Wireless Power Consortium

Last updated
Wireless Power Consortium
AbbreviationWPC
FormationDecember 17, 2008;14 years ago (2008-12-17) [1]
Type Technology consortium
Headquarters
Region served
Worldwide
Membership
Open
Key people
  • Menno Treffers Steering Group Chairman
  • TJ Zsemba CFO
  • Yongcheol Park CTO
  • Camille Tang Chair of Promotion Work Group
  • Laurens Swaans Chair of Low Power Work Group
  • Matt Ronning Chair of Medium Power Work Group
Website www.wirelesspowerconsortium.com

The Wireless Power Consortium (WPC) is a multinational technology consortium formed on December 17, 2008, and based in Piscataway, New Jersey. Its mission is to create and promote wide market adoption of its interface standards Qi, Ki Cordless Kitchen, and Qi Medium Power for inductive charging. [2] [3] It is an open membership of Asian, European, and American companies, working toward the global standardization of wireless charging technology. [4]

Contents

The Wireless Power Consortium was started by Fulton Innovation, a 100% subsidiary of Alticor, parent company of Amway. The original motivation was to power a portable water purifier, sold by Amway, called eSpring, for which the wireless power transfer technology called eCoupled was created. On Nov 26, 2008 Fulton Innovation released "The Base Spec: Low Power Specification Guide for Partnered Product Development, Revision 0.9". [5] Buoyed by the acquired intellectual property of a bankrupt University of Cambridge spin-out called Splashpower, in an attempt to replicate the success story of the Wi-Fi Alliance formed in 1999, Fulton Innovation founded the Wireless Power Consortium (WPC) in Dec 2008. In the process they partnered with seven others: ConvenientPower, Logitech, Philips, Sanyo, Shenzhen Sang Fei Communications, National Semiconductor (now Texas Instruments), and Texas Instruments. In Aug 2009 they published the now well-known Qi standard, version 0.95. A month later they released version 1.0. By then WPC already had 55+ members.

By 2012 Amway was looking for a buyer for its entire patent portfolio concerning wireless power transfer. [6] This despite creating a lot of buzz at the 2011 Consumer Electronics Show in Las Vegas, with demos even for electric vehicle (EV) charging. [7] Things clearly changed when in September 2012 it became clear that Nokia was releasing the Lumia 920 smartphone with built-in Qi charging. [8]

Philips has by now acquired most of the Qi patent portfolio from Access Business Group. Royalties are therefore now being collected by Philips, [9] but the key patent underlying the Qi standard [10] is still assigned to Access Business Group, a 100% subsidiary of Alticor, which also fully owns Amway. [11]

As of 2019, the Wireless Power Consortium has over 600 individual companies, of which 25 are members of its board of management, also known as the "Steering Group". [12]

Standards

History

Official specifications of the Qi interface standard and the example of the standard in use by a charging pad and the compatible device. Qi wireless power interface specification - basic system overview.png
Official specifications of the Qi interface standard and the example of the standard in use by a charging pad and the compatible device.

The Wireless Power Consortium was established on 17 December 2008. It officially published the Qi interface standard and the low-power specification in August 2010. In October, Nokia joined the WPC. [31] Huawei and Visteon became members of the WPC in November 2011. [32] In May 2011, the consortium announced the low-power specification in May 2011 at the Auto Shanghai auto show and began to extend Qi to medium-power specifications. [33] [34]

The consortium announced through a press release that Qi would soon be developed for tablets, computers and automobile in January 2012. [35] Qi's specifications were again updated in April, with the distance upped to 40mm. [36] In May 2014, the WPC announced that over 500 phones had Qi built-in. [37] As of October 2016, the WPC, along with the AirFuel Alliance, is compliant with the use of the LinkCharge CT standard in commercial enterprises and businesses to use as a charging hotspot. [38]

