MC 5P MFE series with various lengths
Manufacturer: molex
The 115021K02F Series is a cutting-edge line of precision resistors designed for high-performance applications, renowned for their exceptional accuracy, stability, and versatility. These resistors feature a robust construction utilizing a thin-film technology that ensures minimal temperature coefficient, allowing for precise resistance values with a low drift over a wide temperature range. With tolerance levels as low as ±0.1%, the 115021K02F Series is engineered to meet the stringent demands of modern electronic circuits where reliability and precision are paramount.
The design characteristics of the 115021K02F Series include a compact footprint and a low profile, making them ideal for integration into dense circuit layouts. Their surface-mount configuration allows for easy assembly and soldering, which is crucial in high-speed production environments. The series is available in a range of resistance values, enabling designers to select the optimal specifications for their unique applications without compromising on performance.
Suitable use cases for the 115021K02F Series span a diverse array of industries, including telecommunications, automotive, medical devices, and industrial automation. These resistors are particularly advantageous in applications requiring high-frequency response and minimal signal distortion, such as precision measurement instruments, data acquisition systems, and high-speed analog circuits. Furthermore, their robust thermal management capabilities allow them to function effectively in environments with fluctuating temperatures, making them well-suited for automotive and aerospace applications.
In summary, the 115021K02F Series stands out as a premium choice for engineers and designers seeking reliable, high-precision resistors. Their advanced thin-film technology, exceptional performance metrics, and versatile applications position them as an essential component in a wide range of electronic systems, ensuring consistent quality and accuracy in critical operational processes.