In the circuit shown below, what is the minimum allowable value of V DD if M1 must not enter the triode region? Assume λ = 0. In the circuit shown below, what is the minimum allowable VDD value if M 1 should not enter the triode region ? Take λ = 0. Circuit parameters Rp =9002, μn Cox = 200 μA/V2, VTH = 0.4 V, W/L-10/0.18, VG = 1 V VG 44. T RD . VDD O a. 2,880 V O b. 2,160V O c. 3.360V OD. 2,400 V O to. 3.120V O f. 1,920 V O g. 2,640 V Oh. 2,040 V

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In the circuit shown below, what is the minimum allowable value of V DD if M1 must not enter the triode region? Assume λ = 0.
In the circuit shown below, what is the minimum allowable VDD value if M 1 should not enter the triode region ? Take λ = 0.
Circuit parameters
Rp=900 2,μn Cox = 200 μA/V2, VTH = 0.4 V, W/L-10/0.18, VG = 1 V
VG
4H.
RD
w
O a. 2,880 V
O b. 2,160V
O c. 3.360V
O D. 2,400 V
O to. 3.120V
O f. 1,920 V
O g. 2,640 V
O h. 2,040 V
Transcribed Image Text:In the circuit shown below, what is the minimum allowable value of V DD if M1 must not enter the triode region? Assume λ = 0. In the circuit shown below, what is the minimum allowable VDD value if M 1 should not enter the triode region ? Take λ = 0. Circuit parameters Rp=900 2,μn Cox = 200 μA/V2, VTH = 0.4 V, W/L-10/0.18, VG = 1 V VG 4H. RD w O a. 2,880 V O b. 2,160V O c. 3.360V O D. 2,400 V O to. 3.120V O f. 1,920 V O g. 2,640 V O h. 2,040 V
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