Technical Debates

The underlying patent behind the Qi standard is US6436299B1. [10] On Page 16 the said patent mandates that both the receiver and transmitter be tuned to 100 kHz, for best results and maximum power transfer. This has been the underlying principle behind the Qi standard to date, and all proposed receivers needed to comply with that to receive approval by WPC. WPC implicitly assumes that the final result of this "double resonator" approach was a single resonant peak for the entire coupled system, also fixed at 100 kHz, irrespective of load or coupling. [39] The entire control algorithm of Qi is based around this basic assumption. But that assumption was first contested by well-known author Sanjaya Maniktala in a seminar in 2014, and shortly thereafter by Stephen Terry from Texas Instruments in 2015. Stephen Terry's presentation clearly states that the resonant frequency will shift to 140 kHz typically, at high loads, not remain fixed at 100 kHz as had been assumed by WPC. Stephen Terry's presentation disappeared from the WPC website from where it was originally downloaded. [40] [41] [42] [43] The problem with the resonant peak splitting and shifting as coupling increases, hitherto unknown or unrecognized by the Wireless Power Consortium, is also pointed out on the Wikipedia page of Wireless power transfer with multiple citations: "A drawback of resonant coupling theory is that at close ranges when the two resonant circuits are tightly coupled, the resonant frequency of the system is no longer constant but "splits" into two resonant peaks, so the maximum power transfer no longer occurs at the original resonant frequency and the oscillator frequency must be tuned to the new resonance peak." This has reportedly contributed to the reported "alignment concerns" of Qi, [44] and propelled the creation of a smart resonant peak tracking software by a California-based company called ChargEdge. [45]

Members

As of 2016, the group had over 220 companies as its members with 24 of those companies in the official board of management, called the "Steering Group". As of 2019, the group has over 600 member companies and 25 companies on the Steering Group. [12]

Steering Group Members

Membership

Membership towards the Wireless Power Consortium is open towards any entity, with four different types of membership with different fees. All types of membership add members to the organization's directory, have available OEM, ODM and engineering/testing services, are available to exclusive stock supplies, are allowed free usage of the Qi logo and trademark, partner in projects and testing, and are included in Qi's development. [46] The fees and standard types of membership are stated below:

TypeNumber of companiesAnnual membership fee
Associate90US$15,000
Small Businesses72US$5,000
Regular25US$25,000
Full Member34US$20,000

See also

Related Research Articles

<span class="mw-page-title-main">Wireless power transfer</span> Transmission of electrical energy without wires as a physical link

Wireless power transfer (WPT), wireless power transmission, wireless energy transmission (WET), or electromagnetic power transfer is the transmission of electrical energy without wires as a physical link. In a wireless power transmission system, a transmitter device, driven by electric power from a power source, generates a time-varying electromagnetic field, which transmits power across space to a receiver device, which extracts power from the field and supplies it to an electrical load. The technology of wireless power transmission can eliminate the use of the wires and batteries, thus increasing the mobility, convenience, and safety of an electronic device for all users. Wireless power transfer is useful to power electrical devices where interconnecting wires are inconvenient, hazardous, or are not possible.

<span class="mw-page-title-main">Battery charger</span> Device used to provide electricity

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<span class="mw-page-title-main">Inductive charging</span> Type of wireless power transfer

Inductive charging is a type of wireless power transfer. It uses electromagnetic induction to provide electricity to portable devices. Inductive charging is also used in vehicles, power tools, electric toothbrushes, and medical devices. The portable equipment can be placed near a charging station or inductive pad without needing to be precisely aligned or make electrical contact with a dock or plug.

WiTricity Corporation is an American wireless charging technology company based in Watertown, Massachusetts. The Massachusetts Institute of Technology (MIT) spin-off was founded by professor Marin Soljačić in 2007. WiTricity technology allows wireless power transfer over distance via magnetic resonance and the company licenses technology and reference designs for wireless electrical vehicle (EV) charging as well as consumer products such as laptops, mobile phones and televisions.

TransferJet is a close proximity wireless transfer technology initially proposed by Sony and demonstrated publicly in early 2008. By touching two electronic devices, TransferJet allows high speed exchange of data. The concept of TransferJet consists of a touch-activated interface which can be applied for applications requiring high-speed data transfer between two devices in a peer-to-peer mode without the need for external physical connectors.

eCoupled is a proprietary near-field wireless energy transfer technology developed by Fulton Innovation, a division of Alticor. It provides wireless power transfer via inductive coupling between a primary transmission coil and a secondary receiving coil. A single primary coil can provide power to multiple secondary coils at the same time.

<span class="mw-page-title-main">Resonant inductive coupling</span>

Resonant inductive coupling or magnetic phase synchronous coupling is a phenomenon with inductive coupling in which the coupling becomes stronger when the "secondary" (load-bearing) side of the loosely coupled coil resonates. A resonant transformer of this type is often used in analog circuitry as a bandpass filter. Resonant inductive coupling is also used in wireless power systems for portable computers, phones, and vehicles.

