4 cr9000x, 5 cr1000, 100 ohm prt in 3 wire half bridge – Campbell Scientific 3WHB10K 3-Wire Half-Bridge Terminal Input Module User Manual

3WHB10K 3-Wire Half Bridge Terminal Input Module

5

4.4 CR9000X

'CR9000X Datalogger
Public RS_Ro, Temp_F

DataTable (Temp_F,1,-1)
DataInterval

(0,0,0.10)

Sample

(1,Temp_F,FP2)

EndTable

BeginProg
Scan

(1,mSec,0,0)

BrHalf3W

(Rs_Ro,1,V50,5,1,6,1,1,4200,True,30,40,100,0)

PRT

(Temp_F,1,Rs_Ro,1.8,32)

CallTable

Temp_F

NextScan
EndProg

4.5 CR1000

'CR1000 Series Datalogger

Public Rs_R0, Temp_C

DataTable (Hourly,True,-1)
DataInterval

(0,60,Min,0)

Average

(1,Temp_C,IEEE4,0)

EndTable

BeginProg
Scan

(1,Sec,0,0)

BrHalf3W

(Rs_R0,1,mV25,1,Vx1,1,2100,True

,0,250,100,0)

PRT

(Temp_C,1,Rs_R0,1.0,0)

CallTable

Hourly

NextScan
EndProg

5. 100 Ohm PRT in 3 Wire Half Bridge

The advantages of the 3-wire half bridge over other measurements that correct
for lead wire resistance such as a 4-wire half bridge, are that it only requires 3
lead wires going to the sensor and takes 2 single-ended input channels,
whereas the 4-wire half bridge requires 4 wires and 2 differential channels.