Murata Electronics is a renowned global manufacturer of electronic components and solutions. With a rich history dating back to 1944, the company has established itself as a leading provider of advanced electronic products for a wide range of industries, including automotive, telecommunications, healthcare, and consumer electronics. Murata Electronics offers an extensive portfolio of electronic components, including capacitors, inductors, resistors, sensors, antennas, and RF modules. These components are known for their high quality, reliability, and performance, enabling customers to design and develop innovative and cutting-edge electronic devices and systems. Additionally, Murata Electronics provides comprehensive solutions and services that address various customer needs, such as wireless connectivity, power management, and sensor technologies. The company also focuses on sustainability, incorporating eco-friendly practices in its manufacturing processes and product designs. With a global presence and a commitment to technological advancement, Murata Electronics continues to be a trusted partner for companies seeking high-quality electronic components and solutions.
NTC thermistors, also known as Negative Temperature Coefficient thermistors, are specialized components designed to exhibit a change in resistance corresponding to variations in temperature. These devices demonstrate a negative coefficient behavior, meaning that their resistance diminishes as the temperature they are exposed to rises.
Commonly characterized by specific attributes, NTC thermistors are typically specified in terms of their base resistance value at a designated temperature, often set at 25°C. Additionally, they are defined by B values, which represent the performance curve illustrating the relationship between temperature and resistance, calibrated across two predetermined reference points.
This unique property of NTC thermistors makes them valuable for a wide array of temperature sensing and control applications. Their ability to accurately and responsively adjust resistance in accordance with temperature fluctuations enables their use in fields such as automotive, consumer electronics, and industrial equipment, where precise temperature monitoring and regulation are essential for optimal performance and safety.