Quick Charge (QC) is a proprietary Qualcommbattery charging protocol used for managing power delivered over USB, mainly by communicating to the power supply and negotiating a voltage.
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Quick Charge is supported by devices such as mobile phones which have Qualcomm SOCs, and by some chargers; both device and charger must support QC, otherwise QC charging is not attained. It charges batteries in devices faster than standard USB allows by increasing the output voltage supplied by the USB charger, while adopting techniques to prevent the battery damage caused by uncontrolled fast charging and regulating the incoming voltage internally.
Most chargers supporting Quick Charge 2.0 and later are wall adaptors, but it is implemented on some in-car chargers, and some power banks use it to both receive and deliver charge.
Quick Charge is also used by other manufacturers' proprietary rapid-charging systems.
Details[edit]
Quick Charge is a proprietary technology that allows for the charging of battery powered devices, primarily mobile phones, at power levels exceeding the 5 volts at 2 amps, thus 10 watts allowed by basic USB standards, while still maintaining compatibility to existing USB wires.
The elevated voltages allow for pushing higher amounts of power (wattage) through the cable's copper wires without further heating them up and risking heat damage, since heat in the wire is solely caused by the electrical current.
Another benefit of the elevated voltage, as described in Ohm's law § Other versions, is its improved ability to pass through longer USB cables due to its compensation of voltage drops from wires with higher resistances.
Numerous other companies have their own competing technologies, including MediaTekPump Express and OPPO VOOC (licensed to OnePlus as Dash Charge), which elevate the current rather than the power supply voltage to reduce heat from internal voltage regulation, but relying on thicker USB wires to handle the current without overheating, as described in VOOC § Technology.[1]
Though not publicly documented, the protocol (e.g. voltage negotiations between device and charger) has been reverse-engineered.[2][3].
To use Quick Charge, both the host providing power and the device must support it. In 2012 the USB Implementers Forum announced that the USB Power Delivery (USB PD) standard had been finalized, allowing for devices to draw up to 100 watts of power over supported USB ports. This new technology was first used in a Xiaomi Mi Mix 3 prototype that charged from 1% to 100% in 17 minutes.[4]
Quick Charge 2.0 introduced an optional feature called Dual Charge (initially called Parallel Charging),[5] using two PMICs to split the power into 2 streams to reduce phone temperature.[6]
Quick Charge 3.0 introduced INOV (Intelligent Negotiation for Optimal Voltage), Battery Saver Technologies, HVDCP+, and optional Dual Charge+. INOV is an algorithm that determines the optimum power transfer while maximizing efficiency. Battery Saver Technologies aims to maintain at least 80% of the battery's original charge capacity after 500 charge cycles.[7] Qualcomm claims Quick Charge 3.0 is up to 4–6 °C cooler, 16% faster and 38% more efficient than Quick Charge 2.0, and that Quick Charge 3.0 with Dual Charge+ is up to 7–8 °C cooler, 27% faster and 45% more efficient than Quick Charge 2.0 with Dual Charge.[5]
Quick Charge 4 was announced in December 2016 alongside the Snapdragon 835. Quick Charge 4 includes HVDCP++, optional Dual Charge++, INOV 3.0, and Battery Saver Technologies 2. It is cross-compatible with both USB-C and USB PD specifications, supporting fallback to USB PD if either the charger or device is not compatible. It also features additional safety measures to protect against over-voltage, over-current and overheating, as well as cable quality detection. Qualcomm claims Quick Charge 4 with Dual Charge++ is up to 5 °C cooler, 20% faster and 30% more efficient than Quick Charge 3.0 with Dual Charge+.[6]
Quick Charge 4+ was announced on June 1, 2017. It introduces Intelligent Thermal Balancing and Advanced Safety Features to eliminate hot spots and protect against overheating and short-circuit or damage to the USB-C connector. Dual Charge++ is mandatory, while in prior versions Dual Charge was optional.[8][9]
Quick Charge 5 was announced on July 27, 2020. With up to 100W of power, on a mobile phone with a 4500mAh battery, Qualcomm claims 50% charge in just 5 minutes. Qualcomm announced that this standard is cross compatible with USB PD PPS programmable power supply, and that its technology can communicate with the charger when charging double cells and double the voltage and amperage out. For instance, a single battery requests 8.8v of power. The dual cell can then ask the PPS charger to output 17.6 volts and split it in half to the two separate battery, pulling 5.6 amps total to achieve 100 watts.[citation needed] The first phone with this technology was the Xiaomi Mi 10 Ultra. [10]
Quick Charge for Wireless Power[edit]
On February 25, 2019 Qualcomm announced Quick Charge for Wireless Power. Quick Charge for Wireless Power falls back on the Qi standard by the Wireless Power Consortium if either the charger or device is not compatible.[11]
Versions[edit]
Technology | Voltage | Max current | Max power[a] | New features | Release date | Notes |
---|---|---|---|---|---|---|
Quick Charge 1.0 | up to 6.3 V[12] | 2 A | 10 W |
| 2013 | Snapdragon 215, 600[13][14] |
Quick Charge 2.0 | Class A: 5 V, 9 V, 12 V Class B: 5 V, 9 V, 12 V, 20 V [15] | 1.67 A, 2 A, or 3 A | 18 W (9 V⋅2 A)[16][b] |
| 2014[c] | Snapdragon 200, 208, 210, 212, 400, 410, 412, 415, 425, 610, 615, 616, 800, 801, 805, 808, 810[18] |
Quick Charge 3.0 | 3.6 V to 22 V[19] in 200 mV steps[15] | 2.6 A or 4.6 A[19] | 36 W (12 V⋅3 A) |
| 2016 | Snapdragon 427, 430, 435, 450, 617, 620, 625, 626, 632, 650, 652, 653, 665, 820, 821[18] |
Quick Charge 4 | 3.6 V to 20 V in 20 mV steps via QC 5 V, 9 V via USB PD[20] 3 V to 21 V in 20 mV steps[21] via USB PD 3.0 PPS (Programmable Power Supply) | 2.6 A or 4.6 A via QC 3 A via USB PD | 100 W (20 V⋅5 A) via QC[16] 27 W via USB PD |
| 2017 | Snapdragon 630, 636, 660, 710,[22][23] 835[24][25] |
Quick Charge 4+ |
| Snapdragon 670, 675, 720G, 712, 730, 730G, 845, 855, 865[26][27] | ||||
Quick Charge 5 | 100 W + |
| 2020 | Snapdragon 865, 865+ |
Other charging protocols[edit]
Quick Charge-based protocols[edit]
Note: These are compatible with Quick Charge-enabled chargers
- TurboPower (Motorola)
- Mi Fast Charging (Xiaomi/Redmi)
- Adaptive Fast Charging (Samsung)
- BoostMaster (Asus)
- Dual-Engine Fast Charging (Vivo)
![Math Math](https://support.content.office.net/en-us/media/f5dcd800-b606-418f-af53-6e2f21e24c4b.png)
Other proprietary protocols[edit]
- VOOC (OPPO)
- SuperCharge (Huawei)
- Dash Charge (OnePlus)
- Pump Express (MediaTek)
- Super FlashCharge (Vivo)
- Dart Charge (Realme)
- XCHARGE (Infinix)
Notes[edit]
- ^Some mobile phones deactivate fast charging during operation, and only activate fast charging during standby mode or power-off state.
