A resistive position transducer with a resistance of 6000 O, and a shaft stroke of 5.0 in. is used in the arrangement of Figure Q1(b). Potentiometer R3 R4 is also 6000 N, and VT= 6.0V. The initial position to be used as a reference point is such that R1= R2 (i.e., the shaft is at mid-stroke). At the starting of the test, potentiometer R3 and R4 are adjusted so that the bridge is balanced (VE= OV). Assuming that the object being monitored will move at a maximum distance of 1.0 in. toward A. Calculate the new value of VE be?
A resistive position transducer with a resistance of 6000 O, and a shaft stroke of 5.0 in. is used in the arrangement of Figure Q1(b). Potentiometer R3 R4 is also 6000 N, and VT= 6.0V. The initial position to be used as a reference point is such that R1= R2 (i.e., the shaft is at mid-stroke). At the starting of the test, potentiometer R3 and R4 are adjusted so that the bridge is balanced (VE= OV). Assuming that the object being monitored will move at a maximum distance of 1.0 in. toward A. Calculate the new value of VE be?
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Transcribed Image Text:A
A
R1
R1
R3
W
W
VT
VT.
R2
R2
VE
R.
B
B
(a)
(b)
Figure-Q1(b)
A resistive position transducer with a resistance of 6000 2, and a shaft stroke of 5.0 in. is used in
the arrangement of Figure Q1(b). Potentiometer R3 R4 is also 6000 N, and VT= 6.0V. The initial
position to be used as a reference point is such that R1= R2 (i.e., the shaft is at mid-stroke). At the
starting of the test, potentiometer R3 and R4 are adjusted so that the bridge is balanced (VE= OV).
Assuming that the object being monitored will move at a maximum distance of 1.0 in. toward A.
Calculate the new value of VE be?
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