160-564
560uH fixed inductors in various forms
Manufacturer: api-deleven
series introduction
The 160-564 Series is a cutting-edge line of high-performance inductors designed to meet the stringent demands of modern electronic applications. Engineered with precision, these inductors feature a robust construction that combines high saturation current capabilities with minimal DC resistance, ensuring optimal energy efficiency and performance. The series is characterized by its use of premium ferrite cores, which facilitate enhanced magnetic properties, enabling the inductors to operate effectively across a wide frequency range.
A standout feature of the 160-564 Series is its compact form factor, allowing for easy integration into space-constrained designs without compromising on performance. Available in various inductance values and current ratings, this series caters to a diverse array of applications, making it a versatile choice for engineers and designers. The inductors are rated for operation in extreme environments, with a temperature range of -40°C to +125°C, which makes them suitable for use in harsh industrial settings as well as in consumer electronics.
The design characteristics of the 160-564 Series not only prioritize efficiency but also emphasize reliability. With a low profile and optimized winding techniques, these inductors exhibit excellent thermal management properties, reducing the risk of overheating during operation. This durability ensures that the series can withstand the rigors of continuous use in demanding applications, thus enhancing the longevity of the overall system.
Typical applications for the 160-564 Series include power management in DC-DC converters, filtering systems in RF applications, and energy storage solutions in renewable energy systems. They are widely utilized in sectors such as automotive, telecommunications, and industrial automation, where high reliability and performance are paramount. By integrating the 160-564 Series into their designs, manufacturers can achieve superior electrical performance, reduced power losses, and enhanced system efficiency, making it a preferred choice for today's advanced electronic designs.
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