Today it was announced by the USB-IF (USB Implementers Forum) that the latest USB connector which we first caught a glimpse of in April has been finalized, and with this specification many of the issues with USB as a connector should be corrected. USB, or Universal Serial Bus, has been with us for a long time now, with the standard first being adopted in 1996. At the time, it seemed very fast at up to 12 Mbps, and the connector form factor was not an issue on the large desktop PCs of the day, but over the years, the specifications for USB have been updated several times, and the connectors have also been updated to fit new form factor devices.

In the early ‘90s, when USB was first being developed, the designers had no idea just how universal it would become. The first connectors, USB-A and USB-B, were not only massive in size, but the connection itself was only ever intended to provide power at a low draw of 100 mA. As USB evolved, those limitations were some of the first to go.

First, the mini connectors were introduced, which, at approximately 3 mm x 7 mm, were significantly smaller than the original connector, but other than the smaller size they didn’t correct every issue with the initial connectors. For instance, they still had a connector which had to be oriented a certain way in order to be plugged in. As some people know, it can take several tries to get a USB cable to connect, and has resulted in more than a few jokes being made about it. The smaller size did allow USB to be used on a much different class of device than the original connector, with widespread adoption of the mini connectors on everything from digital cameras to Harmony remotes to PDAs of the day.

USB Cables and Connectors - Image Source Viljo Viitanen

In January 2007, the Micro-USB connector was announced by the USB-IF, and with this change, USB now had the opportunity to become ubiquitous on smartphones and other such devices. Not only was the connector smaller and thinner, but the maximum charging rate was increased to up to 1.8 A for pins 1 and 5. The connection is also rated for at least 10,000 connect-disconnect cycles, which is much higher than the original USB specification of 1,500 cycles, and 5,000 for the Mini specification. However once again, the Micro-USB connector did not solve every issue with USB as a connector. Again, the cable was not reversible, so the cable must be oriented in the proper direction prior to insertion, and with USB 3.0 being standardized in 2008, the Micro connector could not support USB 3.0 speeds, and therefore a USB 3.0 Micro-B connector was created. While just as thin as the standard connector, it adds an additional five pins beside the standard pins making it a very wide connection.

With that history behind us, we can take a look at the changes which were finalized for the latest connector type. There are a lot of changes coming, with some excellent enhancements:

  • Completely new design but with backwards compatibility
  • Similar to the size of USB 2.0 Micro-B (standard Smartphone charging cable)
  • Slim enough for mobile devices, but robust enough for laptops and tablets
  • Reversible plug orientation for ease of connection
  • Scalable power charging with connectors being able to supply up to 5 A and cables supporting 3 A for up to 100 watts of power
  • Designed for future USB performance requirements
  • Certified for USB 3.1 data rates (10 Gbps)
  • Receptacle opening: ~8.4 mm x ~2.6 mm
  • Durability of 10,000 connect-disconnect cycles
  • Improved EMI and RFI mitigation features

With this new design, existing devices won’t be able to mate using the new cables, so for that reason the USB-IF has defined passive cables which will allow older devices to connect to the new connector, or newer devices to connect to the older connectors for backwards compatibility. With the ubiquity of USB, this is clearly important.

There will be a lot of use cases for the new connector, which should only help cement USB as an ongoing standard. 10 Gbps transfer rates should help ensure that the transfer is not bottlenecked by USB, and with the high current draw being specified by connectors, USB may now replace the charging ports on many laptops as well as some tablets that use it now. The feature that will be most helpful to all users though is the reversible plug, which will finally do away with the somewhat annoying connection that has to be done today.

As this is a standard that is just now finalized, it will be some time before we see it in production devcies, but with the universal nature of USB, you can expect it to be very prevalent in upcoming technology in the near future.

 

Source: USB-IF

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  • repoman27 - Wednesday, August 13, 2014 - link

    USB 3.0 SuperSpeed has a nominal data rate of 5 Gbit/s but uses 8b/10b encoding so it's really only 4 Gbit/s, and that's before taking any sort of protocol overhead into account. USB 3.1 SuperSpeedPlus doubles the data rate to 10 Gbit/s AND switches the encoding scheme to 128b/132b to make even more bandwidth available to the upper layers.

