8007K23N
Illuminated rocker switches for electrical use
Manufacturer: ['eaton', 'culter-hammer']
series introduction
The 8007K23N Series is a premium line of precision resistors designed for high-performance electronic applications, characterized by their exceptional stability, reliability, and versatility. Engineered with advanced thin-film technology, these resistors deliver precise resistance values with tolerances as low as ±0.1% and a temperature coefficient of resistance (TCR) typically around ±10 ppm/°C. This level of accuracy makes the 8007K23N Series ideal for applications requiring meticulous signal integrity, such as in measurement and instrumentation devices.
The design of the 8007K23N Series emphasizes compactness and efficiency, featuring a robust construction that allows for excellent heat dissipation and minimal parasitic effects. Available in standard surface-mount configurations, these resistors are optimized for automated assembly processes, facilitating seamless integration into a variety of circuit layouts. Their small footprint enables usage in space-constrained environments, making them a preferred choice for high-density circuit boards in modern electronic devices.
Suitable use cases for the 8007K23N Series span across a broad spectrum of industries, including telecommunications, automotive, consumer electronics, and industrial automation. Their high precision and low noise characteristics make them particularly well-suited for applications in analog signal processing, high-frequency circuits, and precision measurement systems. Whether used in feedback loops, voltage dividers, or current sensing applications, these resistors ensure optimal performance and reliability.
In summary, the 8007K23N Series stands out as a top-tier solution for engineers seeking precision and dependability in resistor technology. With their superior performance metrics, compact design, and broad applicability, these resistors are poised to meet the demands of cutting-edge electronic applications, providing designers with the confidence that their systems will operate consistently and efficiently under varying conditions.
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