2. In figure given below, plot the drain current if V, varies from -0o to 0. Assume VTHO =0.6V, y = 0.4 V2, and 2$; = 0.7V. +1.2 V 2VO M1 Vx

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### Transcription of the Text and Explanation of the Diagram #### Text Transcription: 2. In the figure given below, plot the drain current if \( V_x \) varies from \(-\infty\) to 0. Assume \( V_{TH0} = 0.6 \, \text{V} \), \( \gamma = 0.4 \, \text{V}^{1/2} \), and \( 2\phi_F = 0.7 \, \text{V} \). #### Diagram Explanation: - The diagram shows an NMOS transistor configuration. - The transistor, labeled as \( M_1 \), has its source connected to ground. - The gate of the transistor is controlled by \( V_x \), which varies from \(-\infty\) to 0. - The drain of the transistor is connected to a +2 V voltage source. - There is a +1.2 V voltage applied at another connection to the transistor, likely at the gate or another node in the circuit. - The drain current, \( I_D \), is marked with an arrow flowing through the transistor. This configuration is used to analyze how the drain current \( I_D \) changes as the gate voltage \( V_x \) changes from \(-\infty\) to 0 while considering threshold voltage adjustments using parameters \( V_{TH0} \), \( \gamma \), and \( 2\phi_F \).