From a blog post: Classic USB from the 1.1, 2.0, to 3.0 generations using USB-A and USB-B connectors have a really nice property in that cables were directional and plugs and receptacles were physically distinct to specify a different capability. A USB 3.0 capable USB-B plug was physically larger than a 2.0 plug and would not fit into a USB 2.0-only receptacle. For the end user, this meant that as long as they have a cable that would physically connect to both the host and the device, the system would function properly, as there is only ever one kind of cable that goes from one A plug to a particular flavor of B plug. Does the same hold for USB-C? Sadly, the answer is no. Cables with a USB-C plug on both ends (C-to-C), hitherto referred to as “USB-C cables”, come in several varieties. Here they are, current as of the USB Type-C Specification 1.4 on June 2019: USB 2.0 rated at 3A, USB 2.0 rated at 5A, USB 3.2 Gen 1 (5gbps) rated at 3A, USB 3.2 Gen 1 (5gbps) rated at 5A, USB 3.2 Gen 2 (10gbps) rated at 3A, and USB 3.2 Gen 2 (10gpbs) rated at 5A.
We have a matrix of 2 x 3, with 2 current rating levels (3A max current, or 5A max current), and 3 data speeds (480mbps, 5gbps, 10gpbs). Adding a bit more detail, cables 3-6, in fact, have 10 more wires that connect end-to-end compared to the USB 2.0 ones in order to handle SuperSpeed data rates. Cables 3-6 are called “Full-Featured Type-C Cables” in the spec, and the extra wires are actually required for more than just faster data speeds. “Full-Featured Type-C Cables” are required for the most common USB-C Alternate Mode used on PCs and many phones today, VESA DisplayPort Alternate Mode. VESA DP Alt mode requires most of the 10 extra wires present in a Full-Featured USB-C cable.
of this story at Slashdot.
Source:: Slashdot