Products in the 10-323128 series
Manufacturer: amphenol
The 10-323128 Series is a robust line of high-performance inductors designed for a wide array of electronic applications. This series is engineered to meet the growing demands of modern circuits, particularly in environments where efficiency and reliability are paramount. Utilizing a ferrite core construction, the 10-323128 inductors are characterized by their low DC resistance and high current handling capabilities, making them ideal for power management applications.
One of the standout features of the 10-323128 Series is its excellent inductance stability across a broad frequency range, which enhances overall circuit performance and efficiency. This series supports a variety of inductance values, providing flexibility for engineers to select the optimal component for their specific design requirements. The inductors are optimized for minimal core losses and heat generation, allowing them to operate effectively under high-frequency conditions commonly found in switching power supplies and DC-DC converters.
Design-wise, the 10-323128 inductors exhibit a compact footprint, facilitating easy integration into tight spaces within electronic assemblies. Their surface-mount technology (SMT) configuration enables efficient placement and soldering processes, crucial for high-volume manufacturing. Furthermore, the series is built to endure harsh environmental conditions, with features that ensure reliable operation in a range of temperatures and humidity levels.
The typical applications for the 10-323128 Series are diverse, spanning consumer electronics, telecommunications, automotive systems, and industrial automation. They are particularly well-suited for use in power supply circuits, signal processing, and noise filtering applications. Additionally, their versatility allows for deployment in compact devices such as smartphones, tablets, and various IoT gadgets, where space and performance are critical.
In summary, the 10-323128 Series offers a combination of high efficiency, compact design, and versatility, making it an essential choice for engineers and designers aiming to enhance the performance and reliability of their electronic systems in today's fast-paced technological landscape.