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Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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**Specification Table for Operational Amplifiers**

This table compares various typical specifications of an Ideal Operational Amplifier (Op Amp) and the μA 741 Op Amp model.

| Specification                    | Ideal Op Amp       | μA 741           |
|----------------------------------|--------------------|------------------|
| **Input Resistance (Typical)**   |                    |                  |
| **Output Resistance (Typical)**  |                    |                  |
| **Voltage Gain (Typical)**       |                    |                  |
| **Bandwidth (Typical)**          |                    |                  |
| **Maximum power supply voltages**| XXXXXXXXXXXXXXXX   |                  |
| **Maximum short circuit current**| XXXXXXXXXXXXXXXX   |                  |

**Explanation:**

- **Input Resistance (Typical):** This is the typical input resistance value. The ideal Op Amp is typically characterized by an infinitely high input resistance.

- **Output Resistance (Typical):** This is the typical output resistance value. An ideal Op Amp would have zero output resistance.

- **Voltage Gain (Typical):** For an ideal Op Amp, the voltage gain is typically considered to be infinitely high.

- **Bandwidth (Typical):** An ideal frequency response (i.e., infinite bandwidth) is often attributed to ideal Op Amps.

- **Maximum Power Supply Voltages:** For an ideal Op Amp, there are no limitations on the supply voltages, hence marked with XXXXXXXXXXXXXXXX.

- **Maximum Short Circuit Current:** Similarly, an ideal Op Amp does not have a current limit, so it's marked with XXXXXXXXXXXXXXXX.

In comparison, the μA 741 Op Amp will have specific numerical values for these parameters, which define its real-world performance and limitations.
Transcribed Image Text:**Specification Table for Operational Amplifiers** This table compares various typical specifications of an Ideal Operational Amplifier (Op Amp) and the μA 741 Op Amp model. | Specification | Ideal Op Amp | μA 741 | |----------------------------------|--------------------|------------------| | **Input Resistance (Typical)** | | | | **Output Resistance (Typical)** | | | | **Voltage Gain (Typical)** | | | | **Bandwidth (Typical)** | | | | **Maximum power supply voltages**| XXXXXXXXXXXXXXXX | | | **Maximum short circuit current**| XXXXXXXXXXXXXXXX | | **Explanation:** - **Input Resistance (Typical):** This is the typical input resistance value. The ideal Op Amp is typically characterized by an infinitely high input resistance. - **Output Resistance (Typical):** This is the typical output resistance value. An ideal Op Amp would have zero output resistance. - **Voltage Gain (Typical):** For an ideal Op Amp, the voltage gain is typically considered to be infinitely high. - **Bandwidth (Typical):** An ideal frequency response (i.e., infinite bandwidth) is often attributed to ideal Op Amps. - **Maximum Power Supply Voltages:** For an ideal Op Amp, there are no limitations on the supply voltages, hence marked with XXXXXXXXXXXXXXXX. - **Maximum Short Circuit Current:** Similarly, an ideal Op Amp does not have a current limit, so it's marked with XXXXXXXXXXXXXXXX. In comparison, the μA 741 Op Amp will have specific numerical values for these parameters, which define its real-world performance and limitations.
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