(b) A resistive position transducer with a resistance of 60002, and a shaft stroke of 5.0 in. is used in the arrangement of Figure Ql(b). Potentiometer R: R4 is also 60002, and Vr= 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 ho?

(b) A resistive position transducer with a resistance of 60002, and a shaft stroke of 5.0 in. is used in the arrangement of Figure Ql(b). Potentiometer R: R4 is also 60002, and Vr= 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 ho?

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...

See similar textbooks

Similar questions

In an ideal, steady-state and uninterrupted current mode, a Buck-Type DC-DC converter has a load resistance of 20 ohms, an output power of 120W, and a relative ripple in coil current b. What is the coil value in this circuit? (D-0.35,f-10 kHz) a) L-63.7 mH b) L-64 microH c) L=33.7 mH d) L=64H e) L-66mH
Draw the schematic diagram of the series-positive limiter and the series-negative limiter; additionally, draw the output curves for each circuit.
4q
In chemical processing it is very important to measure the temperature of fluids accurately. A common method of achieving this is to use a Platinum Thin Film temperature sensor that is placed into a probe into the liquid flowing in a specially modified pipe union that has the temperature sensor mounted in a sensor head onto the union (figure Q4a). One drawback of using these platinum sensors is their accuracy maybe affected by the length of connecting cable so it is common to mount the control circuitry and amplifier inside the sensor head. A typical circuit diagram is shown in figure Q4b. Q4 Vo PT-1000 Sensor Figure Q4a: Pipe Union showing PT-1000 sensor arrangement While the accuracy of the platinum thin film device is very predictable, it is not linear and a PT-1000 device responds to temperature according to the Callendar-Van Dusen equation:- Rr = Ro(1 + 3.908 · 10-3 . T – 5.772 · 10-7 - T²) Where:- Rr= resistance of the sensor at a given temperature (T') Ro= 1000 Q measured at the…
N 4- Design a boost converter that will have an output of 60 V from a 24-V source. Design for continuous inductor current and an output ripple voltage of less than one percent. Assume ideal components for this design. The load resistance is 100 ohm VL mmm
I need answer in your hand Design a buck-boost converter to supply a load of 100 W at 60 V from a 30 V source. The output ripple must be no more than 2 percent. Specify the duty ratio, switching frequency, inductor size, and capacitor size.
Design the circuit to achieve the output voltage v0 given in the figure and scale the output voltage according to the input voltages given.
In terms of an Op Amp, when a virtual short occurs the positive and negative input terminals have what kind of relationship?
build an inverting summing amplifier with 2 inputs: a 1 V DC signal anda sine wave with an amplitude of 2 V and 1 kHz frequency.V Simulate for 2 msec
Op amp and diodes are ideal. Derive Vout and sketch the transfer curve of Vin vs Vout. Please show complete solution.
Parts D and E only please, thank you!
... .. 0 O .. . . .O .. . e A student intends to connect a TL082 OP-AMP as a voltage follower, to "follow" the voltage generated by a potentiometer but makes some mistakes in the breadboard wiring: *He took Pin 3 and connected it to Pin 1, but this is wrong as Pin 3 is supposed to go to Pin 6, fix this. *A meter lead is supposed to go to Pin 6, the output not to Pin 1. A 3rd mistake results in no output but this he cannot discover, help him. Sketch a schematic diagram of this circuit, fixing the above (don't forget to include the Voltmeter) and determine what the voltmeter's indication will be, explaining why it is such. 12 V TL082 12 V AA OFF COM