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Transmitter Coil Modules foster wireless charging development.

August 9, 2013 – RWC5353 Series helps shorten design cycles for engineers developing wireless charging devices. Compliant with Wireless Power Consortium (WPC) Qi standard, wireless charging coil modules improve efficiency and performance while minimizing EMI in wireless charging devices. Transmitter coil modules use ferrite material 28, and complete solution features -40 to +85°C operating range. Power transmitter is A1 compliant and supports up to 5 W of power transfer.
Original Press Release

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Laird Technologies
16401 Swingley Ridge Rd., Suite 600
Chesterfield, MO, 63017
USA
[View contact information for this company]

Laird Announces Release of Wireless Charging Coil Modules

Designed for Use in Wireless Charging Devices, Modules Meet Qi Global Standard

Laird, a global technology company, announced the release of the new RWC5353 Series Wireless Charging Coil Modules. The RWC5353 Series improves efficiency and performance while minimizing electromagnetic interference (EMI) in wireless charging devices.

The new RWC5353 series are transmitter coil modules that meet the Wireless Power Consortium’s WPC) Qi standard, the global standard for wireless charging. With more than 20 million people using Qi-phones, the market for wireless charging devices is poised for explosive growth.

“Laird is a leader in ferrite products and offers an extensive line of signal integrity and EMI filtering solutions,” said Jill Tsai, product specialist at Laird. “We have taken our expertise one step further and developed a solution for the emerging wireless charging market that reduces EMI and improves performance while still keeping costs down.”

These RWC5353 Series use ferrite material 28, which is not only WPC recommended but also improves reliability. The power transmitter in the new modules is A1 compliant and can support up to 5 Watts of ower transfer. This complete solution features a high Q factor for maximum wireless power charging efficiency and is designed for extended operating temperatures of -40° to 85°C.
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