Upcoming USB-C standard more than doubles power delivery to 240W
The USB Implementers Forum in an update regarding revision 2.1 of its USB-C specification said the forthcoming protocol will be capable of accommodating power output of 240 watts.
Announced in an update posted to the USB-IF website, the new USB-C 2.1 specification release offers a deep dive into the coming protocol, including hardware requirements, restrictions and interoperability with other technologies.
As noted by CNET, version 2.1 of the standard will introduce a 240-watt option called Extended Power Range. Currently, USB-C version 2.0 tops out at 100W.
The increased power headroom will allow for a wider range of peripherals including large 4K monitors, gaming laptops, printers and more.
According to the USB-IF document, special markings will be required for cables that support EPR. The distinction will be important as the high-power USB-C spec proliferates through the personal computing and smartphone industries.
Initially designed to streamline data transfer, the USB protocol has morphed into a ubiquitous standard that spans system communications to, more recently, dedicated power delivery. Smartphones are the latest to turn to USB, as the thin, reversible USB-C connector and port enables relatively high transfer speeds, fast charging, and non-proprietary cables.
Apple, notorious for using its own connector standards, has been more open to adopting the latest USB flavors in its most recent hardware revisions. For example, iPad Pro moved to USB-C in 2018, while the company's initial batch of M1 Macs were the first to integrate USB 4.
While other smartphone manufacturers are migrating to the latest USB specification, Apple is not expected to make the leap anytime soon, according to analyst Ming-Chi Kuo. Beyond wider market pressures, Kuo sees potential technical issues related to waterproofing and notes Apple's Made for iPhone program could be impacted by a switch.
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Announced in an update posted to the USB-IF website, the new USB-C 2.1 specification release offers a deep dive into the coming protocol, including hardware requirements, restrictions and interoperability with other technologies.
As noted by CNET, version 2.1 of the standard will introduce a 240-watt option called Extended Power Range. Currently, USB-C version 2.0 tops out at 100W.
The increased power headroom will allow for a wider range of peripherals including large 4K monitors, gaming laptops, printers and more.
According to the USB-IF document, special markings will be required for cables that support EPR. The distinction will be important as the high-power USB-C spec proliferates through the personal computing and smartphone industries.
Initially designed to streamline data transfer, the USB protocol has morphed into a ubiquitous standard that spans system communications to, more recently, dedicated power delivery. Smartphones are the latest to turn to USB, as the thin, reversible USB-C connector and port enables relatively high transfer speeds, fast charging, and non-proprietary cables.
Apple, notorious for using its own connector standards, has been more open to adopting the latest USB flavors in its most recent hardware revisions. For example, iPad Pro moved to USB-C in 2018, while the company's initial batch of M1 Macs were the first to integrate USB 4.
While other smartphone manufacturers are migrating to the latest USB specification, Apple is not expected to make the leap anytime soon, according to analyst Ming-Chi Kuo. Beyond wider market pressures, Kuo sees potential technical issues related to waterproofing and notes Apple's Made for iPhone program could be impacted by a switch.
Follow all the details of WWDC 2021 with the comprehensive AppleInsider coverage of the whole week-long event from June 7 through June 11, including details of all the new launches and updates.
Stay on top of all Apple news right from your HomePod. Say, "Hey, Siri, play AppleInsider," and you'll get the latest AppleInsider Podcast. Or ask your HomePod mini for "AppleInsider Daily" instead and you'll hear a fast update direct from our news team. And, if you're interested in Apple-centric home automation, say "Hey, Siri, play HomeKit Insider," and you'll be listening to our newest specialized podcast in moments.
Comments
The iMac's power adapter might be using a draft version of the USB Power Delivery 3.1 standard (with a proprietary connector) since Apple is one of many companies involved in USB standardisation. If so, at maximum output it would be producing nearly 4A at 36V. In normal operation of the iMac, power output should be much lower: the iFixit teardown suggests 60W is typical (which would be 3A at 20V for USB Power Delivery).
Apple does not throttle the machine when power draw exceeds the AC adapter. Most non-Apple systems slow down the machine to keep the power draw with the ability of the adapter.
Apple does not throttle the machine when power draw exceeds the AC adapter. Most non-Apple systems slow down the machine to keep the power draw with the ability of the adapter.
What I’m wondering about is how much voltage we can keep pumping through USB without risking disasters with cable confusion and resulting safety issues (for devices and people). USB-C is a mess right now. It’s a great connector, mechanically, but the data and power issues are plentiful. It used to be that, so long as it’s the right connector, you couldn’t end up damaging things. Now...?
EDIT: why is my whole post some kind of weird hyperlink?
In brief (from a quick read): a new extended power range is used for >100W to 240W. It supports fixed voltage supplies able to operate at 28V, 36V or 48V as well as adjustable voltage supplies up to those limits. In all cases, maximum current is 5A so the higher fixed voltage options go up to 140W, 180W and 240W respectively. There is an additional negotiation phase (between source, sink and cable) before stepping up from standard to extended power range.
Honestly, I would like to see an end to terrible AC adaptors and use power USB-C as the port to rule for all devices that require that kind of power. I am so done with those junk adaptors with different ports. USB-C can easily negotiate for power requirement while AC adaptors cannot hence different port shapes.
And I'd love to see more of USB-C outlets in the walls too - a lot of devices can do just fine with just 240W or less. Most 75" TVs are less than 140W, I believe so it stands to benefit from using USB cord rather to use ac adaptors.
But I certainly don't want the mess we have with electric cars, where different manufacturers use different distribution systems. If competing companies could work together on a standard, we might move forward. But one of the main reasons electric cars aren't doing well is that manufacturers can't agree on a single charging system.