Capacitors with 85% increased ripple current capabilities EMP 2023 Electronics Manufacturing & Production Handbook, Electrocomp TDK has announced a new range of very compact snap-in aluminium electrolytic capacitors, which is characterised by very compact dimensions and high ripple current-carrying capacity.
Automotive-grade multilayer ceramic capacitors 23 November 2022, Avnet Abacus Available in a capacitance range of 0,2 pF to 470 uF, and a voltage range of 4 V to 630 V, these MLCCs feature greater reliability by improving the electrode material and plating, solderability and heat resistance characteristics.
New electrolytic capacitor series 23 November 2022, RS South Africa Vishay has announced its latest screw-terminal aluminium electrolytic capacitors, which offer high CV values in dimensions smaller than previous-generation solutions.
High-current low DC resistance power inductors 23 November 2022, Avnet Abacus TDK Corporation has announced the introduction of its new VLS5030EX-D type power inductor as part of the VLS-EX-D series of wound ferrite power inductors.
Aluminium nitride thin film power resistor 28 September 2022, Electrocomp TE’s aluminium nitride thin film power resistor type 3503 and 3504 series range offers high power to size ratio, with a power rating of 2 W in 1206 size (3503 series) and 6 W in 2512 size (3504 series).
Ultra-low loss shielded power inductors 31 August 2022, RF Design Coilcraft XGL1060 series ultra-low loss power inductors offer the lowest DC losses and extremely low power losses for a wide range of DC-to-DC converters.
E cores for electric vehicles 31 August 2022, Sivan Electronic Supplies Soft ferrites are polycrystalline oxides manufactured by ceramic technology and belong to a class of materials that exhibit the property of ferromagnetism. The right core choice plays a huge part in manufacturing a successful electric vehicle.
Lowering the cost of solar PV inverters 27 July 2022, EBV Electrolink Vishay has turned its attention to lowering the cost of solar PV inverters and by reducing the number of electrolytic capacitors required.