🔧 To create and simulate an Arduino ohm meter using Proteus, you will need a 5V DC input as a power supply.
📟 An Arduino Uno R3, an open-source microcontroller board, is required for this project.
🖥️ An LCD display (LM016L) is necessary to display the outputs of the ohm meter.
🔍 The experiment is to measure the unknown resistance using an Arduino-based resistance/ohm meter.
💡 To measure the resistance, a potential potentiometer is used as the unknown resistance, and a known resistor is also needed.
⚡ The resistance is measured using a voltage divider network with the known and unknown resistors.
The video discusses an Arduino-based resistance/ohm meter using Proteus.
The voltage divided network equation is used to calculate the unknown resistance.
The Arduino code includes the liquid crystal display library and initializes the pins.
💡 The video demonstrates how to create an Arduino-based resistance/ohm meter using Proteus.
🔧 The Arduino is interfaced with an LED and the ohmmeter is displayed to show the experiment.
📏 The unknown resistance value is calculated using the analog pin voltage and displayed in real-time.
👉 The video demonstrates the use of an Arduino-based resistance/ohm meter.
🔍 The resistance values displayed by the meter are accurate and responsive to changes in a potentiometer.
✅ The Arduino resistance/ohm meter is shown to be functioning properly.
🎥 The video is about creating and simulating an Arduino-based ohmmeter using Proteus.
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