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BaxtersLowAWCBlock.CR6
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BaxtersLowAWCBlock.CR6
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'CR6 Series
'Created by Short Cut (4.0)
'Declare Variables and Units
Dim TT_K(8)
Dim SBT_K(8)
Dim m(8)
Dim b(8)
Public BattV
Public PTemp_C
Public TT_C(8)
Public SBT_C(8)
Public TTmV(8)
Public TRHData(2)
Public Wind_ms
Alias TRHData(1)=AirTC
Alias TRHData(2)=RH
' IRR sensor 7121 7122 7123 7124 3399 3388 3389 3384
Dim MC2(8) = {75400.9, 101977, 98494.6, 103906, 73401.4, 76906, 71235.4, 79259.3 }
Dim MC1(8) = {7934100, 8789120, 8565400, 8820150, 7045270, 7058920, 7204930, 7402560 }
Dim MC0(8) = {1374290000, 1444450000, 1440520000, 1478200000, 1341860000, 1371730000, 1373910000, 1432430000 }
Dim BC2(8) = {7168.17, 2727.95, 4430.23, 3892.28, 14900.8, 14153.7, 14731.4, 13799.7 }
Dim BC1(8) = {70604.1, 56474.8, 44449.5, 14270.1, 24049.6, -35518.4, -42316.6, 133432 }
Dim BC0(8) = {-8920780, -945628, -2414830, -8389420, 647879, -6107980, 2801350, -6857680 }
Units BattV=Volts
Units PTemp_C=Deg C
Units TT_C=Deg C
Units SBT_C=Deg C
Units TTmV=mV
Units AirTC=Deg C
Units RH=%
Units Wind_ms=m/s
'Define Data Tables
DataTable(AllData,True,-1)
DataInterval(0,5,min,10)
Average(1,BattV,FP2,False)
Average(1, PTemp_C,FP2,False)
Average(1, TT_C(1),FP2,False)
Average(1, SBT_C(1),FP2,False)
Average(1, TTmV(1),FP2,False)
Average(1, TT_C(2),FP2,False)
Average(1, SBT_C(2),FP2,False)
Average(1, TTmV(2),FP2,False)
Average(1, TT_C(3),FP2,False)
Average(1, SBT_C(3),FP2,False)
Average(1, TTmV(3),FP2,False)
Average(1, TT_C(4),FP2,False)
Average(1, SBT_C(4),FP2,False)
Average(1, TTmV(4),FP2,False)
Average(1, TT_C(5),FP2,False)
Average(1, SBT_C(5),FP2,False)
Average(1, TTmV(5),FP2,False)
Average(1, TT_C(6),FP2,False)
Average(1, SBT_C(6),FP2,False)
Average(1, TTmV(6),FP2,False)
Average(1, TT_C(7),FP2,False)
Average(1, SBT_C(7),FP2,False)
Average(1, TTmV(7),FP2,False)
Average(1, TT_C(8),FP2,False)
Average(1, SBT_C(8),FP2,False)
Average(1, TTmV(8),FP2,False)
Average(1, AirTC,FP2,False)
Maximum(1, RH,FP2,False,False)
Average(1, Wind_ms,FP2,False)
EndTable
'Main Program
BeginProg
'Main Scan
Scan(5,min,1,0)
'Default CR6 Datalogger Battery Voltage measurement 'BattV'
Battery(BattV)
'Default CR6 Datalogger Wiring Panel Temperature measurement 'PTemp_C'
PanelTemp(PTemp_C,60)
'Turn AM16/32 Multiplexer On. PortSet(DataLogger com channel, State 1=on and can respond to clock pulses)
'CS215 Temperature & Relative Humidity Sensor measurements 'AirTC' and 'RH'
SDI12Recorder(TRHData(),C3,"0","M!",1,0,-1)
'Wind speed sensor
PulseCount(Wind_ms,1,U10,5,1,0.765,0.35)
If Wind_ms<0.36 Then Wind_ms = 0
'Turn AM16/32 Multiplexer On. PortSet(DataLogger com channel, State 1=on and can respond to clock pulses)
PortSet(C2,1)
Delay(0,150,mSec) 'Delay(Option, Delay, Units)
'Switch on the first AM416 Multiplexer channel. PulsePort(DataLogger channel C#, Delay)
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(1)' and 'SBT_C(1)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(1),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(1),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(1)=MC0(1)+(MC1(1)*SBT_C(1))+(MC2(1)*SBT_C(1)^2)
b(1)=BC0(1)+(BC1(1)*SBT_C(1))+(BC2(1)*SBT_C(1)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(1)=SBT_C(1)+273.15
TT_K(1)=SBT_K(1)^4+TTmV(1)*m(1)+b(1)
TT_K(1)=SQR(SQR(TT_K(1)))
'Convert target temperature into desired units
TT_C(1)=TT_K(1)-273.15
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(2)' and 'SBT_C(2)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(2),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(2),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(2)=MC0(2)+(MC1(2)*SBT_C(2))+(MC2(2)*SBT_C(2)^2)
b(2)=BC0(2)+(BC1(2)*SBT_C(2))+(BC2(2)*SBT_C(2)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(2)=SBT_C(2)+273.15
