This is the stuff that most people don’t care about, but it’s also the reason that you may own a USB cable that doesn’t do what you thought it should.
First USB stands for Universal Serial Bus. Now you can see why it’s abbreviated. Very simply, a technology bus works kind of like a bus in the real world: it transports stuff between two places, in this case two devices. A USB cable can carry data and power between your charger, your computer, or your car, and your phone.
USB Type-A (or USB A) was originally designed to be plugged into the computer, with USB Type-B (or USB B) to be plugged into the connected device. They were designed this way so that there would be no confusion as to which plug went where.
As USB standards developed, capabilities improved and smaller connectors became needed, especially with the advent of mobile phones. I’ll skip through some of the variations, but the initial standardized connector used on mobile phones (other than the iPhone, which I’ll talk about shortly) was the USB Micro B. Prior to 2007 most early mobile phone makers used proprietary connectors.
USB Micro B
As technology progressed, the mobile phone world (along with tablets and laptops) moved on to USB Type C.
One advantage of USB C is that there is no right side up. Also, newer devices (and vehicles) can support USB C at both ends of the USB cable which provides better performance and power. Apple has already moved to USB C for iPad Pro. And Thunderbolt 3 (which uses a USB C connector, but I’m getting ahead of myself) for MacBooks. (More about Thunderbolt in a future post.)
So that’s a quick review of the available USB connectors.
“Wait… what about Lightning?!” I hear many of you saying. Apple’s Lightning connector is not technically a USB connector, although it does have pins that pass USB data and power. This is why you can find Lightning to USB adapters. In fact, Apple has gone it’s own way with connector types since they first developed computers. Just as a recap, the first iPhone used a 30-pin proprietary connector designed by Apple.
Apple 30-pin Dock Connector
The Apple 30-pin Dock Connector was used on the original iPhone through the iPhone 4, along with iPods and iPads. The iPhone 5 saw the introduction of Apple’s Lightning connector.
Apple Lightning connector
One of the reasons that genuine Apple Lightning cables and adapters are so expensive, is that there’s actually a processor built in. This is why you can plug it in either way and it just works. Also, this is why some inexpensive cables that are not MFi certified don’t work properly. They don’t have the processor. It can be confusing because it seems that your cable works intermittently. What’s happening is that sometimes you plug it in one way and it works, and sometimes you plug it in the other way and it doesn’t work. That’s because they left out the processor, so it only works properly half the time but allowed them to sell it for less. (Here’s a little secret if you have one of these Lightning cables already: mark the connector on one side so you always plug it in the same way.) I’ll talk about why some of your other USB cables don’t work in my next post about USB standards.
The USB Implementers Forum (USB-IF) currently has representatives from seven technology companies, including Apple and Intel. This non-profit organization ensures that everyone is on the same page regarding USB compliance. At least everyone that chooses to comply with USB standards, which I’ll talk about in my next post.