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Consider the circuit shown in the figure. The PMOS has Vtp = −0.7 V and a very large |VA|. The value of RS is selected such that the transistor is biased at ID = 0.4 mA and |VOV| = 0.4 V. Assume vsig to have a zero dc component. Capacitors CS and CC have large values and can be considered as short circuit for all signal frequencies of interest. Determine the value of RD that results in Gv = vo/vsig = −12 V/V. Determine the value of RD that results in vo/vsig = −12 V/V. Express your answer in kΩ. Type in the numerical value of RD without the unit.

Consider the circuit shown in the figure. The PMOS has Vtp = −0.7 V and a very large |VA|. The value of RS is selected such that the transistor is biased at ID = 0.4 mA and |VOV| = 0.4 V. Assume vsig to have a zero dc component. Capacitors CS and CC have large values and can be considered as short circuit for all signal frequencies of interest. Determine the value of RD that results in Gv = vo/vsig = −12 V/V. Determine the value of RD that results in vo/vsig = −12 V/V. Express your answer in kΩ. Type in the numerical value of RD without the unit.

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Consider the circuit shown in the figure. The PMOS has V t p = 0.7 V and a very large | V A | . The value of R S is selected such that the transistor is biased at I D = 0.4 m A and | V O V | = 0.4 V . Assume v sig to have a zero dc component. Capacitors C S and C C have large values and can be considered as short circuit for all signal frequencies of interest. Determine the value of R D that results in G v = v o / v s i g = 12 V / V .
Determine the value of R D that results in v o / v sig = 12 V / V . Express your answer in k Ω . Type in the numerical value of R D without the unit.

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