For the transistor circuit below, with V=8V, R= 1kN, R, = 3MQ,R, 5MO. V|=1V. K = ImA/V. 2-0.7-0: %D R. R 7, 9, 2] 0 1 2 3 4 5 6 7 8 9 2 3 45 67 8 9 ) Draw four IV-curves for VGs = 1,2,3,4,5 V ) On the left gran find the Q-point of the transistor by using graphical load line analysis OWith this Q-point, determine if the transistor operates as amplifier or as a switch (explain). O On the right graph, build the VTC of the transistor in this circuit using the IV curves and load line on e left plot, and indicate Q-point there. 1 2 3 4 5 67 8 9 12 3 4 5

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**Understanding Transistor Circuit Analysis** For the transistor circuit below, with \( V_s = 8V \), \( R = 1k\Omega \), \( R_1 = 3M\Omega \), \( R_2 = 5M\Omega \), \( |V_T| = 1V \), \( K = 1mA / V^2 \), \( \lambda = 0 \), \( \gamma = 0 \): ### Circuit Diagram: [Include image or detailed diagram] ### Task Instructions: 1. **Draw Four I-V Curves for \( V_{GS} = 1, 2, 3, 4, 5 V \):** - Using the provided parameters, plot the I-V characteristics of the transistor at various gate-source voltages. 2. **Determine the Q-point on the Left Graph:** - Employ graphical load line analysis to find the Q-point of the transistor. - The Q-point, or Quiescent Point, represents the DC operating point of the transistor. 3. **Assess the Transistor's Operation Mode:** - Utilize the determined Q-point to analyze whether the transistor functions as an amplifier or a switch. - Provide an explanation based on the operation region of the transistor. 4. **Build the VTC on the Right Graph:** - Using the I-V curves from the left graph, construct the Voltage Transfer Characteristic (VTC) curve of the transistor. - Indicate the Q-point on this curve. ### Graph Explanation: **Left Graph:** - This graph is a standard I-V characteristic plot with the x-axis representing the drain-source voltage (\( V_{DS} \)) and the y-axis representing the drain current (\( I_D \)). - The curves on this plot will show how the drain current varies with changes in drain-source voltage at different gate-source voltages. **Right Graph:** - This graph will be used to plot the Voltage Transfer Characteristic (VTC) curve. - The x-axis represents the input voltage (\( V_{in} \)) and the y-axis represents the output voltage (\( V_{out} \)). - The VTC curve is essential in understanding the input-output relationship of the transistor in the circuit. ### Steps to Follow: 1. **I-V Curves Plotting:** - Use the equation of the transistor's I-V characteristic to plot several curves for