- ^Because Quick Charge 3.0 power supplies are backwards-compatible with Quick Charge 2.0, Quick Charge 3.0 chargers are often able to deliver more power to Quick Charge 2.0 loads than Quick Charge 2.0 chargers, since Quick Charge 3.0 chargers support higher currents at the same voltages.
- ^The Galaxy Note 4, released in September 2014, was already equipped with Quick Charge 2.0.[17]
References[edit]
- ^'How fast can a fast-charging phone charge if a fast-charging phone can charge really fast?'. CNet. Retrieved 2016-12-04.
- ^Hackster.io guide: Custom voltage from Qualcomm Quick Charge powerbank.
- ^Hackaday guide: “Unlocking 12V Quick Charge On A USB Power Bank”
- ^Parikh, Prasham (2019-03-25). 'This is the fastest phone charging technology in the world'. EOTO Tech. Retrieved 2019-03-26.
- ^ abRoach, Everett (September 2015). 'Advancing charging technologies: Qualcomm® Quick Charge™'(PDF). Qualcomm.
- ^ abHumrick, Matt. 'Qualcomm Announces Quick Charge 4: Supports USB Type-C Power Delivery'. www.anandtech.com. Retrieved 2019-08-20.
- ^'Introducing Quick Charge 3.0: next-generation fast charging technology'. Qualcomm. 2015-09-14. Retrieved 2019-08-20.
- ^'For fast charging, look for Qualcomm Quick Charge 4+ in your next mobile device'. Qualcomm. 2017-06-01. Retrieved 2019-08-20.
- ^'How can Quick Charge 4+ turbocharge your mobile device?'. Qualcomm. 2018-02-23. Retrieved 2019-08-20.
- ^Russell, Brandon (12 August 2020). 'The Xiaomi Mi 10 Ultra is the first phone with Qualcomm's Quick Charge 5'. xda-developers. Retrieved 13 August 2020.
- ^'Qualcomm Announces Quick Charge for Wireless Power and Introduces Qi Interoperability'. Qualcomm. 2019-02-24. Retrieved 2019-08-20.
- ^Qualcomm.com: Qualcomm Quick Charge 1.0 Battery Charger ICs
- ^'Qualcomm Quick Charge 1.0: Less Time Charging, More Time Doing'. Qualcomm. 2013-02-14. Retrieved 2016-12-05.
- ^'Qualcomm's Quick Charge 2.0 technology explained'. Android Authority. 2014-11-06. Retrieved 2016-12-05.
- ^ ab'What is Qualcomm Quick Charge?'. Power Bank Expert. Retrieved 21 July 2020.
- ^ ab'What is Qualcomm Quick Charge 3.0?'. Belkin. Retrieved 2019-08-20.
- ^'Galaxy Note 4: To use fast charging, what kind of charger should be used?' — Samsung.com
- ^ ab'Compare Snapdragon Processors'. Qualcomm. Retrieved 14 May 2017.
- ^ ab'Quick Charge 3.0 specs'. Qualcomm.
- ^'Nubia Z17 by Nubia and PD6 by BatPower Compatibility'. Retrieved 2017-09-20.
- ^'Fresco Logic to demonstrate the Industry's First USB-C PD3.0 Programmable Power Supply (PPS) Total Solution'. Retrieved 2018-02-25.
- ^'Snapdragon 710 Mobile Platform Qualcomm'. Qualcomm. Retrieved 2018-08-25.
- ^https://www.qualcomm.com/media/documents/files/snapdragon-710-product-brief.pdf
- ^'Qualcomm can charge your phone faster than you can read this story'. CNET. Retrieved 2016-12-04.
- ^'Snapdragon 835 Mobile Platform'. Qualcomm. Retrieved 2018-08-25.
- ^'Snapdragon 845 Mobile Platform | Qualcomm'. Qualcomm. Retrieved 2018-01-04.
- ^https://www.qualcomm.com/media/documents/files/snapdragon-845-mobile-platform-product-brief.pdf
External links[edit]
Retrieved from 'https://en.wikipedia.org/w/index.php?title=Quick_Charge&oldid=983883614'
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