QUESTION 5: Figure 13.7 shows reference circuit and gain stage of 741 op-amp. Given that ß= 197 and IREF=0.771 mA and VBE=0.6 V. Q13B is 3/4 area of 212. Calculate 16 and 17. IC17 (mA) IC16 (μA) *πισ (ΚΩ) Υπ17 (ΚΩ) Format: 0.42427 Format: 99.077993675542 Format: 535.89738292404 Format: 4.9693302944884

QUESTION 5: Figure 13.7 shows reference circuit and gain stage of 741 op-amp. Given that ß= 197 and IREF=0.771 mA and VBE=0.6 V. Q13B is 3/4 area of 212. Calculate 16 and 17. IC17 (mA) IC16 (μA) *πισ (ΚΩ) Υπ17 (ΚΩ) Format: 0.42427 Format: 99.077993675542 Format: 535.89738292404 Format: 4.9693302944884

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

Q 1. Determine the output voltage of the Digital-to-Analog Converter (DAC) in Figure 1(a) and plot it in Figure 1(c). The sequence of the four digit binary codes represented by the waveforms in Figure 1(b) are applied to the inputs. A high level is a binary 1and a low level is a binary 0. The least significant binary digit is Do. Do o D₁ 0- 200 ΚΩ www D₂ 0 100 ΚΩ www 50 ΚΩ www 25 ΚΩ D3 0 M 0 -0.25 -0.50 -0.75 -1.00 -1.25 -1.50 -1.75 -2.00 -2.25 -2.50 -2.75 -3.00 -3.25 -3.50 -3.75 (a) Vout (V) R₁ 10 ΚΩ o Vout +5 V Do 0 +5 V D₁ 0 +5 V 0 +5 V 0 D₂ D3 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 non (c) Figure 1 I 0000 0001 0010 0011 0100 0101 0110 0111 1000 1001 1010 1011 1100 1101 1110 1111 ||||| (b) Binary input
if you design differentiator to differentiate input signal varies in frequency between 1 KHz and 20 KHz then find. Cutoff frequency=.......... 01000 O2000 03000 O4000
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
You are tasked to look for a converter circuit design that has the specifications tabulated in Table I. The aim is to produce an output voltage of 20 V which can be used to drive a load of 120 W. The converter must operate in CCM. Table I: Design Specifications Values 35 V Design Parameters Input voltage Switching frequency Output current ripple Output voltage ripple 60 kHz 5 % 1 % a) Sketch the final converter and label all parameter values
Solve for Op-Amp
3Z The most usual form of op-amp package a.type TO-5 metal cans b.integration packages c.dual in-line packages d.type TO-8 metal cans
An Op-amp has a slew rate of 5 V/microsec. The largest sine wave output voltage possible at a frequency of 1 MHz is ?
A three phase full converter is supplied by a phase voltage V5-120V, 50 Hz. The rectifier supplies a resistive load R=100 Q. Suppose that the average output voltage is 40 % of the maximum possible average output voltage. The delay angle a would be equal to: Select one: O a. 44.42deg O b. 88.42deg O c. 66.42deg O d. 22.42deg TOSHIBA
You are tasked to look for a converter circuit design that has the specifications tabulated in Table I. The aim is to produce an output voltage of 20 V which can be used to drive a load of 120 W. The converter must operate in CCM. Table I: Design Specifications Design Parameters Input voltage Switching frequency Output current ripple Output voltage ripple Values 35 V 60 kHz 5 % 1% a) Sketch the final converter and label all parameter values b) Sketch the final operating waveforms and label all parameter values c) Determine Ve.min and Vemax- Check if the output voltage ripple matches with the design requirement.
Determine the type of opamp circuit, the gain and the output voltage of the circuit for each of the operational amp circuits below
Properties of Op amp
Draw the block diagram of the demodulation process Of DSB-SC :- 1-Nonlinear Modulator 2-Switch Modulator (Ring Modulator & Diode-Bridge Modulator)