(4) convertea to a yRARemn10 V =BR. 418 0Rs12 0If we perform our calculations correctly, the voltages between points A, B, and C will be the same in the converted circuit as in the original circuit, and we can transfer those values back to the original bridge configuration.Analyzing the circuit now as a series/parallel combination, determine all the resistors value and fill out the tables with the correct figures:RARcR4R5EVoltsAmpsOhmsRg + R4Rg + R4 Rc + R5 Rc+ R5TotalEVoltsAmpsROhmsUpload the resulting tables on the comment section. A prime application for A-Y conversion is in the solution of unbalanced bridge circuits, such as the one below:R,12 0R,18 0R310 VRs18 012 0The solution of this circuit with Branch Current or Mesh Current analysis is fairly involved, and neither the Millman nor Superposition Theorems are of any help since there's only one source of power. We could use Thevenin's or Norton'sTheorem, treating Rg as our load, but what fun would that be?If we were to treat resistors R1. R2, and Rg as being connected in a A configuration (R. Rar and Rar, respectively) and generate an equivalent Y network to replace them, we could turn this bridge circuit into a (simpler) series/parallelcombination circuit:Selecting Delta (A) network to convert:ARAR12 0RAC18 QRBc10 VBR418.012 0After the A-Y conversion...

Given Delta network shown The converted delta to star network is

Answered: RA Re Ac 10 V в R4 18 0 R5 120 ur…

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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For the circuit shown in the figure, the Thevenin voltage (Vth) at terminals a-b is: 12 V (+ - 2 A 42 RI 50 4 A Select one: O a. -24 V O b. 24 V O c. 36 V O d. -12 V O e. 12V
For the circuit shown in the figure, the Thevenin voltage (Vth) at terminals a-b is: RL b ww- 50 4V 6V a. 2.35 V O b. -3.36 V O c. -4.85 V O d. 4.87 V O e. -3.76 V
For the circuit shown in the figure, the Thevenin voltage (Vth) at terminals a-b is: 492 RL b www www. 502 O a. -4V b.4V O c2V O d.-3 V e-2 V 302 4V 6V
a) A standard strain gage is used in a quarter bridge circuit to measure the strain of a beam in tension. The strain gage factor is 2.0, and the supply voltage to the Wheatstone bridge is 5.00 V. The bridge is balanced when no load is applied. Assume all resistors are equal when the strain gage circuit is initially balanced with no load. For a certain non- zero load, the measured output voltage is 1.13 mV. From the given information calculate strain produced in the beam b) A two-track incremental encoder installed on a rotating shaft has 1000 slots evenly distributed along the circumference and incremental encoder produces 2000 pulses/rev. Calculate the count produced by shaft speed of 1800 rpm with a count interval of 4 mS. Also compare measurement resolution for different number of slots of the encoder Question is taken from instrumentation and measurements course
7. For the bridge circuit given, Vsupply 70V, and R₁= 209, R₂=4022, R3=37.50, R4=509 and R5= 1000. For Delta to wye conversion, the following assumption is made Ra is between R₁ and R₂; R₁ is between R₂ and R5; Rc is between R5 and R₁ o What is the voltage drop across R4? O 50 V 75 V 60 V 40 V = Vsupply 72 i R₂
a) A standard strain gage is used in a quarter bridge circuit to measure the strain of a beam in tension. The strain gage factor is 2.0, and the supply voltage to the Wheatstone bridge is 5.00 V. The bridge is balanced when no load is applied. Assume all resistors are equal when the strain gage circuit is initially balanced with no load. For a certain non-zero load, the measured output voltage is 1.13 mV. From the given information calculate strain produced in the beam. b) A two-track incremental encoder installed on a rotating shaft has 1000 slots evenlydistributed along the circumference and incremental encoder produces 2000pulses/rev. Calculate the count produced by shaft speed of 1800 rpm with a countinterval of 4 mS. Also compare measurement resolution for different number of slots ofthe encoder
For the circuit of the given figure, Ipss = 8 mA, Vp = -4 V, by using mathematical approach, Determine: a- Ip and Vcs b- V, and Vs c- Vsp and VpG 12V 3M2 3KN H|o Vo C2 Ci 280KN 2KN Cs ww ww
(FDiscussion: Compare between calculated. direct measured and Thevenin's equivalent results of I and V- 1- 2- Which result is the most accurate one and why. Discuss. 2200 2200 10V 2200 V VE R 1200 www
The following question is just to help us practice Norton equivalent circuits, but I can't seem to get the value for I that they want. The value for I should be 2A. Please solve the problem using a Norton equivalent circuit.
Q: For the Series-Parallel circuit infig.behow Fined R, then finel the Current I, using C.D.R 1ov 32
Due to a manufacturing error, a parasitic resistance Rp has appeared in the adder below left. Calculate Vout in terms of V1 and V2 for if Ao = ∞, and if Ao <∞. RF R2 Vout V2oW R1 Rp
For the circuit of the given figure, Ipss = 8 mA, Vp = -4 V, by using mathematical approach, Determine: a- Ip and Vcs b- Vp and Vs %3D c- Vsp and VDG 12V 3ΜΩ 3ΚΩ Ho Vo Vio C2 280KN 2KN Cs ww ww. ww

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