1 solve 1. Consider the linear source follower circuit below. Let VTH = 4 V, k =1 mAy24/vaand VDp = 20 V.VdDIf Ip2= 2 mA,What is the mode of operation of M2?b. Determine Vcs1 and VGs2·100a.VioWM1500GUIDE Formulas for the value of Ip.Ip = k(Vcs – VTH - D5)VpsFor N-channel MOSFET(NMOS) (Linear):500kFor Saturation ModeMOSFET Model:In =5 (Vcs – VrH)²For Linear RegionMOSFET ModelVDs1M2I, = k (Vcs - VTh)Vps –

1. Consider the linear source follower circuit below. Let VrH = 4 V, k = 1 MA/v2 and VpD = 20 V. VDD If Ip2 = 2 mA, 100 What is the mode of operation of M2? b. Determine VGs1 and VGs2· а. M1 500 GUIDE Formulas for the value of ID. Ip = k(Vcs – Vrh – VDs For N-channel MOSFET (NMOS) (Linear): 500 k In = 5 (Vas – VrH)? For Saturation Mode MOSFET Model: For Linear Region MOSFET Model Vps I, = k (VGs - Vrh)Vps M2 2

1. Consider the linear source follower circuit below. Let VrH = 4 V, k = 1 MA/v2 and VpD = 20 V. VDD If Ip2 = 2 mA, 100 What is the mode of operation of M2? b. Determine VGs1 and VGs2· а. M1 500 GUIDE Formulas for the value of ID. Ip = k(Vcs – Vrh – VDs For N-channel MOSFET (NMOS) (Linear): 500 k In = 5 (Vas – VrH)? For Saturation Mode MOSFET Model: For Linear Region MOSFET Model Vps I, = k (VGs - Vrh)Vps M2 2

Physics for Scientists and Engineers, Technology Update (No access codes included)

9th Edition

ISBN:9781305116399

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter33: Alternating Current Circuits

Section: Chapter Questions

Problem 33.4OQ

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