MALVERN, Pa., June 10, 2019 (GLOBE NEWSWIRE) -- Vishay Intertechnology, Inc. (NYSE: VSH) today expanded its offering of Qi-compliant wireless charging transmitter and receiver coils with the ...

Wireless smartphone charging in a car offers a clutter-free and straightforward way to keep devices charged while on the go, ...

Fourteen devices, including both receivers and transmitters, have already completed Qi2 25W certification testing in a recent ...

The Qi v2.0 standard is the next leap forward in wireless charging technology. It’s been specifically designed to enhance the user experience by offering faster, more efficient charging.

The Wireless Power Consortium (WPC), an open standards development group of more than 300 members who work together to ensure compatibility between wireless chargers and power sources, announced a new ...

Vishay Intertechnology introduced a new powdered-iron-based, WPC-compatible (Wireless Power Consortium) wireless charging A11 type transmitter coil for 5 V applications. AEC-Q200 qualification is ...

The Qi2 wireless charging standard has been updated to support 25W speeds, benefitting both iPhones and Android phones.

The Wireless Power Consortium’s (WPC) next generation standard for wireless charging, Qi v2.0, will soon be delivering on its promise of magnetic atta ...

Intended for small coil designs, Kinetic’s KTE7800 houses a wireless power receiver, LDO regulator, and battery charger in a 5×5-mm, 24-pin QFN package. The part is compatible with the WPC Qi 1.3 ...

The new charging standard will also expand the number of chargers that can power Android and iOS devices wirelessly. Currently, wireless iPhone charging is limited to 7.5 W unless you have a ...

A typical wireless charging setup includes a transmitter (the charging pad) that generates an electromagnetic field and a receiver (in the device being charged) that captures energy from that ...

Resonant Tuning Rectifier for Parallel Compensated Receivers in Wireless Power Transfer. IEEE Transactions on Industrial Electronics, 2024; 71 (12): 15664 DOI: 10.1109/TIE.2024.3390737 ...