SECTION 7. MEASUREMENT PROGRAMMING EXAMPLES
7-8
FIGURE 7.10-1. 3 Wire Half Bridge Used to Measure 100 ohm PRT
7.10 100 OHM PRT IN 3 WIRE HALF
BRIDGE
The temperature measurement requirements in
this example are the same as in Section 7.9. In
this case, a three wire half bridge, Instruction 7,
is used to measure the resistance of the PRT.
The diagram of the PRT circuit is shown in Fig.
7.10-1.
As in the example in Section 7.9, the excitation
voltage is calculated to be the maximum
possible, yet allow the +25 mV measurement
range. The 10 kohm resistor has a tolerance of
±
1%; thus, the lowest resistance to expect from
it is 9.9 kohms. We calculate the maximum
excitation voltage (V
x
) to keep the voltage drop
across the PRT less than 25 mV:
0.025V > V
x
115.54/(9900+115.54);
V
x
< 2.17 V
The excitation voltage used is 2.1 V.
The multiplier used in Instruction 7 is
determined in the same manner as in Section
7.9. In this example, the multiplier (R
f
/R
0
) is
assumed to be 100.93.
The 3 wire half bridge compensates for lead
wire resistance by assuming that the resistance
of wire A is the same as the resistance of wire
B. The maximum difference expected in wire
resistance is 2%, but is more likely to be on the
order of 1%. The resistance of R
s
calculated
with Instruction 7, is actually R
s
plus the
difference in resistance of wires A and B. The
average resistance of 22 AWG wire is 16.5
ohms per 1000 feet, which would give each 500
foot lead wire a nominal resistance of 8.3 ohms.
Two percent of 8.3 ohms is 0.17 ohms.
Assuming that the greater resistance is in wire
B, the resistance measured for the PRT (R
0
=
100 ohms) in the ice bath would be 100.17
ohms, and the resistance at 40
°
C would be
115.71. The measured ratio R
s
/R
0
is 1.1551;
the actual ratio is 115.54/100 = 1.1554. The
temperature computed by Instruction 16 from
the measured ratio would be about 0.1
°
C lower
than the actual temperature of the PRT. This
source of error does not exist in the example in
Section 7.9, where a 4 wire half bridge is used
to measure PRT resistance.
The advantages of the 3 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.
PROGRAM
01:
P7
3 Wire Half Bridge
01:
1
Rep
02:
23
25 mV 60 Hz rejection Range
03:
1
IN Chan
04:
1
Excite all reps w/EXchan 1
05: 2100
mV Excitation
06:
1
Loc [:Rs/Ro ]
07:
100.93
Mult
08:
0
Offset
02:
P16
Temperature RTD
01:
1
Rep
02:
1
R/Ro Loc Rs/Ro
03:
2
Loc [:TEMP C ]
04:
1
Mult
05:
0
Offset
Summary of Contents for CR10 PROM
Page 2: ...This is a blank page ...
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Page 9: ...CR10 TABLE OF CONTENTS v LIST OF TABLES LT 1 LIST OF FIGURES LF 1 INDEX I 1 ...
Page 10: ...CR10 TABLE OF CONTENTS vi This is a blank page ...
Page 14: ...CR10 OVERVIEW OV 2 ...
Page 15: ...CR10 OVERVIEW OV 3 FIGURE OV1 1 1 CR10 and Wiring Panel ...
Page 16: ...CR10 OVERVIEW OV 4 FIGURE OV1 1 2 CR10 Wiring Panel Instruction Access ...
Page 17: ...CR10 OVERVIEW OV 5 ...
Page 34: ...CR10 OVERVIEW OV 22 ...
Page 35: ...CR10 OVERVIEW OV 23 FIGURE OV6 1 1 Data Retrieval Hardware Options ...
Page 36: ...CR10 OVERVIEW OV 24 OV7 SPECIFICATIONS ...
Page 37: ...CR10 OVERVIEW OV 25 ...
Page 38: ...CR10 OVERVIEW OV 26 ...
Page 51: ...SECTION 1 FUNCTIONAL MODES 1 13 This is a blank page ...
Page 53: ...2 2 ...
Page 62: ...SECTION 3 INSTRUCTION SET BASICS 3 6 ...
Page 63: ...SECTION 3 INSTRUCTION SET BASICS 3 7 ...
Page 68: ...SECTION 3 INSTRUCTION SET BASICS 3 12 This is a blank page ...
Page 74: ...SECTION 4 EXTERNAL STORAGE PERIPHERALS 4 6 ...
Page 88: ...6 5 FIGURE 6 6 1 Addressing Sequence for the RF Modem ...
Page 110: ...SECTION 7 MEASUREMENT PROGRAMMING EXAMPLES 7 17 FIGURE 7 16 2 Well Monitoring Example ...
Page 132: ...SECTION 8 PROCESSING AND PROGRAM CONTROL EXAMPLES 8 13 This is a blank page ...
Page 197: ...SECTION 13 CR10 MEASUREMENTS 13 18 FIGURE 13 5 1 Circuits Used with Instructions 4 9 ...
Page 203: ...SECTION 13 CR10 MEASUREMENTS 13 24 This is a blank page ...
Page 215: ...SECTION 14 INSTALLATION AND MAINTENANCE 14 12 This is a blank page ...
Page 218: ...APPENDIX A GLOSSARY A 3 and computers in a terminal mode fall in this category ...
Page 220: ...APPENDIX A GLOSSARY A 5 This is a blank page ...
Page 228: ...APPENDIX C BINARY TELECOMMUNICATIONS C 6 This is a blank page ...
Page 230: ...This is a blank page ...
Page 232: ...This is a blank page ...
Page 234: ...APPENDIX G CHANGING RAM OR PROM CHIPS G 2 FIGURE G 1 Disassembling CR10 ...
Page 236: ...APPENDIX G CHANGING RAM OR PROM CHIPS G 4 FIGURE G 3 Jumper Settings and Locations ...
Page 237: ...APPENDIX G CHANGING RAM OR PROM CHIPS G 5 This is a blank page ...