741 Op-Amp Model in proteus simulation

741 Op-Amp Model in proteus simulation

In this article we will learn how to make 741 Op-Amp model in proteus simulation.
In the last post we will learn how to Interface MC34063-3.6 Buck regulator in proteus. You can visit our website,
I hope you appreciate my work, let’s discuss about today’s project.

Components which we use in this project are listed below:

1. Battery (15v)
2. Resistor (10k)
3. IC (741 Op)
4. Jumper wires

Diagram of this project is below:

Construction of 741 Op-Amp(IC) Model in proteus simulation

• Connect one terminal of battery with the pin 7 of IC
• Connect 2^nd side of battery with the one side of 2^nd battery
• Connect 2^nd side of 2^nd battery with pin 4 of IC
• Connect +ve pin of IC with the one side of resistor
• Give input on 2^nd side of resistor
• Connect one side of 2^nd resistor with pin 2 of IC
• Connect 2^nd side of 2^nd resistor with the junction of both battery’s through GND
• Connect one side of 3^rd resistor with pin 2 of IC
• Connect 2^nd side of 3^rd resistor with pin 6 of IC
• Connect output at pin 6 of IC

Working of 741 Op-Amp(IC) Model in proteus simulation

The 741 operational amplifiers (op-amp) is a popular integrated circuit (IC) that is widely used in analog electronic circuits. It was one of the first general-purpose op-amps to be manufactured and has been a staple in electronics for many decades. The 741 op-amp is designed to amplify voltage signals and perform various analog signal processing functions.

Applications of 741 Op-Amp(IC) Model in proteus simulation

1. Amplification
2. Inverting Amplifier
3. Non-Inverting Amplifier
4. Oscillator Circuits

Advantages of 741 Op-Amp(IC) Model in proteus simulation

1. Low Cost
2. Stability
3. Compatibility
4. Ease of Use
5. General Purpose