QUESTION 5: Consider the differential amplifier in Figure P11.17 with parameters V = 5 V, V = -5 V, and Io = 0.8 mA.Neglect base currents and assume V₁ = ∞ for all transistors.The emitter currents can be written as I£1 = IS1 EXP(VBE1/VT) and I£2 = 152 EXP(VBE2/VT).If v₁ = v₂ = 0, Is1 = 2.3 x 10-¹5 A and Is2 = 2.2 x 10-¹5 A, determine (v01 - v0₂) for Rc₁ = 7.2 k and Rc2 = 7.9 kq.IE1 (mA)Format : 0.3093IE2 (mA)Format : 0.5634(V01 - V02) (V)Format: 0.5862V+R₁2₁Rc1VOIRc2OV022₂VFigure P11.17V₂24

Differential amplifier It is an electric circuit that amplifies the difference between two input…

QUESTION 5: Consider the differential amplifier in Figure P11.17 with parameters V = 5 V, V = -5 V, and Io = 0.8 mA. Neglect base currents and assume V₁ = ∞ for all transistors. The emitter currents can be written as IE1 = IS1 EXP(VBE1/VT) and IE2 = IS2 EXP(VBE2/VT). If v₁ = v₂ = 0, Is₁ = 2.3 x 10-15 A and Is2 = 2.2 x 10-¹5 A, determine (vo₁ - v0₂) for Rc₁ = 7.2 kN and Rc2 = 7.9 kq. IE1 (mA) Format: 0.3093 IE2 (mA) Format: 0.5634 (V01-V0₂) (V) Format: 0.5862 V+ R₁ RC Rc2 VOI V02 ww 2₂ Tos Figure P11.17 V2 24

QUESTION 5: Consider the differential amplifier in Figure P11.17 with parameters V = 5 V, V = -5 V, and Io = 0.8 mA. Neglect base currents and assume V₁ = ∞ for all transistors. The emitter currents can be written as IE1 = IS1 EXP(VBE1/VT) and IE2 = IS2 EXP(VBE2/VT). If v₁ = v₂ = 0, Is₁ = 2.3 x 10-15 A and Is2 = 2.2 x 10-¹5 A, determine (vo₁ - v0₂) for Rc₁ = 7.2 kN and Rc2 = 7.9 kq. IE1 (mA) Format: 0.3093 IE2 (mA) Format: 0.5634 (V01-V0₂) (V) Format: 0.5862 V+ R₁ RC Rc2 VOI V02 ww 2₂ Tos Figure P11.17 V2 24

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

The transistor parameters for the differential amplifier shown in Figure P11.32 are VT N = 0.5 V, k n = 80 µA/V2, W/L = 4, and λ = 0. (a) Find RD and IQ such that ID1 = ID2 = 80 µA and vO2 = 2 V when v1 = v2 = 0. (b) Draw the dc load line, and plot the Q-point for M2. (c) What is the maximum common-mode input voltage? Figure p11.32
Find the currents and the region of operation for each of the enhancement transistors shown in Figure P11.13 for Vin=0 and for Vin = 5 V. The transistors have |Vto|=1 V and K=0.2 mA/V2.
What change(s), if any, can be introduced into the circuit shown below for a) zero bias? b) depletion- mode bias? c) enhancement- mode bias?
Consider the common-source amplifier shown in Figure P11.50. The NMOS transistor has KP=50 μA/V2, L=5 μm, W=500 μm, Vto=1 V and rd=∞.a. Determine the values of IDQ, VDSQ and gm. b. Compute the voltage gain, input resistance, and output resistance, assuming that the coupling capacitors are short circuits for the ac signal. Repeat Problem P11.50 for an NMOS transistor having KP=50 μA/V2, W=600 μm, L=20 μm, Vto=2 V and rd=∞. Compare the gain with that attained in Problem P11.50.
Given that the enhancement transistor shown in Figure P11.14 has Vto=1 V and K=0.5 mA/V2. find the value of the resistance R.
The transistor parameters for the NMOS common source amplifier given in the figure are VTN = 1.0V, kn = 0.8mA / V2 and alpha = 0. Circuit parameters are VDD = 10V, RS = 0.8k, RD = 3K, R1 = 210K and R2 = 140k. Find the IDQ drain current and VDSQ drain-source voltage at the transistor's Q - operating point. Determine in which region the transistor is operating.
Q.1/ Figure below shows a CE power amplifier in which the collector resistor serves also as the load resistor. Assume DC=ac=100.a. Determines the dc Q-point (ICQ and VCEQ).b. Determine the voltage gain and the power gain.c. What changes would be necessary to convert the circuit to a pnp transistor with a positive supply? What advantage would this have?
Refer to the differential amplifier circuit shown below . Determine the quiescent DC voltage at the collector terminal of each transistor assuming VBE of two transistor are negligible. What will be the quiescent DC values if VBE is taken to be 0.7 V.
) Draw a system block diagram of the main parts that integrate a complete ECG amplifier system with driven-right-leg noise compensation provision, and real-time ECG display on a PC screen.
What are the values of Aυ, Rin, Rout, and Ai for the common-base stage as shown operating with IC = 35 μA, βo = 100, VA = 60 V, RI = 50 Ω,R4 = 100 kΩ and RL = 200 kΩ? (b) What are the values if RI is changed to 2.2 kΩ? (Ai = io/ii ). What is the small-signal limit for the value of υi in this circuit?
Derive the Avf, Rif, Rof, R’of for the circuit shown in figure . For each transistor the h-parameters, hie and hfe are equal.
Discuss in your own words the basic behavior of SCR using the two-transistor equivalentcircuit.