Circular connector plug for cable mounting
Manufacturer: amphenol
The 165-62 Series is a premium lineup of precision resistors designed to meet the stringent demands of high-performance applications. Known for their exceptional stability and accuracy, these resistors are ideal for use in critical measurement and control systems where precision is paramount. Manufactured using advanced thin-film technology, the 165-62 Series ensures minimal temperature coefficient and low voltage coefficients, providing outstanding performance across a wide range of conditions.
One of the standout features of the 165-62 Series is its impressive tolerance levels, which can be as low as ±0.01%. This high degree of precision makes these resistors perfect for applications in instrumentation, aerospace, medical devices, and telecommunications, where exact values are crucial for reliable operation. Additionally, the series boasts a wide resistance range, accommodating both low and high resistance values to suit diverse application needs.
The design of the 165-62 Series emphasizes robustness and thermal stability, featuring a low noise characteristic that is essential in sensitive electronic environments. Their compact surface-mount package allows for efficient use of space on circuit boards, making them particularly suitable for modern electronic devices that prioritize miniaturization without sacrificing performance. Furthermore, the resistors are built to withstand harsh environmental conditions, with a wide operating temperature range, ensuring reliability in various industrial applications.
Typical applications for the 165-62 Series include precision analog circuits, high-speed data acquisition systems, and feedback loops in control systems. They are also commonly utilized in automotive electronics, where accurate sensing and control are critical for safety and performance. Whether in laboratory equipment or sophisticated consumer electronics, the 165-62 Series offers engineers and designers a dependable solution for achieving exceptional accuracy and stability in their applications.