New Industry Products

Drum Cores for EMI Filtering and Switch Mode Power Supplies

June 14, 2017 by Premier Magnetics

Premier Magnetics introduces its line of low-cost, high-performance drum core inductors designed for EMI filtering and switch mode power supply applications

Premier Magnetics, global producer of high-quality magnetic components, introduces its line of low-cost, high-performance drum core inductors designed for EMI filtering and switch mode power supply applications. With a product offering of over two dozen models with inductance values from 100 to 10,000 µH, the new PM-R Series boasts low dc resistance (DCR), providing low temperature rise at high peak currents. Their combination of high peak current and high self-resonant frequency (SRF) make the PM-R Series inductors an ideal drop-in replacement for lower-performing drum core devices. And in applications where the devices’ maximum height of 10.0 to11.5 mm is acceptable, the PM-R Series offers a cost-effective alternative to surface-mount inductors.   

Premier Magnetics’ PM-R drum core inductors are offered in two series, PM-R2 (7.5 mm, dia. x 10.0 high, max) and PM-R3 (9.5 mm, dia. x 11.5 high, max), each offering models with a range of 100 µH to10 mH. Both series of inductors are available with sleeving (+125°C); and without sleeving (+155°C). Standard operating temperature range is -40C to 130C, with higher temperatures available. The radial-leaded components are RoHS compliant. 

 

About Premier Magnetics

A world leader with over 25 years of experience in magnetics manufacturing, Premier Magnetics is widely-recognized for producing high-quality magnetics components and for effectively deploying innovative design and engineering services all over the world. Besides supplying a standard product line with hundreds of UL/CSA recognized products, including items such as power supply transformers, dc/dc converters, rj45 connectors, current inductors and lan magnetics, we also offer full custom circuit design capability for your unique application.