3.35 For the transistor in the circuit in Figure P3.35, the parameters are 120 μA/V2, and W/L = 25. Determine VGs, ID, and VDs. Sketch the load line and plot the Q-point. VTN = 0.4 V, k D3.36

Determine VGS, ID,and VDS. Sketch the load line and plot the Q-point

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The image depicts an electrical circuit involving a power supply, resistors, and a transistor. Here is a detailed transcription of the circuit diagram: 1. **Power Supply:** - The circuit is powered by a +5V source connected at the top. 2. **Resistors:** - \(R_1\) is a resistor with a resistance of 14 kΩ connected in series on the left side of the circuit. - \(R_2\) is another resistor with a resistance of 6 kΩ placed vertically below \(R_1\). - \(R_D\) is a resistor with a resistance of 1.2 kΩ connected parallel to the transistor on the right side. - \(R_S\) is a resistor with a resistance of 0.5 kΩ connected below the transistor. 3. **Transistor:** - A transistor symbol is located between the two sides of the circuit, pointing horizontally. 4. **Ground:** - The bottom of the circuit is connected to the ground. This configuration suggests that the circuit is a basic analog electronic circuit, possibly used as an amplifier or a switching circuit. The resistors and transistor form part of a voltage divider network, guided by the 5V power supply, affecting the current and voltage across various parts of the circuit.

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**Transistor Circuit Analysis Problem** **Problem Statement:** For the transistor in the circuit in Figure P3.35, the parameters are given as: - \( V_{TN} = 0.4 \, \text{V} \) - \( k'_n = 120 \, \mu \text{A}/\text{V}^2 \) - \( W/L = 25 \) **Tasks:** 1. Determine \( V_{GS} \), \( I_D \), and \( V_{DS} \). 2. Sketch the load line and plot the Q-point. **Note:** Figure P3.35 referenced in the problem was not provided. This task involves calculating the gate-source voltage (\( V_{GS} \)), drain current (\( I_D \)), and drain-source voltage (\( V_{DS} \)) for a specified transistor circuit. Additionally, the load line should be sketched, and the Q-point, which represents the operating point of the transistor, should be plotted.