1. Discuss the common source characteristics of the n-channel FET used. 2. From the characteristics, obtain the following parameters, Ipss, gm and Vp. 54 Exp.No. (8): Field Effect Transistor Characteristics 3. Check equation (1) for VGs = (-0.4), (-0.8) V. %3D
1. Discuss the common source characteristics of the n-channel FET used. 2. From the characteristics, obtain the following parameters, Ipss, gm and Vp. 54 Exp.No. (8): Field Effect Transistor Characteristics 3. Check equation (1) for VGs = (-0.4), (-0.8) V. %3D
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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1. Discuss the common source characteristics of the n-channel FET used. 2. From the characteristics, obtain the following parameters, Ipss, gn and V. 54 Exp.No. (8): Field Effect Transistor Characteristics 3. Check equation (1) for Vgs = (-0.4), (-0.8) V. 4. Deduce equation (2) from the definition of g,, and using equation (1). 5. Obtain the value of g, of the point Vgs = - 0.8V from the transfer characteristics, then check equations (2) and (3).
Transcribed Image Text:1. Discuss the common source characteristics of the n-channel FET used.
2. From the characteristics, obtain the following parameters, Ipss, gm and Vp.
54
Exp.No. (8): Field Effect Transistor Characteristics
3. Check equation (1) for VGs = (-0.4), (-0.8) V.
4. Deduce equation (2) from the definition of gm and using equation (1).
5.
Obtain the value of gm of the point VGS
0.8V from the transfer
characteristics, then check equations (2) and (3).
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