TT_K(2)=SBT_K(2)^4+TTmV(2)*m(2)+b(2)
TT_K(2)=SQR(SQR(TT_K(2)))
'Convert target temperature into desired units
TT_C(2)=TT_K(2)-273.15
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(3)' and 'SBT_C(3)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(3),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(3),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(3)=MC0(3)+(MC1(3)*SBT_C(3))+(MC2(3)*SBT_C(3)^2)
b(3)=BC0(3)+(BC1(3)*SBT_C(3))+(BC2(3)*SBT_C(3)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(3)=SBT_C(3)+273.15
TT_K(3)=SBT_K(3)^4+TTmV(3)*m(3)+b(3)
TT_K(3)=SQR(SQR(TT_K(3)))
'Convert target temperature into desired units
TT_C(3)=TT_K(3)-273.15
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(4)' and 'SBT_C(4)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(4),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(4),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(4)=MC0(4)+(MC1(4)*SBT_C(4))+(MC2(4)*SBT_C(4)^2)
b(4)=BC0(4)+(BC1(4)*SBT_C(4))+(BC2(4)*SBT_C(4)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(4)=SBT_C(4)+273.15
TT_K(4)=SBT_K(4)^4+TTmV(4)*m(4)+b(4)
TT_K(4)=SQR(SQR(TT_K(4)))
'Convert target temperature into desired units
TT_C(4)=TT_K(4)-273.15
'Turn AM16/32 Multiplexer Off. PortSet(DataLogger channel C#, State 0=off and reset)
'Switch on the first AM416 Multiplexer channel. PulsePort(DataLogger channel C#, Delay)
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(5)' and 'SBT_C(5)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(5),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(5),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(5)=MC0(5)+(MC1(5)*SBT_C(5))+(MC2(5)*SBT_C(5)^2)
b(5)=BC0(5)+(BC1(5)*SBT_C(5))+(BC2(5)*SBT_C(5)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(5)=SBT_C(5)+273.15
TT_K(5)=SBT_K(5)^4+TTmV(5)*m(5)+b(5)
TT_K(5)=SQR(SQR(TT_K(5)))
'Convert target temperature into desired units
TT_C(5)=TT_K(5)-273.15
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(6)' and 'SBT_C(6)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(6),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(6),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(6)=MC0(6)+(MC1(6)*SBT_C(6))+(MC2(6)*SBT_C(6)^2)
b(6)=BC0(6)+(BC1(6)*SBT_C(6))+(BC2(6)*SBT_C(6)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(6)=SBT_C(6)+273.15
TT_K(6)=SBT_K(6)^4+TTmV(6)*m(6)+b(6)
TT_K(6)=SQR(SQR(TT_K(6)))
'Convert target temperature into desired units
TT_C(6)=TT_K(6)-273.15
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(7)' and 'SBT_C(7)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(7),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(7),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(7)=MC0(7)+(MC1(7)*SBT_C(7))+(MC2(7)*SBT_C(7)^2)
b(7)=BC0(7)+(BC1(7)*SBT_C(7))+(BC2(7)*SBT_C(7)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(7)=SBT_C(7)+273.15
TT_K(7)=SBT_K(7)^4+TTmV(7)*m(7)+b(7)
TT_K(7)=SQR(SQR(TT_K(7)))
'Convert target temperature into desired units
TT_C(7)=TT_K(7)-273.15
PulsePort(C1,10000)
'SI-111 Precision Infrared Radiometer measurements 'TT_C(8)' and 'SBT_C(8)'
'Measure SI-111 sensor body thermistor temperature
Therm109(SBT_C(8),1,U1,U2,0,60,1,0)
'Measure SI-111 output of thermopile
VoltDiff(TTmV(8),1,mV200,U3,True,0,60,1,0)
'Calculate slope (m) and offset (b) coefficients for target temperature calculation
m(8)=MC0(8)+(MC1(8)*SBT_C(8))+(MC2(8)*SBT_C(8)^2)
b(8)=BC0(8)+(BC1(8)*SBT_C(8))+(BC2(8)*SBT_C(8)^2)
'Calculate target temperature using calculated slope (m) and offset (b)
SBT_K(8)=SBT_C(8)+273.15
TT_K(8)=SBT_K(8)^4+TTmV(8)*m(8)+b(8)
TT_K(8)=SQR(SQR(TT_K(8)))
'Convert target temperature into desired units
TT_C(8)=TT_K(8)-273.15
'Turn AM16/32 Multiplexer Off. PortSet(DataLogger channel C#, State 0=off and reset)
PortSet(C2,0)
Delay(0,150,mSec) 'Delay(Option, Delay, Units)
'Call Data Tables and Store Data
CallTable AllData
NextScan
EndProg