We wish to design the circuit shown below for a drain current of 2 mA. Compute R₁ such that the input impedance is 40 k. Assume À = 0. We want to design the circuit shown below to have a drain current of 2 mA. Calculate R₁ such that the input impedance is 40 k. Take λ = 0. Circuit parameters Un Cox = 200 μA/V2, VTH = 0.4V, W/L=20/0.18, V DD = 3.5 V VDD RD R₁ W-D M₁ HI O a. 135.9 kQ O b. 254.8kQ O c. 169.8 kQ O D. 186.8kQ Oto. 152.9kQ Of. 220.8 kQ Ο g. 237.8 ΚΩ Oh. 203.8 k

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We wish to design the circuit shown below for a drain current of 2 mA. Compute R₁ such that the input impedance is 40 k. Assume À = 0.
We want to design the circuit shown below to have a drain current of 2 mA. Calculate R 1 such that the input impedance is 40 kn. Take λ = 0.
Circuit parameters
Un Cox = 200 μA/V2, VTH = 0.4V, W/L=20/0.18, V DD = 3.5 V
VDD
RD
R₁
W-D
HM₁
HI
O a. 135.9 kQ
O b. 254.8kQ
O c. 169.8 kQ
OD. 186.8kQ
Oto. 152.9kQ
Of. 220.8 kQ
Ο g. 237.8 ΚΩ
© h. 203.8 ΚΩ
Transcribed Image Text:We wish to design the circuit shown below for a drain current of 2 mA. Compute R₁ such that the input impedance is 40 k. Assume À = 0. We want to design the circuit shown below to have a drain current of 2 mA. Calculate R 1 such that the input impedance is 40 kn. Take λ = 0. Circuit parameters Un Cox = 200 μA/V2, VTH = 0.4V, W/L=20/0.18, V DD = 3.5 V VDD RD R₁ W-D HM₁ HI O a. 135.9 kQ O b. 254.8kQ O c. 169.8 kQ OD. 186.8kQ Oto. 152.9kQ Of. 220.8 kQ Ο g. 237.8 ΚΩ © h. 203.8 ΚΩ
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