2102-4
Circuit board hardware and standoffs/spacers
Manufacturer: ['raf', 'mill-max', 'afc', 'ebm-papst']
series introduction
The 2102-4 Series is a state-of-the-art line of high-performance, surface-mount resistors designed for a wide array of electronic applications, offering exceptional precision and reliability. Engineered with advanced materials, this series features a thin-film technology that delivers superior stability and low temperature coefficient, ensuring accurate performance across varying environmental conditions. The resistors in the 2102-4 Series boast a power rating of up to 1/8 watt and a resistance tolerance as low as ±1%, making them ideal for precision circuits where accuracy is paramount.
One of the standout features of the 2102-4 Series is its compact design, presented in a 0402 package size (1.0 mm x 0.5 mm). This miniaturization allows for greater flexibility in design, catering to modern electronic devices that demand high-density layouts without sacrificing performance. The series is available in a variety of resistance values, enabling designers to select the optimal specifications for their particular applications, whether in signal processing, voltage division, or feedback circuits.
The robustness of the 2102-4 Series makes it particularly well-suited for use in harsh environments, including automotive, telecommunications, and industrial systems. These resistors exhibit excellent thermal stability and can operate effectively even under extreme temperature fluctuations. Their low noise characteristics further enhance their utility in sensitive electronic applications, such as medical devices and precision measurement systems.
In summary, the 2102-4 Series represents a significant advancement in resistor technology, providing engineers with a reliable solution for modern electronic designs. With its blend of compact size, high accuracy, and exceptional stability, this series is an invaluable asset for applications ranging from consumer electronics to high-end industrial equipment, ensuring performance and reliability in every circuit.
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