    @willis936 The Nyquist frequency for USB 3.1 SuperSpeedPlus is 5 GHz. Over short cables (1 m is the practical length limit stated by the USB-IF) it's really not that big of a deal for passive copper using shielded twinax, micro-coax, or bonded UTP. My home network has been GbE for 10 years now, and the only reason I haven't bumped up to 10GbE is because the switches are still a bit expensive. 10GBASE-T runs into trouble because you're trying to jam 10 Gbit/s over potentially 100 m of UTP where a good amount of the installed plant is only rated for up to 100 MHz. This means you have to break out higher order modulation schemes and throw a ton of power at it to get anywhere. Phones and tablets already do USB 3.0, HDMI, MHL and MyDP, so 5+ Gbit/s really ain't a thang.

    Interestingly, all Type-C USB 3.1 cables will have 4 differential pairs despite SuperSpeed and SuperSpeedPlus only using 2 pairs. It looks like they built in the potential for future speed increases through bumping up to 15 Gbit/s and/or using multiple channels.
    Reply
  • AnnonymousCoward - Monday, August 18, 2014 - link

    Nyquist frequency? We're not talking about minimum sample rates! (To capture a 5GHz signal, you need to sample at greater than 10GHz.) 10Gbps _is like_ 5GHz when you have 1010 bits. Reply
  • repoman27 - Monday, August 18, 2014 - link

    The minimum sampling rate would be the Nyquist rate, not the Nyquist frequency, no? willis936 said: "So they've found a way to violate Shannon's theorem? Fascinating." If you consider a discrete-time system with a sampling rate of 10 GHz, half that, or 5 GHz would be the Nyquist frequency. 2 bits per cycle, right? Reply
  • AnnonymousCoward - Monday, August 18, 2014 - link

    I think "sampling" is an unrelated topic. When you digitally store an analog waveform, you capture samples, and the highest frequency that will be maintained is 1/2 the sampling rate. 44.1kHz digital audio stores up to 22kHz sounds (minus some for a non-ideal low pass filter...but I'm not audio expert).

    In this conversation we're just talking about a bunch of digital bits. 10Gbps data is similar to a 5GHz clock during the 1010 portions, and intersymbol interference (ISI) will make it even worse. I think Nyquist terms only apply if you're talking about sampling analog waveforms.
    Reply
  • Assimilator87 - Wednesday, August 13, 2014 - link

    I always found it funny that a standard with "Universal" in the name should have so many different variations of the plug. Reply
  • nunomoreira10 - Wednesday, August 13, 2014 - link

    just like sd cards, the drive circuit is the same but different sizes fit different needs Reply
  • icebox - Wednesday, August 13, 2014 - link

    It's the serial bus that's universal, not the plug. Solder the wires directly and it would still be usb. Reply
  • spikebike - Wednesday, August 13, 2014 - link

    Lets hope the new USB standard actually is durable. Unlike micro-usb connectors that claim 10k insertions, but only under laboratory conditions featuring a robot.

    I've lost phones, cables, and chargers to the plague that is micro-usb.
    Reply
  • Cygni - Wednesday, August 13, 2014 - link

    In what historical revisionist world can USB 1 be described as a 'massive' plug? Compare it to the parallel or serial ports we were using at the time, or even something like SATA Express today. Sure, its too big for smartphones... but smartphones didnt freakin' exist when it came around, and many smartphone connection todays are comically small/weak.

    Honestly the USB plug 1 is just the right size for a connection to me (for everything but smartphones). Large enough to plug it in by feel alone, small enough to jam 8 of them on an IO panel.
    Reply
  • Paul Tarnowski - Wednesday, August 13, 2014 - link

    I remember trying to figure out a rail system to use on a smartphone-like device back in college. Essentially it would let you connect as many plugs as could fit within the rail and over 4 lines. Magnets would hold the plugs in place, and the controller would use an IRQ system to address the right device. All I needed was to find a way around the system being shorted by mistake and a controller that ran at over 10GHz.

    In 1999.

    It was a great deal of mental exercise that went absolutely nowhere.
    Reply

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