10.37. The MOS differential pair of Fig. 10.24 must be designed for an equilibrium over drive of 200 mV. If μnCox = 100 μA/V2 and W/L = 20/0.18, what is the required value of ISS?
Implement the equation X = ((AB + CDE)F) + G using complementary CMOS. Size the device so that the output resistance is the same as that of an inverter with an NMOS W/L = 2 and PMOS W/L = 6. Show your work.
11.10.In Problem 11.9, derive the transfer function of the circuit, substitute s = jω, and obtain an expression for |Vout/Vin|. Determine the −3 dB bandwidth of the circuit.
Find the voltage gain for the following amplifier. The transistor parameters are kn′W/L = 1.2 mA/V2, VTH = 0.6 V. The circuit parameters are VDD = 12 V, R1 = 800 kΩ R2 = 200kΩ, RD =5.4 kΩ, and RS = Rsig = 0.5 kΩ.
For the amp in the figure, we assume that λ ≠ 0. a) Determine the AM mid-band gain b) Using Miller's theorem, determine the poles and then estimate the cut-off frequency wH c) Write the transfer function, T(jw) = Vout (jw)/Vin(jw), in the medium bands and high frequencies.