The op-amp in the given amplifying circuit is ideal.WR3W1,16+VinWR₁wwR₂•+RAIdealR5+VoutVin = 0.5 V,R1 = 1.5 kΩ, R2 = 13.5 kΩ, R3 = 8.0 kΩ, R4 = 24.0 ΚΩ, Rs = 27.0 ΚΩ1. Write all needed equations2. Find output voltage Vout3. Find the DC voltage gain of the amplifier, A=MoudVin4. What is the configuration of the amplifying circuit?Show all final numerical values with three significant digits.

Answered: Image /qna-images/answer/58897a5b-96cc-4534-9f89-9561b0397361.jpg

The op-amp in the given amplifying circuit is ideal. W R₁ + Vin R3 R₁ R₂ + Ideal W R5 + Vout Vin = 0.5 V, R₁ = 1.5 KQ, R₂ = 13.5 ΚΩ, R3 = 8.0 ΚΩ, R4 = 24.0 ΚΩ, Rs = 27.0 kΩ 1. Write all needed equations 2. Find output voltage Vout Mond 3. Find the DC voltage gain of the amplifier, A= Pis 4. What is the configuration of the amplifying circuit? Show all final numerical values with three significant digits.

The op-amp in the given amplifying circuit is ideal. W R₁ + Vin R3 R₁ R₂ + Ideal W R5 + Vout Vin = 0.5 V, R₁ = 1.5 KQ, R₂ = 13.5 ΚΩ, R3 = 8.0 ΚΩ, R4 = 24.0 ΚΩ, Rs = 27.0 kΩ 1. Write all needed equations 2. Find output voltage Vout Mond 3. Find the DC voltage gain of the amplifier, A= Pis 4. What is the configuration of the amplifying circuit? Show all final numerical values with three significant digits.

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

For the following zener clipper draw the output waveform Vz1 = 5V, Vz1 = 7V VK = 0.8v lkn ISV V₁₂ 5V 2, 72. -5V Q2 Determine The Output Waveform And Calculate The current and PIV 1kQ 1kQ 10 V 10 si www www Q. For the circuit shown in Figure below (1),find the maximum and minimum values of zener diod current. Live 5 ΚΩ www I IL 15 80-120 V 10 ΚΩ LIR 101 102 1015 S Ne 1 k0 www Iz 50 V U2 -ot V. Fumal inash
Determine Vo, for the circuits shown below. OPAMP is ideal.
Q. The IC used in OPAMP is LM 741. True False
Vdc please show the circuit in the figure as a Chaotic Oscillator. Show it using one of the simulation programs. You can make any changes you want. m
Design a R-2R Ladder DAC using a reference voltage of (1OV) and a full scale of the output analogue voltage is (9.9975585V). If the current pass through the LSB is 1mA.1- What will be the current pass through 3rd LSB, 5th LSB and MSB. 2- Determine the Vo for an input codes (101010101010), (000101001110) and (001110010111). 4 14bit, 1mA and 6.665v, 0.9215v, 3.234v O 12bit, 1mA and 6.665v, 0.815v, 2.234v O 12bit, 1mA and 5.565v, 1.815v, 2.534v 14bit, 1mA and 6.665v, 0.8345v, 3.234v
A silicon photodiode is connected to an op-amp as indicated. Under an illuminance of 500 lux, the photocurrent Ip is 80 nA. I R = 1MQ w out Write down the values of 11, 12 and Ip. From these values, deduce the output voltage. Briefly describe how this circuit works. c) Will this circuit work under sunlight? The illuminance of sunlight is about 100,000 lux. You may assume the photocurrent respond linearly with incident light flux, and the op-amp is powered between 9V alkaline cell. (i.e., V+ = 9V, V¯ at ground).
Determine the output signal for the op-amp circuit shown in figure below, given Rf1 = 10 km, Rf2 = 5 ΚΩ, R = 1 ΚΩ. . R₁12 R41 #.. www V01 V₁-W V₂ w R Vov 02
Vi is a sinusoid signal of 8 Vp-p and f = 1 kHz. Vref = 2 V and V1 = 5 V and V2 = -1V. Assume that V1 is connected to pin7 of op-amp 741 and V2 is connected to pin 4. The output Vo will be, * V1 Vo 741 Vret O A square wave of 6 Vp-p, 1 kHz A rectangular wave of 6 Vp-p, 1 kHz A triangular wave of 6 Vp-p, 1 kHz A sinusoid wave of 8 Vp-p, 1 kHz A rectangular wave of 4 Vp-p, 1 kHz A square wave of 8 Vp-p, 1 kHz A sawtooth wave of 6 Vp-p, 1 kHz O A sinusoid wave of 6 Vp-p, 1 kHz
Boost Converter Design A boost converter is required to have an output voltage of 8 V and supply a load current of 1 A. The input voltage varies from 2.7 to 4.2 V. A control circuit adjusts the duty ratio to keep the output voltage constant. Select the switching frequency. Determine a value for the inductor such that the variation in inductor current is no more than 40 percent of the average inductor current for all operating conditions. Determine a value of an ideal capacitor such that the output voltage ripple is no more than 2 percent. Determine the maximum capacitor equivalent series resistance for a 2 percent ripple.
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. The load is a resistance of 50 2. Assume ideal components for this design. VL ooooo ip - ^
Find the following: a. Voltage at Node 1 b. Voltage at Node 2 c. Output Voltage of OpAmp D. Effective Gain of the OpAmp Circuit E. Power(mW) delivered to 20k ohm Load.
Q1 Analyse the circuit shown in Figure Q1, (b) (i) Determine the output for each Op-Amp (Vo1, Vo2, Vo3 and Vo4). (ii) Draw all the waveforms based on the answer in part Q1(b)(i). R: R2 O Voi 10k2 56kN |+15V R3 R4 A1 Vo2 Vi + 10k2 68k2 C 1-15V 0.3 sin ot V |+15V +15V Vo3 Rs 1 Hz A2 33µF |+15V Vo4 |-15V АЗ 100k2 A4 -15V |-15V Figure Q1