B. Finding the equivalent circuits1. Now, use the circuit analysis techniques you learned in class to calculate theopen-circuit voltage at the terminals in Figure 1. Remember that when findingThévenin/Norton equivalent of a source circuit, you remove the load resistance!Paste a photo of your work, or type it below:2. Short the terminals (Vout+ and Vout-) in Figure 1. Calculate the short-circuitcurrent for the circuit. Paste a photo of your work, or type it below:3. Calculate the Thévenin resistance using the open-circuit voltage and short-circuitcurrent you calculated in parts B1 and B2.Rth=4. Calculate the Thévenin resistance using the zeroing method as seen from theterminals Vout+ and Vout-.Rth=5. Do your results in B3 and B4 agree?6. Using these values, draw the Thévenin and Norton equivalent circuits of theschematic shown in Figure 1. If your laptop doesn't have pen capability, draw thecircuits on paper and paste pictures of your drawings into the table below,making sure they are clear and legible: A. Analyzing the circuitFor this part of the lab, you will analyze the circuit shown below:V15R115R3220R2470R5100R4Figure 1: Lab 2 circuitR6100-Vout+-Vout-

a) If you find the solution doubtful or doesn't match with your answer provided, or you feel that I…

Answered: B. Finding the equivalent circuits 1.…

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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Similar questions

What is the load current for the circuit shown in the figure? Please choose one: a. 9.0 mA b. 7.5 mA c. 3.0 mA D. 6.0 mA
3. Measure the short circuit current Ise by connecting the ammeterto the A and B ends. Measure the Thévenin resistance RTH by disconnecting the voltage sources and connecting the resistors Rị and R3 to the appropriate nodes. Add the simulation screenshots below.
True/False: Consider connecting a Load Resistance across R2. Loading Effect is less when voltage across R2 'with load' is close to the Voltage 'without load' * Vin R2 V. out True O False
is made from a combination of A mixed resistors circuit as shown in Figure parallel and series circuits. The values of the resistances mentioned in the circuit are in Ohm (2) and the supply voltage is in Volt (V). Determine the: (i) Current through the circuit (I). (ii) Voltage drop (V) across the circuit. 0.6 0 4 0 0.5 0
Consider a typical electrical circuit system shown in Figure 2. The circuit consisting of two resisters value R, and R2 (ohm), a capacitance of value C (farad) and an inductance of value L (henry). The input is the supplied voltage V, and the output voltage is Vo- viz R1 Vi R2 Vo Figure 2 (1). Apply Kirchhoffs voltage law or other principles to derive the input-output dynamic model equation. (i). Apply Laplace Transform to determine the model transfer function for the electrical system. (i). Estimate the transfer function for the following R; = (ohm) and R2 = (ohm), L = (henry), and C = (farad) values. Task 4 R, (ohm) R: (ohm) C (farad) (henry) Note: Refer the Table for R1, R2, C and L values. 27 13 24 4 lellll
Refer to the circuit on the right. VEB = 0.7 V, when the BE junction is conducting. VECsat = 0.2 V B Vref = 2.2 V (Use two decimal places.) = ∞ VREF IL +5 V R LOAD Figure 2 a. What should be the value of R in ohms if IL is to be maintained at 146 mA under changing load conditions? b. In order to maintain this load current, what should be the maximum allowable load resistance in ohms?
Using the circuit, determine thevenin’s voltage(Vth) and thevenin's resistance(Rth) for load resistor R1. Then solve for I1. Draw all diagrams.
Suppose the three branch currents in this circuit are I₁ = -3 A, I₂ = -18 A, and I3 = -15 A. The voltage drop across each circuit element is as given in the table below. From this information, determine, for each of these circuit elements, (i) whether an active or passive sign convention is being used for that element, (ii) whether that element is absorbing or producing a net (positive) amount of electrical power. In each answer box within the table below, type the correct choice from among the bold-faced words above. V₂ B A B A C D 1₁ A B 1₂ 1₂ + Circuit element Voltage drop Sign convention? Absorbing or producing net electrical power? -9 V -2 V C 9 V -11 V D
Q1) Using suitable circuit analysis method, determine V1, V2, V3 and V4 of circuit in Figure Q1 below. V4 20 Q 10 Q V1 10 V2 10 Q 30 Q V3 4 A 20 Q Figure Q1
lo R1 CR2 V alx ........ Figure Q2(b) : Two Closed Loops Circuit (i) Explain the steps required in supermesh analysis for Figure Q2(b). (ii) Determine the mesh currents using the Kirchhoff's Current Law (KCL) and Kirchhoff's Voltage Law (KVL) for Figure Q2(b).
Sketch the DC equivalent circuit Determine IDQ and VDSQ Determine VD and VS Show the details of your work Thanks!
use these two images to answer all these questions: What are the differences between ac and dc meters? Can you compare the value of the current in the load resistance for the same value of voltage with ac and dc supply? What is the function of the autotransformer in this circuit? Can you use an autotransformer to obtain variable output voltage from a fixed dc supply? What will happen if dc meters are used instead of ac meters in this circuit? What the difference between resistance and impedance is when referred to dc and ac measurements?

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