Consider the circuit shown in Figure P3.33. The transistor parameters are VTN = 0.4 V and k, = 120 µA/V². The voltage drop across Rs is to be 0.20 V. Design the transistor W/L ratio such that Vps = Vps (sat) +0.4 V, and determine R¡ and R2 such that Rin = 200 k2.
Consider the circuit shown in Figure P3.33. The transistor parameters are VTN = 0.4 V and k, = 120 µA/V². The voltage drop across Rs is to be 0.20 V. Design the transistor W/L ratio such that Vps = Vps (sat) +0.4 V, and determine R¡ and R2 such that Rin = 200 k2.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Consider the circuit shown in Figure P3.33. The transistor parameters are
VTN = 0.4 V and k, = 120 µA/V². The voltage drop across Rs is to be
0.20 V. Design the transistor W/L ratio such that Vps = Vps (sat) +0.4 V,
and determine R¡ and R2 such that Rin = 200 k2.
Transcribed Image Text:VDD= 1.8 V
Rp=
4 k2
R1
in |
Rs=
1 k2
R2
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