VDD VDD Cc2 o ve RG Figure P4.43 Figure P4.44 4.44 The transistor in the circuit in Figure P4.44 has parameters VTN = 0.4 V, K, = 0.5 mA/V², and 2 = 0. The circuit parameters are Vpp = 3 V and R; = 300 k2. (a) Design the circuit such that Ipo = 0.25 mA and VpsQ = 1.5 V. (b) Determine the small-signal voltage gain and the output resistance R,. ww ww ww ww

Transcribed Image Text:

**Transcription for Educational Website** **Figures and Description:** - **Figure P4.43:** - This schematic shows a basic amplifier circuit with the following components: - An input voltage source \( v_i \). - A coupling capacitor \( C_{C1} \) connected to the gate of a transistor. - A gate resistor \( R_G \). - A drain resistor \( R_D \). - A source resistor \( R_S \). - A load resistor \( R_L \) connected at the output. - An output voltage \( v_o \). - **Figure P4.44:** - This circuit diagram displays a more complex amplifier configuration: - An input voltage source \( v_i \). - A coupling capacitor \( C_{C1} \) at the gate. - A gate resistor \( R_G \). - A drain resistor \( R_1 \). - A transistor receiving power from \( V_{DD} \). - A resistor \( R_s \) connected from source to ground. - An output voltage \( v_o \) connected with a load represented by \( R_o \). **Problem Statement 4.44:** The transistor in the circuit in Figure P4.44 has the following parameters: - \( V_{TN} = 0.4 \text{ V} \) - \( K_n = 0.5 \text{ mA/V}^2 \) - \( \lambda = 0 \) The circuit parameters are: - \( V_{DD} = 3 \text{ V} \) - \( R_1 = 300 \text{ k}\Omega \) **Tasks:** (a) Design the circuit such that: - \( I_{DQ} = 0.25 \text{ mA} \) - \( V_{DSQ} = 1.5 \text{ V} \) (b) Determine the small-signal voltage gain and the output resistance \( R_o \).