A Wheatstone bridge circuit is shown in Figure below, where R1=R:=R=1202, R. represents aresistance-temperature detector (RTD), and voltage source V, = 10 v.Provide the answers to questions 23 – 30.R,R,R, 29. If output voltage V = VA - Vg of the Wheatstone bridge circuit is adjusted from themeasuring range of 0 V -(-0.5) V to the required level of 0 V-5 V through lincarfunction Vout = KV + Vo, then the required linear voltage measuring function is(a) Vout = 10V(b) Vout = -10V, + 2V(c) Vout = -10V;

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A Wheatstone bridge circuit is shown in Figure below, where R=R=Ry=1202, R, represents a resistance-temperature detector (RTD), and voltage source V, = 10 v. Provide the answers to questions 23 - 30. R, R,

A Wheatstone bridge circuit is shown in Figure below, where R=R=Ry=1202, R, represents a resistance-temperature detector (RTD), and voltage source V, = 10 v. Provide the answers to questions 23 - 30. R, R,

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter7: Parallel Circuits

Section: Chapter Questions

Problem 3PP: Using the rules for parallel circuits and Ohmslaw, solve for the missing values....

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Question

A Wheatstone bridge circuit is shown in Figure below, where R1=R:=R=1202, R. represents a
resistance-temperature detector (RTD), and voltage source V, = 10 v.
Provide the answers to questions 23 – 30.
R,
R,
R,

29. If output voltage V = VA - Vg of the Wheatstone bridge circuit is adjusted from the
measuring range of 0 V -(-0.5) V to the required level of 0 V-5 V through lincar
function Vout = KV + Vo, then the required linear voltage measuring function is
(a) Vout = 10V
(b) Vout = -10V, + 2V
(c) Vout = -10V;

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