The RVG4J03-201VM-TC is a thermistor produced by Murata Electronics North America. It is designed for temperature sensing and compensation in various electronic applications. This component provides accurate temperature readings and contributes to the overall efficiency and stability of electronic systems. Its compact size and reliable performance make it a valuable choice for applications where temperature monitoring and control are critical.

Applications

• Temperature compensation in electronic circuits
• Temperature sensing in automotive applications
• Temperature monitoring in industrial equipment
• Temperature control in consumer electronics
• Overheat protection in power supplies

Features

• High accuracy temperature sensing
• Excellent temperature sensitivity
• Compact size for space-saving designs
• Wide operating temperature range
• Fast response time to temperature changes
• Highly stable and reliable performance
• Tape and reel packaging for automated assembly

Benefits

• Precise temperature control for improved system performance
• Reliable temperature sensing ensures accurate readings
• Compact design allows for integration into small devices
• Wide temperature range enables use in diverse environments
• Fast response time facilitates real-time temperature adjustments
• Durable construction ensures long-term operational stability
• Automated assembly reduces manufacturing costs

Additional Details

The RVG4J03-201VM-TC is an NTC (Negative Temperature Coefficient) thermistor, indicating that its resistance decreases as the temperature increases. It has a resistance value of 200 ohms at 25°C. The TC suffix indicates that it is supplied on tape and reel, making it suitable for automated assembly processes. This thermistor is optimized for applications that require a high degree of temperature sensing accuracy and stability. The device's B-constant and tolerance are key parameters for its performance, ensuring stable and accurate temperature sensing. It is commonly used to protect circuits from overheating and to ensure optimal performance across different operating temperatures.