Qi ( ) is an

open standard An open standard is a standard that is openly accessible and usable by anyone. It is also a common prerequisite that open standards use an open license that provides for extensibility. Typically, anybody can participate in their development due to ...

for

inductive charging Inductive charging (also known as wireless charging or cordless 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 tool ...

developed by the

Wireless Power Consortium The Wireless Power Consortium (WPC) is a Multinational corporation, multinational technology consortium formed on December 17, 2008. WPC is a virtual corporation with administrative offices in Washington, DC. Its mission is to create and promote ...

. It allows compatible devices, such as

smartphones A smartphone is a mobile phone with advanced computing capabilities. It typically has a touchscreen interface, allowing users to access a wide range of applications and services, such as web browsing, email, and social media, as well as mult ...

, to receive power when placed on a Qi charger, which can be effective over distances up to 4 cm (1.6 in). Devices that implement the optional Magnetic Power Profile for magnetic attachment and alignment may be labelled Qi2 ( ). Qi version 1.0 was released in 2010; by 2017, it had been incorporated into more than 200 models of smartphones, tablets, and other devices. In December 2023, 351 manufacturers were working with the standard, including

Apple An apple is a round, edible fruit produced by an apple tree (''Malus'' spp.). Fruit trees of the orchard or domestic apple (''Malus domestica''), the most widely grown in the genus, are agriculture, cultivated worldwide. The tree originated ...

Asus ASUSTeK Computer Inc. (, , , ; stylized as ASUSTeK or ASUS) is a Taiwanese Multinational corporation, multinational computer, phone hardware and electronics manufacturer headquartered in Beitou District, Taipei, Taiwan. Its products include deskto ...

Google Google LLC (, ) is an American multinational corporation and technology company focusing on online advertising, search engine technology, cloud computing, computer software, quantum computing, e-commerce, consumer electronics, and artificial ...

Huawei Huawei Technologies Co., Ltd. ("Huawei" sometimes stylized as "HUAWEI"; ; zh, c=华为, p= ) is a Chinese multinational corporationtechnology company in Longgang, Shenzhen, Longgang, Shenzhen, Guangdong. Its main product lines include teleco ...

LG Electronics LG Electronics Inc. () is a South Korean Multinational corporation, multinational major appliance and consumer electronics corporation headquartered in Yeouido-dong, Seoul, South Korea. LG Electronics is a part of LG, LG Corporation, the fourth ...

Samsung Samsung Group (; stylised as SΛMSUNG) is a South Korean Multinational corporation, multinational manufacturing Conglomerate (company), conglomerate headquartered in the Samsung Town office complex in Seoul. The group consists of numerous a ...

Xiaomi Xiaomi (; ) is a Chinese multinational corporation and technology company headquartered in Beijing, China. It is best known for consumer electronics software electric vehicles. It is the second-largest manufacturer of smartphones in the worl ...

, and

Sony is a Japanese multinational conglomerate (company), conglomerate headquartered at Sony City in Minato, Tokyo, Japan. The Sony Group encompasses various businesses, including Sony Corporation (electronics), Sony Semiconductor Solutions (i ...

. , the current version of the Qi specification is 2.1., which incorporates Apple's

MagSafe MagSafe is a series of proprietary magnetically attached power connectors developed by Apple Inc. for Mac laptops. Apple also uses the MagSafe name for MagSafe Attach, a wireless power transfer and accessory-attachment feature for the iPhone ...

technology to enhance wireless charging through magnetic alignment. The current standard supports charging speeds of up to 15 watts and aims to improve compatibility across devices from various manufacturers.

Naming

The name Qi () means "vital energy".

Design

left, Fig. 1-1 Devices that operate using the Qi standard rely on

electromagnetic induction Electromagnetic or magnetic induction is the production of an electromotive force, electromotive force (emf) across an electrical conductor in a changing magnetic field. Michael Faraday is generally credited with the discovery of induction in 1 ...

between planar coils. A Qi system consists of two types of devices – the Base Station, which is connected to a power source and provides inductive power, and Mobile Devices, which consume inductive power. The Base Station contains a power transmitter that comprises a transmitting coil that generates an oscillating

magnetic field A magnetic field (sometimes called B-field) is a physical field that describes the magnetic influence on moving electric charges, electric currents, and magnetic materials. A moving charge in a magnetic field experiences a force perpendicular ...

