Type A and Type B, as well as the smaller-sized variants therein, have dominated the USB market for much of the technology’s existence. The other key difference between USB variants lies in their connective plugs. On the other hand, the SuperSpeed USB 3.2 can transfer data at a rate of 2.5 Gigabytes per second. For instance, USB 1.0, at full speed, could transfer data at 1.5 Megabytes per second. Primarily, the USB version number refers to the speed at which USB-housed data can transfer. You should know the key differences between the different variants. Otherwise known as a Universal Series Bus, chances are good that you’ve used a USB drive to transfer documents at some point in the past. It’s been a rapid journey for USB from 1.0 to the newest iterations, and it’s probably a bit more complicated than you thought. This includes a wide range of use cases, like through dedicated USB-C monitors. Now, 23 years later, USB 3.2 is undergoing industry adoption via USB-C (or USB Type-C) connectors. Or find out more about ViewSonic’s range of monitors here. Read more below to learn more about getting a USB-C monitor that works for you. But there are still some drawbacks to the tech that you should be aware of first. With 2-way data transfer, charging, and a host of other advantages, it looks like USB-C connections may be the future of monitors and other devices. As devices move towards a universal connection type, it’s useful to have the broad functionality of a USB-C connection on your display. A USB-C monitor uses the highly versatile – but super-fast – USB-C cable to connect to your device.
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