We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding

We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding

We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding

We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding

We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding

We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding

We identify M1 as a common-source device because it senses the input at its gate and generatesthe output at its drain. Transistors M2 and M3 therefore act as the load, with the former servingas a current source and the latter as a diode-connected device. Thus, M2 can be replaced witha small-signal resistance equal to rO2, and M3 with another equal to (1=gm3)jjrO3. The circuitnow reduces to that depicted in Fig. 7.34(b), yielding