; the Mobile Device contains a power receiver holding a receiving coil. The magnetic field induces an

alternating current Alternating current (AC) is an electric current that periodically reverses direction and changes its magnitude continuously with time, in contrast to direct current (DC), which flows only in one direction. Alternating current is the form in w ...

in the receiving coil by Faraday's law of induction. Close spacing of the two coils ensures the inductive power transfer is efficient. Base Stations typically have a flat surface – referred to as the Interface Surface – on top of which a user can place one or more Mobile Devices. There are two methods for aligning the transmitting coil (part of the Base Station) and receiving coil (part of the Mobile Device) in order for a power transfer to happen. In the first concept – called guided positioning – a user must place the Mobile Device on a certain location of the Base Station's surface. For this purpose, the Mobile Device provides an alignment aid that is appropriate to its size, shape, and function. The second concept – referred to as free positioning – does not require the user to place the Mobile Device in direct alignment with the transmitting coil. There are several ways to achieve free positioning. In one example a bundle of transmitting coils is used to generate a magnetic field at the location of the receiving coil only. Another example uses mechanical means to move a single transmitting coil underneath the receiving coil. A third option is to use a technique called ''Multiple Cooperative Flux Generators''. Figure 1-1 illustrates the basic system configuration. As shown, a power transmitter includes two main functional units – a power conversion unit and a communications and control unit. The diagram shows the transmitting coil (array) generating the magnetic field as part of the power conversion unit. The control and communications unit regulates the transferred power to the level that the power receiver requests. The diagram also demonstrates that a Base Station may contain numerous transmitters, allowing for multiple Mobile Devices to be placed on the same Base Station and inductively charge until each of its batteries are fully charged. Finally, the system unit in the diagram comprises all other functionality of the Base Station, such as input power provisioning, control of multiple power transmitters, and user interfacing. A power receiver comprises a power pick-up unit, as well as a communications and control unit. Similar to the power conversion unit of the transmitter, Figure 1-1 illustrates the receiving coil as capturing the magnetic field of the power pick-up unit. A power pick-up unit typically contains a single receiving coil only. Moreover, a Mobile Device typically contains a single power receiver. The communications and control unit regulates the transferred power to the level that is appropriate for the subsystems (e.g., battery) connected to the output of the power receiver. These subsystems represent the main functionality of the Mobile Device.

Transmitters

As an example from the 2017 version 1.2.2 of the Qi specification (referenced above), the A2 reference Qi low-power transmitter has a coil of 20 turns (in two layers) in a flat coil, wound on a form with a 19 mm inner diameter and a 40 mm outer diameter, with a below-coil shield of soft iron at least 4 mm larger in diameter which gives an inductance of 24 ± 1 microhenries. This coil is placed in a series resonant circuit. This series

resonant circuit An LC circuit, also called a resonant circuit, tank circuit, or tuned circuit, is an electric circuit consisting of an inductor, represented by the letter L, and a capacitor, represented by the letter C, connected together. The circuit can act ...

is then driven by an

H-bridge An H-bridge is an electronic circuit that switches the polarity of a voltage applied to a load. These circuits are often used in robotics and other applications to allow DC motors to run forwards or backwards. The name is derived from its common s ...

switching arrangement from the DC source; at full power, the voltage in the capacitor can reach 50 volts. Power control is automatic; the Qi specification requires that the actual voltage applied be controllable in steps at least as small as 50 millivolts. Rather than down-regulate the charging voltage in the device, Qi chargers meeting the A2 reference use a PID (proportional-integral-derivative) controller to modulate the delivered power according to the primary cell voltage. Other Qi charge transmitters start their connections at 140 kHz, but can change frequencies to find a frequency with a better match, as the mutual inductance between transmitter and receiver coils will vary according to the standoff distance between transmitter and receiver coils, and thus the natural resonance frequency will vary. Different Qi reference designs have different coil arrangements, including oval coil and multi-coil systems as well as more complex resonance networks with multiple inductors and capacitors. These designs allow frequency-agile operation at frequencies from 105 to 205 kHz and with maximum resonant circuit voltages as high as 200 volts.

