Find the DC value of the output voltage for V 0V and V-5V + SV 1004 -SP

Introductory Circuit Analysis (13th Edition)
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**MOSFET Parameters Table**

This table presents key parameters for NMOS and PMOS transistors along with their respective units. 

| MOSFET Parameter | NMOS | PMOS | Units     |
|------------------|------|------|-----------|
| \( K \) or \( K' \)       | 24   | 8    | µA/V\(^2\) |
| \( V_{T0} \)              | 0.75 | -0.75 | V         |
| \( \gamma \)             | 0.8  | 0.4  | V\(^{1/2}\) |
| \( \phi \)                | 0.6  | 0.6  | V         |
| \( \lambda \)            | 0.01 | 0.02 | V\(^{-1}\) |

- **\( K \) or \( K' \):** The transconductance parameter measured in microamperes per volt squared (µA/V\(^2\)).
- **\( V_{T0} \):** The threshold voltage, given in volts (V).
- **\( \gamma \):** The body effect coefficient, measured in volts to the power of one half (V\(^{1/2}\)).
- **\( \phi \):** The surface potential, denoted in volts (V).
- **\( \lambda \):** The channel-length modulation parameter, quantified in per volt (V\(^{-1}\)).
Transcribed Image Text:**MOSFET Parameters Table** This table presents key parameters for NMOS and PMOS transistors along with their respective units. | MOSFET Parameter | NMOS | PMOS | Units | |------------------|------|------|-----------| | \( K \) or \( K' \) | 24 | 8 | µA/V\(^2\) | | \( V_{T0} \) | 0.75 | -0.75 | V | | \( \gamma \) | 0.8 | 0.4 | V\(^{1/2}\) | | \( \phi \) | 0.6 | 0.6 | V | | \( \lambda \) | 0.01 | 0.02 | V\(^{-1}\) | - **\( K \) or \( K' \):** The transconductance parameter measured in microamperes per volt squared (µA/V\(^2\)). - **\( V_{T0} \):** The threshold voltage, given in volts (V). - **\( \gamma \):** The body effect coefficient, measured in volts to the power of one half (V\(^{1/2}\)). - **\( \phi \):** The surface potential, denoted in volts (V). - **\( \lambda \):** The channel-length modulation parameter, quantified in per volt (V\(^{-1}\)).
## Problem #5

**1. Find the DC value of the output voltage for \( V_{in}=0V \) and \( V_{in}=5V \)**

### Circuit Diagram:
- A MOSFET transistor \( M_1 \) is depicted with its gate connected to \( V_{in} \).
- The drain is connected to \( +5V \).
- The source is connected to a current source providing \( 100 \mu A \), whose other terminal is connected to \( -5V \).
- The output voltage is labeled as \( V_{out} \) from the source terminal.

**2. What is the minimum value of \( V_{AB} \) for which this MOS is saturated?**

### Circuit Diagram:
- Another MOSFET transistor \( M_2 \) is depicted.
- The drain terminal is labeled \( A \), which is connected to a voltage source of \( 2V \).
- The source terminal is labeled \( B \).

**Instructions:**
- Clearly identify types of transistors, drain and source terminals.
- Calculate with and without body bias. 

This problem involves analyzing the behavior of two MOSFET circuits under specified voltage conditions, identifying the operation regions, and calculating output voltages while considering body bias effects.
Transcribed Image Text:## Problem #5 **1. Find the DC value of the output voltage for \( V_{in}=0V \) and \( V_{in}=5V \)** ### Circuit Diagram: - A MOSFET transistor \( M_1 \) is depicted with its gate connected to \( V_{in} \). - The drain is connected to \( +5V \). - The source is connected to a current source providing \( 100 \mu A \), whose other terminal is connected to \( -5V \). - The output voltage is labeled as \( V_{out} \) from the source terminal. **2. What is the minimum value of \( V_{AB} \) for which this MOS is saturated?** ### Circuit Diagram: - Another MOSFET transistor \( M_2 \) is depicted. - The drain terminal is labeled \( A \), which is connected to a voltage source of \( 2V \). - The source terminal is labeled \( B \). **Instructions:** - Clearly identify types of transistors, drain and source terminals. - Calculate with and without body bias. This problem involves analyzing the behavior of two MOSFET circuits under specified voltage conditions, identifying the operation regions, and calculating output voltages while considering body bias effects.
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