Differential AmplifierFor the circuit in Figure 14, determine the common-mode input gain and the differential-mode input gainapplying the techniques described in the Background Information. IDss=20mA, Vp=-8V, RG1=RG2=100k,RDI RD2 3.3k2, Rs1=Rs2=100, R₁=10k2, RL=100k 2. Assume Forward Active Region. Hint: For AC smallsignal analysis, treat all caps as shorts.Rp2C₁RoProbeO-ScopeC₂C₁+R₁ Vout+15-1515RG1RG2Probe GNDA00Rs1A01Rs2AGNDAGNDAGNDR₁Figure 15: Differential Amplifier Using Discrete Components

Step 1: Step 2: Step 3: Step 4:

Answered: Differential Amplifier For the circuit…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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please show step by step working for this question with circuit diagrams if possible so I can understand the circuit better thank you.(please handwrite the solutions)
4) Consider the clamping circuit below, assume Vref=3 V and Vin=5sin(wt) ..Draw the output voltage waveform. Clearly mark the max and min of the voltage.. Vref
3) Consider the Zener-diode voltage regulator shown below. Suppose you design this circuit to drive (supply) a load resistance RL. The supply voltages to the op-amp are +15 V and -15 V (not shown). a) What is Vout? b) If R = 1 k 2, what is the smallest R, that the circuit can handle without "sagging" the output voltage? c) What should be the power rating of the resistor R? Be explicit about your assumptions. +15 V R Vout IN4738 CS Scanned with CaScanner
The term duty cycle refers to the amount of time a signal is complete cycle. A. off compared to the period of one B. on The output voltage of op-amp is positive saturation, when the voltage applied to the input is greater than the input. A. inverting B. noninverting A square wave that is 20V at its high state and OV when it is off will produce an average DC when its duty cycle is 75%. Formula: VOUT = Duty Cycle * Peak voltage voltage of A. 7.5V B. 10V C. 15V
+15 A00 AGND C₁ Ro C₂ Probe O-Scope + Rs. RG J1 R₁ Vout Figure 14: Common-Source Inverting Amplifier Probe GND
6) Consider the following multistage amplifier. Draw the corresponding small signal model. Label, Vin, Vo1 and Vo. Do NOT make any approximations. Do NOT perform small signal analysis with this model. Just draw the small signal model. Show your work! Vin Vcc malli Q1 Re1 Vo1 Vcc ww1. Rc2 Q2 Re2 Vo
circuits by using the small signal models of the transistor. Assume the Early voltage of the transistors are infinitely large. Calculate the small-signal input and output impedances of the following Vcc R1 R1 Rout VB RE Rin R2
A differential op-amp circuit as shown below is used to implement a given linear voltage measuring functionV = f(V,). ouf Provide answers to questions 19 – 22. ww V. V; W R out R2 Ground
4. Assume the following data from the Zener diode datasheet: Zener knee current =0.25mA, Zener Max Current=100mA, and max de power dissipation = 1 W, and regulated output voltage = 7.5 V. For the circuit below answer the following questions (a-b): V2 R1 www 1kQ Fig. 3 D2 R2 6 1.
Explain this single pole gain of opamp diagram?
1. The DC-DC converter has several circuit configurations. a) (Draw a simple connection of IGBT switch, diode and inductor that can discriminate between Buck, Boost and Buck-Boost converter circuits respectively.) b) ('A Boost converter produces an output voltage, Vo that is more than or equal to the input voltage, Vi. Based on this statement develop the equation for the relationship between Vo Viand D. where D represents the duty ratio. You can use any suitable diagram to illustrate your answer.)

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