Receivers

The Qi power receiver hardware reference design 1, also from version 1.2.2 of the Qi specification, starts with a rectangular coil of wire 44 mm × 30 mm outside size, with 14 turns of wire, and with an above-coil magnetic shield. This coil is wired into a parallel resonant circuit with a pair of capacitors (of 127 nanofarads in series and 1.6 nanofarads in parallel). The power output is taken across the 1.6- nanofarad capacitor. In order to provide a digital communications channel back to the power transmitter, a resonance modulator consisting of a pair of 22-nanofarad capacitors and a 10 kΩ resistor in a T configuration can be switched across the 1.6-nanofarad capacitor. Switching the T network across the 1.6-nanofarad capacitor causes a significant change in the resonant frequency of the coupled system that is detected by the power transmitter as a change in the delivered power. Power output to the portable device is via a full-wave

bridge A bridge is a structure built to Span (engineering), span a physical obstacle (such as a body of water, valley, road, or railway) without blocking the path underneath. It is constructed for the purpose of providing passage over the obstacle, whi ...

wired across the 1.6-nanofarad capacitor; the power is typically filtered with a 20-microfarad capacitor before delivery to the charge controller. Other Qi power receivers use alternate resonance modulators, including switching a resistor or pair of resistors across the receiver resonator capacitor, both before and after the bridge rectifier.

Features and specifications

The WPC published the Qi low-power specification in August 2009. The Qi specification can be downloaded freely after registration. Under the Qi specification, "low power" inductive transfers deliver power below 5 W using inductive coupling between two planar coils. These coils are typically 5 mm apart but can be up to 40 mm and possibly further apart. The Qi low-power specification has been renamed to the Qi Baseline Power Profile (BPP). Regulation of the output voltage is provided by a digital control loop where the power receiver communicates with the power transmitter and requests more or less power. Communication is unidirectional from the power receiver to the power transmitter via backscatter modulation. In backscatter modulation, the power-receiver coil is loaded, changing the current draw at the power transmitter. These current changes are monitored and demodulated into the information required for the two devices to work together. In 2011, the Wireless Power Consortium began to extend the Qi specification to medium power. As of 2019, the Medium Power standard currently delivers 30 to 65 W. It is expected to eventually support up to 200 W (typically used for portable power tools, robotic vacuum cleaners, drones and e-bikes). In 2015, the WPC also demonstrated a high-power specification, called "Ki", that will deliver up to 1 kW, allowing the powering of kitchen appliances among other high-power utilities. In 2015, WPC introduced the Qi Extended Power Profile (EPP) specification which supports up to 15 W. EPP is also typically used to charge mobile devices like BPP. Phone companies that support EPP include LG,

, and Sharp. In 2024, WPC upgrade Ki to support 2.2kW wireless power delivery. WPC introduced Proprietary Power Delivery Extension (PPDE) to allow phone OEMs to deliver higher than Baseline Power Profile's 5 W or the Extended Power Profile's 15 W. Currently, only

has published their compliance test. Other phone companies that use proprietary standards for fast wireless charging include Apple, Huawei and Google. With Qi version 2.0, WPC introduced Magnetic Power Profile (MPP), an optional part of the specification based on Apple's

for

iPhone The iPhone is a line of smartphones developed and marketed by Apple that run iOS, the company's own mobile operating system. The first-generation iPhone was announced by then–Apple CEO and co-founder Steve Jobs on January 9, 2007, at ...

. MPP enables magnetic attachment and alignment with a ring of permanent magnets around the charging coil and is backwards compatible with MagSafe devices. Devices which implement MPP use a new logo and branding, Qi2, to distinguish them from Qi devices that do not (even if they otherwise support Qi v2.0 or later).

Adoption

Nokia Nokia Corporation is a Finnish multinational corporation, multinational telecommunications industry, telecommunications, technology company, information technology, and consumer electronics corporation, originally established as a pulp mill in 1 ...

first adopted Qi in its

Lumia 920 Nokia Lumia 920 (codenamed ''Phi'') is a smartphone developed by Nokia that runs the Windows Phone 8 operating system. It was announced on September 5, 2012, and was first released on November 2, 2012. It has a 1.5 GHz dual-core Qualcomm Kr ...

