Advertise with us
[December 12, 2012]
Toshiba Collaborating in Development of Wireless Power System IC; Agreement with Hanrim on Wireless Power System Based on the Qi Standard
(M2 PressWIRE Via Acquire Media NewsEdge) TOKYO--Toshiba Corporation (TOKYO: 6502) today announced that the company is collaborating with Hanrim Postec LLC (Hanrim) in the development of wireless power system ICs. The companies are working on ICs and systems based on the Qi standard *1 low power spec for mobile devices, including smartphones and mobile phones, as proposed by the Wireless Power Consortium *2 (WPC).
Toshiba and Hanrim will enter the mobile market this month with a non-contact charge system. Toshiba has developed and manufactures the ICs for the system and Hanrim provides the module.
Demand for smartphones is growing rapidly, and so is their usage, as more and more people rely on them as a platform for messaging and accessing the internet. As a result, it is often necessary to charge smartphones twice a day, sometimes even more, requiring users to carry a charging cable. This is stimulating demand for a new, cable-free, non-contact charging system that offers greater convenience and ease of use.
Toshiba has developed two products to the Qi standard, utilizing Hanrim's non-contact charging systems. Samples shipments will start from December.
*1: Qi standard An inductive transfer standard for low power applications, standardized from 0 to 5W.
*2: WPC As of this month, WPC had a total of 137 member companies, clear recognition that it has established the global de facto standard for non-contact inductive systems, with companies working on both Qi standard compatible power transmission and power receiver systems.
Toshiba joined WPC in February and has closely studied the standard toward developing ICs for non-contact charging systems. Hanrim is also a member.
Product summary Part number Engineering samples Mass production Remarks TB6865FG Power transmitter Dec. 2012 Jan. 2013 Compliant with Qi standard ver1.0 TB6860WBG Power receiver Dec. 2012 Jan. 2013 Compliant with Qi standard ver1.0 Features 1. Compliant with WPC Qi standard ver1.0 2. Integrated DC-DC converter is used for charge and power feed.
For the TB6860WBG power receiver, the DC-DC converter is used to output voltage. A current capacity output of 1,200mA (max.) ensures rapid charging.
3. Battery charge function included.
The TB6860WBG has a power feed mode which feeds power to the charge system of platform it is charging. It also has a charging mode for charging the battery directly. If a non-contact charge system is included in the battery of a mobile device, applying the TB6860WBG reduces the use of special ICs for charging. It can reduce product size and cost. The included register can create a unique charging profile for batteries from multiple companies.
4. Charge two devices simultaneously.
The TB6865FG can charge two devices simultaneously. While a smart phone with the "Qi" mark is charged, another mobile device (digital still camera, mobile game consoles, and so on) with the "Qi" mark can be charged by placing it on the transmission pad. On charge pad can support two "Qi" mobile devices. No special cable is required.
Specifications Part number TB6865FG Method Electromagnetic induction Controller Built-in ARM Cortex(TM)-M3 Operation input voltage 4.5V to 14V(Analog) 2.7V to 3.6V(Digital) Number of PWM output 8CH/unit 2 Coil controller Control architecture of two or more coils Package LQFP100 Part number TB6860WBG Method Electromagnetic induction Operation input voltage 3.4V to 15V Output current (max.) 1,200mA Output voltage 3.0V to 5.55V(in power feeding mode) Charge method Buck DC-DC convertor Set of charge sequence Register set by I2 C interface Protection Input voltage, output current, and thermal control of IC Package WCSP39 *Cortex is a trademark of ARM Limited.
*Follow this link for more on this product.
((M2 Communications disclaims all liability for information provided within M2 PressWIRE. Data supplied by named party/parties. Further information on M2 PressWIRE can be obtained at
on the world wide web. Inquiries to email@example.com)).
(c) 2012 M2 COMMUNICATIONS
Back To NFVZone's Homepage