The P0G5AN-1-103K-T00 is a thermistor manufactured by Murata Electronics North America. It is a negative temperature coefficient (NTC) thermistor, meaning its resistance decreases as its temperature increases. This characteristic makes it suitable for temperature sensing, temperature compensation, and temperature control applications.

Applications:

• Temperature Sensing: Used in thermometers and other temperature measurement devices.
• Temperature Compensation: Compensates for temperature-induced variations in electronic circuits.
• Temperature Control: Used in thermostats and other temperature control systems.
• Inrush Current Limiting: Reduces inrush current in power supplies and other electronic devices.

Features:

• Negative Temperature Coefficient (NTC): Resistance decreases with increasing temperature.
• High Accuracy: Provides precise temperature measurement.
• Fast Response Time: Quickly responds to changes in temperature.
• Small Size: Allows for use in compact electronic devices.
• RoHS Compliant: Meets environmental standards for lead-free manufacturing.

Benefits:

• Accurate Temperature Measurement: Provides reliable temperature data.
• Stable Performance: Offers consistent performance over a wide temperature range.
• Compact Design: Enables integration into small electronic devices.
• Easy to Use: Simple to integrate into electronic circuits.
• Environmentally Friendly: Complies with RoHS regulations, reducing environmental impact.

Additional Details:

The P0G5AN-1-103K-T00 has a resistance of 10 kΩ at 25°C. Key specifications include its Beta value, which defines the relationship between resistance and temperature, tolerance, and operating temperature range. These parameters are essential for selecting the appropriate thermistor for a specific application. Datasheets provide detailed resistance vs. temperature curves and other electrical characteristics necessary for precise design and integration into electronic circuits. It's used in consumer electronics, industrial equipment and automotive applications.