, and Samsung Mobile on the Galaxy S3 (supported via a retrofittable official Samsung back cover accessory) in 2012,Wired
Qi Wireless Charging: What Is It And How Does It Work In Nokia's Lumia 920?
5 September 2012 the Google/LG Nexus 4 followed later that year.

Toyota is a Japanese Multinational corporation, multinational Automotive industry, automotive manufacturer headquartered in Toyota City, Aichi, Japan. It was founded by Kiichiro Toyoda and incorporated on August 28, 1937. Toyota is the List of manuf ...

began offering a Qi charging cradle as a factory option on its 2013 Avalon Limited,The Verge
Toyota's 2013 Avalon Limited becomes world's first car to adopt Qi wireless charging
19 December 2012 with Ssangyong the second car manufacturer to offer a Qi option, also in 2013.Torque News
Qi wireless charging system adopted by second automaker for use in cars
25 February 2013 As the Qi standard gained popularity, ''Qi Hotspots'' began to arise in places such as coffee shops, airports, sports arenas, etc. In 2012, The Coffee Bean and Tea Leaf, a major US coffee chain, announced plans to install inductive charging stations at selected major metropolitan cities, as did

Virgin Atlantic Virgin Atlantic, a trading name of Virgin Atlantic Airways Limited and Virgin Atlantic International Limited, is a British airline with its head office in Crawley, West Sussex, England. The airline was established in 1984 as British Atlantic A ...

, for United Kingdom's

London Heathrow Airport Heathrow Airport , also colloquially known as London Heathrow Airport and named ''London Airport'' until 1966, is the primary and largest international airport serving London, the capital and most populous city of England and the United Kingd ...

, and New York City's

John F. Kennedy International Airport John F. Kennedy International Airport is a major international airport serving New York City and its metropolitan area. JFK Airport is located on the southwestern shore of Long Island, in Queens, New York City, bordering Jamaica Bay. It is ...

. In 2015, a survey found that 76% of people surveyed in the United States and China were aware of wireless charging (an increase from 36% the previous year), and 20% were using it – however, only 16% of those were using it daily.IHS Markit
Consumer Awareness of Wireless Charging Doubles to 76 Percent in 2015, IHS Says
24 June 2015 Furniture retailer

IKEA IKEA ( , ) is a Multinational corporation, multinational conglomerate (company), conglomerate founded in Sweden that designs and sells , household goods, and various related services. IKEA is owned and operated by a series of not-for-profit an ...

introduced lamps and tables with integrated wireless chargers for sale in 2015, and the

Lexus NX The is a compact luxury crossover SUV sold by Lexus, a luxury division of Toyota. Introduced in late 2014, it is positioned between the subcompact UX and the mid-size RX in Lexus’ crossover SUV lineup. According to Lexus, the name "NX" ...

gained an optional Qi charging pad in the center console. An estimated 120 million wirelessly charging phones were sold that year, notably the

Samsung Galaxy S6 The Samsung Galaxy S6 is a line of Android-based smartphones manufactured, released and marketed by Samsung Electronics. Succeeding the Samsung Galaxy S5, the S6 was not released as a singular model, but instead in two variations unveiled and ...

, which supported both Qi and the competing Power Matters Alliance standards.Wired
Wireless Charging Is Still a Mess, But It Won't Be Forever
12 November 2015 However, the existence of several competing wireless charging standards was still seen as a barrier to adoption. By early 2017, Qi had displaced other competing standards such as Rezence.E&T
Qi wireless charging standard emerges victorious; adoption rapidly increasing
17 February 2017 On September 12, 2017, Apple announced that their new smartphones, the

iPhone 8 The iPhone 8 and iPhone 8 Plus are smartphones developed and marketed by Apple Inc. They are the eleventh generation of the iPhone. The iPhone 8 was released on September 22, 2017, succeeding the iPhone 7 and iPhone 7 Plus, respectively. T ...

iPhone 8 Plus The iPhone 8 and iPhone 8 Plus are smartphones developed and marketed by Apple Inc. They are the eleventh generation of the iPhone. The iPhone 8 was released on September 22, 2017, succeeding the iPhone 7 and iPhone 7 Plus, respectively. The ...

