, 0);
Fpga_Write_Reg(Fpga, HighAdr, (ADS1220_START_SYNC ) << 8, 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
return 1;
}
/*
int ADS1220_GetContiniuosConvertion(Int32 Fpga, Int32 HighAdr, Int32 LowAdr)
{
//Amount of words = 1
Fpga_Write_Reg(Fpga, HighAdr+6, 0x1, 0);
Fpga_Write_Reg(Fpga, HighAdr, (ADS1220_START_SYNC ) << 8, 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
}
*/
Int32 ADS1220_GetConvertion(Int32 Fpga, Int32 HighAdr, Int32 LowAdr, Int32 BusyBitNo)
{
int tmp3 = 0;
Int32 temp = 0;
//Amount of words = 3
Fpga_Write_Reg(Fpga, HighAdr+6, 0x3, 0);
Fpga_Write_Reg(Fpga, HighAdr, 0x0000, 0);
Fpga_Write_Reg(Fpga, LowAdr, 0x0000, 0);
tmp3 = (int) GetBit(Fpga, F2_SPI_Busy1_Direct, BusyBitNo);
while ( tmp3 == 1)
{
tmp3 = (int) GetBit(Fpga, F2_SPI_Busy1_Direct, BusyBitNo);
stubManager.Write("\n\nBUSY");
}
var RV_High = Fpga_Read_Reg(Fpga, HighAdr+4, 0);
var RV_Low = Fpga_Read_Reg(Fpga, LowAdr+4, 0);
temp = ( (Int32) RV_High.Value << 16) + (Int32) RV_Low.Value;
return temp;
}
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