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

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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VR2 (t) voltage will be calculated by analyzing the circuit in Figure 2 with a non-linear element using the Small Signal Analysis method. For this purposea) Find the operating point VkQ, IkQ voltage and current values of the nonlinear element.b) Linearize the non-linear element at the operating point.c) Find the voltage VR2 (t) by calculating the effect of the variable source using the linear model.
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Given the differential amplifier circuit below. Determine the following: emitter current, differential mode voltage gain, common mode voltage gain and CMRR.
A) Design with drawing an Op-Amp series voltage regulator to give a regulated O/P voltage of 12V for an I/P of 15V B) Calculate the line regulation if the I/p increases to 4V leads to increase the O/P voltage to 0.02V.
What is an A/D converter with Voltage-to-Frequency Conversion (VFC)? What is the working principle?
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
3I Calculate the the Output Voltage of a non-inverting op-amp with the following parameters Rf = 360KOhms, Vo = -9.3V, and Vi = -0.3V. a.31.2 kOhms b.32 kOhms c.12 kOhms d.31 kOHms
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
For DAC with resolution of 0.16 volt and to full scale reading of 10 voltages: Design suitable Binary Weighted Resistor DAC and sketch the circuit Design R-2nR DAC and sketch the circuit Calculate the input digital signal and the related output signal at 25% intervals of the full scale voltage value. Calculate the voltage at the ladder points. Put the result fo your calculation in a i. ii. iii. iv. table.
Table Q2 shows the datasheet comprising the parameters of a practicalop-amp. Please answer the following questions with reference to the data inTable Q2. Determine the full-power bandwidth for a 10-V output. Using the typical values from Table Q2, find the magnitude of thecommon-mode gain, Acm.
The Current amplification factor is______________

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