Campbell Scientific 4WFBS1K 4WFBS120, 4WFBS350, 4WFBS1K 4 Wire Full Bridge Ter - Page 35

Calculate adjusted Gauge Factor, GF*[RG/RG + RL]

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4WFBS120, 4WFBS350, 4WFBS1K 4 Wire Full Bridge Terminal Input Modules (TIM) 7: 350 8: 350 9: 126 F ; F ; Loc [ G09Ohms ] Gage15 Gage16 13: Z=F (P30) ; 1: 4 F 2: 3 Exponent of 10 3: 68 Z Loc [ Number4e3 ] 14: Beginning of Loop (P87) ; 1: 0 Delay 2: 16 Loop Count Load in the large number, 4000.0 Loop through the strain gages using the AM416: 15: Z=X+Y (P33) ; 1: 118 -- X Loc [ G01Ohms ] 2: 86 -- Y Loc [ OhmLead01 ] 3: 134 Z Loc [ GAndLOhms ] Calculate GOhms+LeadOhms 16: Z=X/Y (P38) ; 1: 118 -- X Loc [ G01Ohms ] 2: 134 Y Loc [ GAndLOhms ] 3: 135 Z Loc [ AdjFactor ] Calculate RG/(RG + RL) 17: Z=X*Y (P36) ; 1: 135 X Loc [ AdjFactor ] 2: 102 -- Y Loc [ GF01 ] 3: 36 -- Z Loc [ AdjGF01 ] Calculate adjusted Gauge Factor, GF*[RG/(RG + RL)] 18: Z=X (P31) ; 1: 1 -- X Loc [ mVPerVG01 ] 2: 17 -- Z Loc [ mVPerVZ01 ] 19: End (P95) ;.. 20: Do (P86) ; 1: 10 Set Output Flag High (Flag 0) Load last gauge measurements. Store zero measurement values and adjusted GF. 21: Set Active Storage Area (P80)^15754 1: 1 Final Storage Area 1 2: 311 Array ID 22: Real Time (P77)^19880 1: 1111 Year,Day,Hour/Minute,Seconds (midnight = 0000) 23: Sample (P70)^22627 1: 16 Reps 2: 17 Loc [ mVPerVZ01 ] 24: Sample (P70)^11346 1: 16 Reps 2: 36 Loc [ AdjGF01 ] 25: Do (P86) 1: 20 Set Output Flag Low (Flag 0) 26: End (P95) ; 27: Beginning of Subroutine (P85) ; 1: 2 Subroutine 2 Output data to FinalStorage. 28: Do (P86) 1: 10 Set Output Flag High (Flag 0) 29: Set Active Storage Area (P80)^28949 1: 1 Final Storage Area 1 2: 321 Array ID 30: Real Time (P77)^16027 1: 1111 Year,Day,Hour/Minute,Seconds (midnight = 0000) 29

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4WFBS120, 4WFBS350, 4WFBS1K
4 Wire Full Bridge Terminal Input Modules (TIM)
7: 350
F ;
Gage15
8: 350
F ;
Gage16
9: 126
Loc [ G09Ohms
]
13:
Z=F (P30) ;
Load in the large number, 4000.0
1: 4
F
2: 3
Exponent of 10
3: 68
Z Loc [ Number4e3 ]
14:
Beginning of Loop (P87) ;
Loop through the strain gages using the AM416:
1: 0
Delay
2: 16
Loop Count
15:
Z=X+Y (P33) ;
Calculate GOhms+LeadOhms
1: 118
-- X Loc [ G01Ohms
]
2: 86
-- Y Loc [ OhmLead01 ]
3: 134
Z Loc [ GAndLOhms ]
16:
Z=X/Y (P38) ;
Calculate RG/(RG + RL)
1: 118
-- X Loc [ G01Ohms
]
2: 134
Y Loc [ GAndLOhms ]
3: 135
Z Loc [ AdjFactor ]
17:
Z=X*Y (P36) ;
Calculate adjusted Gauge Factor, GF*[RG/(RG + RL)]
1: 135
X Loc [ AdjFactor ]
2: 102
-- Y Loc [ GF01
]
3: 36
-- Z Loc [ AdjGF01
]
18:
Z=X (P31) ;
Load last gauge measurements.
1: 1
-- X Loc [ mVPerVG01 ]
2: 17
-- Z Loc [ mVPerVZ01 ]
19:
End (P95)
;..
20:
Do (P86) ;
Store zero measurement values and adjusted GF.
1: 10
Set Output Flag High (Flag 0)
21:
Set Active Storage Area (P80)^15754
1: 1
Final Storage Area 1
2: 311
Array ID
22:
Real Time (P77)^19880
1: 1111
Year,Day,Hour/Minute,Seconds (midnight = 0000)
23:
Sample (P70)^22627
1: 16
Reps
2: 17
Loc [ mVPerVZ01 ]
24:
Sample (P70)^11346
1: 16
Reps
2: 36
Loc [ AdjGF01
]
25:
Do (P86)
1: 20
Set Output Flag Low (Flag 0)
26:
End (P95)
;
27:
Beginning of Subroutine (P85) ;
Output data to FinalStorage.
1: 2
Subroutine 2
28:
Do (P86)
1: 10
Set Output Flag High (Flag 0)
29:
Set Active Storage Area (P80)^28949
1: 1
Final Storage Area 1
2: 321
Array ID
30:
Real Time (P77)^16027
1: 1111
Year,Day,Hour/Minute,Seconds (midnight = 0000)
29