Product series with codes starting 10-524559
Manufacturer: amphenol
The 10-524559 Series is an advanced line of high-precision resistors designed for applications requiring exceptional accuracy and stability. These resistors are built using a thin-film technology that provides a high degree of precision, with tolerances as low as ±0.1% and a temperature coefficient of resistance (TCR) as low as ±10 ppm/°C. This ensures that the resistors maintain their specified values over a wide range of temperatures, making them ideal for use in environments where temperature fluctuations could affect circuit performance.
One of the standout features of the 10-524559 Series is its robust design, which includes a high-quality ceramic substrate that enhances thermal stability and minimizes noise. The resistors are encased in a compact, surface-mount package that allows for easy integration into modern electronic designs, where space is often at a premium. Their small footprint and low profile make them suitable for high-density circuit boards, particularly in applications where performance cannot be compromised.
The versatility of the 10-524559 Series makes it suitable for a wide array of use cases, from precision instrumentation to automotive applications. These resistors excel in demanding environments such as industrial automation, medical devices, and telecommunications, where accuracy and reliability are paramount. They are also ideal for use in power management circuits, analog signal processing, and feedback control systems, where their low noise and stable performance contribute to the overall efficacy of the design.
In summary, the 10-524559 Series represents a significant advancement in resistor technology, offering exceptional precision, stability, and a compact design suitable for a variety of applications across multiple industries. Whether in high-end consumer electronics, sophisticated industrial equipment, or critical medical devices, these resistors provide the reliability and performance that engineers and designers require to meet the challenges of modern electronic design.