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Design the common-source circuit shown below using an n-channel MOSFET with λ = 0. The quiescent values are to be IDQ = 6 mA, VGSQ = 2.8 V, and VDSQ = 10 V. The transconductance is gm = 2.2 mA/V. Let RL = 1kohm, Av = -1, and Rin = 100kohm. Find R1, R2, RS, RD, Kn, and VTN. D4.26 Design the common-source circuit in Figure P4.26 using an n-channel MOSFET with λ = 0. The quiescent values are to be IDQ = 6 mA, VGSQ = 2.8 V, and VDSQ = 10 V. The transconductance is gm = 2.2 mA/V. Let RL = 1kohm, Av = -1, and Rin = 100kohm. Find R1, R2, RS, RD, Kn, and VTN.

Design the common-source circuit shown below using an n-channel MOSFET with λ = 0. The quiescent values are to be IDQ = 6 mA, VGSQ = 2.8 V, and VDSQ = 10 V. The transconductance is gm = 2.2 mA/V. Let RL = 1kohm, Av = -1, and Rin = 100kohm. Find R1, R2, RS, RD, Kn, and VTN. D4.26 Design the common-source circuit in Figure P4.26 using an n-channel MOSFET with λ = 0. The quiescent values are to be IDQ = 6 mA, VGSQ = 2.8 V, and VDSQ = 10 V. The transconductance is gm = 2.2 mA/V. Let RL = 1kohm, Av = -1, and Rin = 100kohm. Find R1, R2, RS, RD, Kn, and VTN.

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Design the common-source circuit shown below using an n-channel MOSFET with λ = 0. The quiescent values are to be IDQ = 6 mA, VGSQ = 2.8 V, and VDSQ = 10 V. The transconductance is gm = 2.2 mA/V. Let RL = 1kohm, Av = -1, and Rin = 100kohm. Find R1, R2, RS, RD, Kn, and VTN. D4.26 Design the common-source circuit in Figure P4.26 using an n-channel MOSFET with λ = 0. The quiescent values are to be IDQ = 6 mA, VGSQ = 2.8 V, and VDSQ = 10 V. The transconductance is gm = 2.2 mA/V. Let RL = 1kohm, Av = -1, and Rin = 100kohm. Find R1, R2, RS, RD, Kn, and VTN.

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