, and the

iPhone X The iPhone X (Roman numerals, Roman numeral "X" pronounced "ten") is a smartphone that was developed and marketed by Apple Inc. It is part of the List of iPhone models, 11th generation of the iPhone. Available for pre-order from September 26, 2 ...

, would support the Qi standard. Since then, every new iPhone version has supported the Qi wireless charging standard. Apple also announced plans to expand the standard with a new protocol called

AirPower Airpower or air power consists of the application of military aviation, military strategy and strategic theory to the realm of aerial warfare and close air support. Airpower began in the advent of powered flight early in the 20th century. A ...

which would have added the ability to charge multiple devices at once; however, this was canceled on March 29, 2019. By the initial launch of

iOS 17 iOS 17 is the seventeenth major release of Apple's iOS operating system for the iPhone. It is the direct successor to iOS 16. It was announced on June 5, 2023, at Apple's annual Worldwide Developers Conference alongside watchOS 10, iPadOS 1 ...

in 2023, Apple launched the

iPhone 15 The iPhone 15 and iPhone 15 Plus are smartphones developed and marketed by Apple. They are the seventeenth generation of iPhones, succeeding the iPhone 14 and iPhone 14 Plus. The devices were announced on September 12, 2023, during the App ...

models and iPhone 15 Pro models to support the fast 15W Qi2-certified wireless charging. Prior to the launch of iOS 17.2, Apple added the fast 15W Qi2-certified wireless charging support for the

iPhone 13 The iPhone 13 and iPhone 13 Mini (stylized as iPhone 13 mini) are smartphones developed and marketed by Apple. They are the fifteenth generation of iPhones, succeeding the iPhone 12 and 12 Mini. They were unveiled at an Apple Event in Apple ...

models,

iPhone 13 Pro The iPhone 13 Pro and iPhone 13 Pro Max are smartphones developed and marketed by Apple Inc. They were the flagship smartphones in the fifteenth generation of the iPhone, succeeding the iPhone 12 Pro and iPhone 12 Pro Max respectively. The ...

models,

iPhone 14 The iPhone 14 and iPhone 14 Plus are smartphones developed and marketed by Apple Inc. They are the List of iPhone models, sixteenth-generation iPhones, succeeding the iPhone 13, iPhone 13 and iPhone 13 Mini, and were announced during List of Ap ...

models and

iPhone 14 Pro The iPhone 14 Pro and iPhone 14 Pro Max are smartphones that were developed and marketed by Apple Inc. They are the List of iPhone models, sixteenth generation flagship iPhones, succeeding the iPhone 13 Pro and Pro Max. The devices were unveil ...

models, but all the

iPhone 12 The iPhone 12 and iPhone 12 Mini (stylized and marketed as iPhone 12 mini) are smartphones developed and marketed by Apple Inc. They are the fourteenth-generation iPhones, succeeding the iPhone 11. They were unveiled at a virtually held Ap ...

models and

iPhone 12 Pro The iPhone 12 Pro and iPhone 12 Pro Max are smartphones developed and marketed by Apple Inc. They are the flagship smartphones in the List of iPhone models, fourteenth generation of the iPhone, succeeding the iPhone 11 Pro and iPhone 11 Pro M ...

models have limited support to the 5W Qi-certified wireless charging. On September 9, 2024, alongside the announcement of the iPhone 16 models and

iPhone 16 Pro The iPhone 16 Pro and iPhone 16 Pro Max are high-end smartphones developed and marketed by Apple Inc. Alongside the iPhone 16 and iPhone 16 Plus, they form the eighteenth generation of the iPhone, succeeding the iPhone 15 Pro and iPhone 15 ...

models, Apple launched a new 25W MagSafe charger featuring a woven braided cable design, available in 1m and 2m length options and maintaining the compatibility with the 15 W Qi2-certified wireless charging standard.

Version history

Qi Medium Power standard

*2019-30w to 65w *Future-200w

Ki versions

*2015-1000w *2024-2200w

References

{{reflist Wireless energy transfer Computer-related introductions in 2009 Open standards