Define the type of transistors and the region of operation (cut-off, linear, saturation) for each transistor. Assume V_dd = 3.3V and thresholds V_Tn = |V_Tp| = 1.4V . V_DSATn = |V_DSATp| = 1.0V . Explain your answer.

Transcribed Image Text:

**Problem Statement:** Define the type of transistors and the region of operation (cut-off, linear, saturation) for each transistor. Assume \( V_{dd} = 3.3V \) and thresholds \( V_{Tn} = |V_{Tp}| = 1.4V \). \( V_{DSATn} = |V_{DSATp}| = 1.0V \). Explain your answer. **Diagrams:** (a) A PMOS transistor with gate voltage at 1.5V, connected to a supply voltage of 3.3V. (b) A PMOS transistor with both source and drain connected to \( V_{dd} \) (3.3V), and a gate voltage of 2.0V. (c) An NMOS transistor where both drain and source are connected to \( V_{dd} \) (3.3V). (d) A PMOS transistor with both source and drain connected to \( V_{dd} \) (3.3V). **Analysis:** - **Diagram (a):** - PMOS transistor - Gate Voltage (\( V_G \)) = 1.5V - Source Voltage (\( V_S \)) = 3.3V - Voltage Difference (\( V_{SG} \)) = 3.3V - 1.5V = 1.8V - Threshold Voltage (\( |V_{Tp}| \)) = 1.4V - Since \( V_{SG} > |V_{Tp}| \), the transistor is **on**. - Assuming \( V_D = V_{dd} = 3.3V \), \( V_{SD} = 3.3V - 3.3V = 0V \). - The PMOS is in **cut-off region** due to zero \( V_{SD} \). - **Diagram (b):** - PMOS transistor - Gate Voltage (\( V_G \)) = 2.0V - Source Voltage (\( V_S \)) = 3.3V - Voltage Difference (\( V_{SG} \)) = 3.3V - 2.0V = 1.3V - Threshold Voltage (\( |V_{Tp}| \)) = 1.4V