<span class="mw-page-title-main">Online electric vehicle</span> Type of electric vehicle

On-Line Electric Vehicle or OLEV is an electric vehicle system developed by KAIST, the Korea Advanced Institute of Science and Technology, which charges electric vehicles wirelessly while moving using inductive charging. Segments composed of coils buried in the road transfer energy to a receiver or pickup that is mounted on the underside of the electric vehicle, which powers the vehicle and charges its battery.

<span class="mw-page-title-main">Qi (standard)</span> Open inductive charging interface standard developed by the Wireless Power Consortium

Qi is an interface standard for wireless power transfer using inductive charging. The standard allows compatible devices, such as smartphones, to charge their batteries when placed on a Qi charging pad, which can be effective over distances up to four cm (1.6 in).

Powermat Technologies Ltd. is a developer of wireless power solutions for consumers, OEM and public places. The company licenses IP, sells charging spots to public venues and the software to support their maintenance, management and consumer interaction. The company's inductive charging technology has been adopted by the Power Matters Alliance (PMA) and is the platform adopted by Duracell, General Motors, Starbucks and AT&T.

<span class="mw-page-title-main">Power Matters Alliance</span>

Power Matters Alliance (PMA) was a global, not-for-profit, industry organization whose mission was to advance a suite of standards and protocols for wireless power transfer for mobile electronic devices. The organization was merged with Alliance for Wireless Power (A4WP) in 2015 to form AirFuel Alliance.

<span class="mw-page-title-main">Conductive charging</span>

Conductive charging is conductive power transfer that replaces the conductive wires between the charger and the charged device with conductive contacts. Charging infrastructure in the form of a board or rail delivers the power to a charging device equipped with an appropriate receiver, or pickup. When the infrastructure recognizes a valid receiver it powers on, and power is transferred.

<span class="mw-page-title-main">Rezence (wireless charging standard)</span>

Rezence is an interface standard developed by the Alliance for Wireless Power (A4WP) for wireless electrical power transfer based on the principles of magnetic resonance. The Rezence system consists of a single power transmitter unit (PTU) and one or more power receiver units (PRUs). The interface standard supports power transfer up to 50 watts, at distances up to 5 centimeters. The power transmission frequency is 6.78 MHz, and up to eight devices can be powered from a single PTU depending on transmitter and receiver geometry and power levels. A Bluetooth Low Energy link is defined in the A4WP system intended for control of power levels, identification of valid loads and protection of non-compliant devices.

<span class="mw-page-title-main">Quick Charge</span> Proprietary charging technology

Quick Charge (QC) is a proprietary battery charging protocol developed by Qualcomm, used for managing power delivered over USB, mainly by communicating to the power supply and negotiating a voltage.

<span class="mw-page-title-main">AirPower (Apple)</span> Cancelled wireless charger produced by Apple, Inc.

AirPower is an unreleased wireless charging mat developed by Apple Inc. It was designed to charge up to three devices simultaneously, supporting two Qi devices, such as an iPhone and AirPods, and an Apple Watch. It was announced on September 12, 2017. Formerly scheduled to be released in early 2018, AirPower failed to materialize, leading to wide speculation over the product's future, until Apple announced on March 29, 2019, it had canceled the release.

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<span class="mw-page-title-main">Samsung Galaxy Note 10</span> 2019 Android phablet by Samsung Electronics

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<span class="mw-page-title-main">AirPods Pro</span> Wireless earbuds produced by Apple

AirPods Pro are wireless Bluetooth in-ear headphones designed by Apple, initially released on October 30, 2019. They are Apple's mid-range wireless headphones, sold alongside the base-level AirPods and highest-end AirPods Max.

SAE J2954 is a standard for wireless power transfer (WPT) for electric vehicles led by SAE International. It defines three classes of charging speed, WPT 1, 2 and 3, at a maximum of 3.7 kW, 7.7 kW and 11 kW, respectively. This makes it comparable to medium-speed wired charging standards like the common SAE J1772 system. A much more powerful WPT9 is being defined in J2954/2 for 500 kW charging for heavy-duty vehicles which have the room necessary to mount the larger induction plate.

<span class="mw-page-title-main">MagSafe (wireless charger)</span> Magnetic connection system for Apple products

MagSafe is a proprietary, magnetically attached wireless power transfer and accessory-attachment standard developed by Apple Inc. for its iPhone and AirPods product lines. It was announced on 13 October 2020, in conjunction with the iPhone 12 and 12 Pro series. It provides up to 15 W of power and is compatible with the open Qi standard for up to 7.5 W of power. The connector also enables connecting non-charger accessories such as card holders and cases with communication through an integrated NFC loop. The charger uses a circle of rare earth magnets.

References

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