Q: Given gis 3.8 mS, gos = 20 mS, RD =2k2, Rs 1k, RG IMS, IDss= 10mA. Vp-8V, VDD-20V. k = 0.24 * 10-3 A/V2, VGSQ=6.4 V, IDQ=2.75 mA, ID(on) =6 mA, VGS(Th)=3 V and VGS(on) = 8 V. Determine Zi, Zo, Av, phase shift and Vo if Vi = 20 mV 1. Common-gate configuration. 2. Source-follower (common-drain) configuration. 3. E-MOSFET drain-feedback configuration. 4. Cascade configuration 2 fixed-bias configuration.

Refrigeration and Air Conditioning Technology (MindTap Course List)
8th Edition
ISBN:9781305578296
Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Chapter42: Heat Gains And Heat Losses In Structures
Section: Chapter Questions
Problem 6RQ: The typical indoor design temperature used for heat gaincalculations is A. 65F. B.70 F. C.75 F. D....
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Q: Given gis 3.8 mS, gos = 20 mS, RD =2k2, Rs 1k, RG IMS, IDss= 10mA.
Vp-8V, VDD-20V. k = 0.24 * 10-3 A/V2, VGSQ=6.4 V, IDQ=2.75 mA, ID(on)
=6 mA, VGS(Th)=3 V and VGS(on) = 8 V. Determine Zi, Zo, Av, phase shift and
Vo if Vi = 20 mV
1. Common-gate configuration.
2. Source-follower (common-drain) configuration.
3. E-MOSFET drain-feedback configuration.
4. Cascade configuration 2 fixed-bias configuration.
Transcribed Image Text:Q: Given gis 3.8 mS, gos = 20 mS, RD =2k2, Rs 1k, RG IMS, IDss= 10mA. Vp-8V, VDD-20V. k = 0.24 * 10-3 A/V2, VGSQ=6.4 V, IDQ=2.75 mA, ID(on) =6 mA, VGS(Th)=3 V and VGS(on) = 8 V. Determine Zi, Zo, Av, phase shift and Vo if Vi = 20 mV 1. Common-gate configuration. 2. Source-follower (common-drain) configuration. 3. E-MOSFET drain-feedback configuration. 4. Cascade configuration 2 fixed-bias configuration.
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