The RTD sensor were used to measure the temperature, from zero to 100°C. It connected to the circuit shown in Figure 1. Write the circuit equation and compute 5 values that representing the temperature against the output voltage. Note the a = 100 where R100 is the sensor resistance at T100 Ro 100°C temperature which is 139.20, Ro is the sensor resistance at 0°C temperature which equals to 1000, T100 the temperature equal to 100°C and a is the RTD constant. u1 R3 R6 1k0 10kO R1 U3 49.5ka R4 Output RTD R2 49.5ka U2 R5 R9 100kO
The RTD sensor were used to measure the temperature, from zero to 100°C. It connected to the circuit shown in Figure 1. Write the circuit equation and compute 5 values that representing the temperature against the output voltage. Note the a = 100 where R100 is the sensor resistance at T100 Ro 100°C temperature which is 139.20, Ro is the sensor resistance at 0°C temperature which equals to 1000, T100 the temperature equal to 100°C and a is the RTD constant. u1 R3 R6 1k0 10kO R1 U3 49.5ka R4 Output RTD R2 49.5ka U2 R5 R9 100kO
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Q2) The RTD sensor were used to measure the temperature, from zero to 100°C. It connected to the
circuit shown in Figure 1. Write the circuit equation and compute 5 values that representing the
R100-Ro
T100 Ro
temperature against the output voltage. Note the a =
where R100 is the sensor resistance at
100°C temperature which is 139.20, Ro is the sensor resistance at 0°C temperature which equals to
1000, T100 the temperature equal to 100°C and a is the RTD constant.
U1
R3
R6
1ko
10ka
R1
U3
49.5ka
R4
1ka
Output
V1
7V
RTD
R2
49.5ka
U2
R5
R9
1kO
100ka
R7
10ka
Figure 1
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