Answer Happy

Posted: **Thu Jul 14, 2022 12:08 pm**

a) R/ g * {(1 + gr)* R + R} || R * R / {(1/g || r) + R
b) R/ (1/g) * g * {(1 + gr)* R + R} || R * {(1/g || r) + R
c) R/ (1/g + R) * g * {(1 + gr)* R + R} || R * R / {(1/g || r) + 3R
d) {(R || 1/g || r) / (1/g + (R || 1/g || r)} * g * [{(1 + gr)* (R || 1/g || r) + (R || 1/g || r)} ||R] * R / {(1/g || r) + R

Answer Happy

If g is the transconductance, r is the resistance due to channel length modulation and if only M3 and M2 has channel len

If g is the transconductance, r is the resistance due to channel length modulation and if only M3 and M2 has channel len