2. Perform the following steps for the given circuit.RD = 2.2k2, Rs = 1.1kQ, RG1 = 910Ok2, RG2 = 110k2,+VDDVDD = +20V, IDSS = 10mA, VP = -3. 5Va) Calculate the ID current, VDS and VGS voltage of the circuit.b) Calculate the required Rs value to make the VGS = -2V.c) Calculate the required RD value to make the VDS = 12V.d) Calculate and analyze the ID current if Rs = 7502.e) Calculate the Vs voltage of the circuit, if the value of IDSS=16mA, VP =-3.5V.RDRG1VDsVsRG2Rs

Answered: Image /qna-images/answer/6e1876d2-38fe-415b-97a6-c1fb905064f8.jpg

Answered: 2. Perform the following steps for the…

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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tetake question VG1 Answer VDD 3Vdc Bout ↓ M1 Rload Vout CMOSN The n-MOSFET current source in Figure 1 (also known as the current sink) operates with a fixed gate-to-source DC voltage VG1. The MOSFET design parameters are W=30 um and L= 0.5 um. The voltage drop across the load Vout can vary due change of load resistance however the MOSFET always operates in the saturation mode: Vout is greater than the overdrive voltage. Estimate the value of the bias voltage VG1 in Volts required for the current source value of 50 uA. Assume that n-MOSFET is an enhancement-mode device fabricated with the standard process parameters: Vtn = 0.7V, kn' =200 uA/V². Neglect the Early effect on the drain current. Your Answer:
Calculate the drain current for a p-channel JFET described by IDSS = 2.5 mAand VP = 4 V and operating with VGS = 3 V and VDS = −3 V. What is the minimum drainsource voltage required to pinch off the JFET? (b) Repeat for VGS = 1 V and VDS = −6 V.(c) Repeat for VGS = 2 V and VDS = −0.5 V
Vcc Vcc Vcc Problem #3 - npn transistor - DC Analysis – CV model Assume that Q1 and Q2 are both operating in forward-active. Ry VA Do NOT assume that they are identical. Keep all subscripts! Ri a) Solve for an expression for VX. Assume finite ß. b) Solve for an expression for VA in terms of VX Rz Vx (just in case you get the first part wrong). Assume finite В. IB R3

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