If you want to better understand terms such as USB Type-C, USB 3.0, or USB 3.2, then you should read this article.
Which connector is the most popular today? Undoubtedly, it is USB, which exists in many standards. The USB port allows you to transfer data, charge devices, and connect them to each other. Over the 30 years of its existence, the USB connector has become an integral part of many devices, and the large number of varieties provide users and equipment manufacturers with more and more options… and confusion.
We’re so used to it that we take it for granted. You’ve probably used a USB device too, although you may not really know what USB is or how it works. You’ve probably heard abbreviations like USB Type C or USB 3, but you might want to know more. In this article, I’ll explain what USB is, tell you a little bit about the history of the standard, and show you the differences between different types and versions of USB ports.
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USB stands for Universal Serial Bus and represents the industry standard for cables, connectors and communication protocols that are designed to connect, communicate and provide power between various computer devices. It is used in many devices, ranging from a typical keyboard and mouse to cameras, printers, scanners, flash drives, external storage devices, smartphones, tablets, TVs, and more.
The Universal Serial Bus is a plug-and-play interface. This means that you can connect a device with a USB port to your computer and the computer will automatically detect and install the device, although you may need to provide the necessary drivers for your operating system. USB can act as a communication medium, transferring data to connected devices and, for example, from your computer to your keyboard and vice versa.
USB can also supply power to devices. This feature is one of its most useful properties because it not only allows devices to communicate with each other, but also allows them to be powered or charge their batteries. For example, smartphones have a USB port that is used for both data transfer and battery charging. Many newer laptops now also charge their batteries exclusively via the USB port and without the need for separate power adapters.
If you’re wondering why USB is called a bus, the fact is that in the old days of computing, the term “bus” was used to refer to a shared line of communication between different hardware components in a computer. This is why USB is called a bus: because it allows multiple devices to communicate with your PC.
The Universal Serial Bus, or USB for short, was developed in 1996 with the assistance of several key companies: Compaq, DEC, IBM, Intel, Microsoft, NEC and Nortel.
Before the invention of USB, computers connected to peripherals such as keyboards, mice, printers, scanners and cameras using different types of ports and connections. For example, before the advent of USB, keyboards and mice were typically connected via PS/2 or serial ports. Printers and scanners did the same via parallel ports. And if you were a gamer back in the day, you also needed a gaming port to play games on your computer with a joystick or gamepad. Just look at the examples in the image below:
The first USB ports did not have high-speed transmission, so hardware manufacturers did not adopt this interface at first. But a few years after it was developed, the companies that created it refined the USB interface and created the USB 2.0 version, which was much faster. Thanks to this, the USB port became very widespread after 2000 and can now be found on all types of devices. Since then, USB has become the main way to connect devices and transfer data between them.
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Since its first development, the USB interface has become faster with each version. Here are the main revisions or versions of USB:
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The USB 4 connector is sometimes referred to as Thunderbolt 3. So I thought I’d add some clarification.
Unlike the USB standard, which is known for its versatility and is recognised as a “standard”, Thunderbolt is a standard developed and licensed by Intel. However, Thunderbolt 3 was mainly passed down from USB-IF and used to create USB4, so the connection between the two is now hazy. It is a cross-platform standard for data and power transfer, but devices must be certified to use this standard, and Intel’s standards are much stricter than USB-IF’s.
The Thunderbolt protocol is commonly found in laptops and sometimes desktops and can be used to connect DisplayPort-compliant devices, including external monitors, as well as PCI Express (PCIe) peripherals, such as external graphics cards, hard drives, Wi-Fi or Ethernet connectors via the USB Type-C port. The current generation of the protocol, Thunderbolt 4, supports bandwidths of up to 40 Gbps. Compared to the last generation of Thunderbolt 3, the new version provides improved support for 4K displays (from one 4K monitor to two), doubles the PCIe bandwidth, and guarantees 40Gbps bandwidth, which was optional with Thunderbolt 3.
So, there’s USB and Thunderbolt, and USB4 is based on Thunderbolt 3, which was replaced by Thunderbolt 4. You may be confused, and that’s not surprising. What you need to know is that USB 4 does not guarantee high performance, while Thunderbolt 4 promises more. Although USB 4 is based on Thunderbolt 3, it doesn’t mean that every USB 4 device, port, and cable will have the same features and performance as any Thunderbolt 3 or 4 connection.
The next generation of Thunderbolt is also on the horizon, and Thunderbolt 5 promises to increase bandwidth to 80Gbps, which is double the bandwidth of Thunderbolt 4 and Thunderbolt 3 (40Gbps). However, 80Gbps is the speed for devices that need the same bandwidth in both directions. Some devices can have 120Gbps of bandwidth in one direction and only 40Gbps in the other, such as USB 4 2.0. This is useful for displays and possibly even storage devices. The release date for Thunderbolt 5 is unknown at the time of writing, although a launch later in 2023 or 2024 is likely.
Now that we’ve seen what types of USB standards exist, it’s time to take a look at the types of USB ports and connectors.
There are several ways to distinguish between USB connector options. The first is the type of connector, which determines what the end of the USB cable or connector looks like on the device. Today, we know three types of USB connectors: A, B, and C. The most popular is the USB Type A connector, which can be found, for example, in a flash drive. USB Type B is not as popular, while the most common connector today is USB Type-C. Due to its small size, it is ideal for compact devices such as smartphones, wireless headphones, or thin laptops. USB Type-C can also be considered an excellent successor to miniUSB and microUSB.
In addition to several types of plugs and connectors, USB also has many versions. The first ones, i.e. USB 1.0 and USB 1.1, worked well in the 1990s. They were a good alternative to serial and parallel inputs, but data transfer speeds of up to 1.5 MB/s quickly became insufficient. At the end of 1998, the USB 2.0 specification was introduced, with transfer speeds of up to 60 MB/s.
Interesting. The USB Type C connector was created around the same time as USB 3.1, so people often make the mistake of thinking that USB 3.1 and USB Type C are the same thing. In fact, they are not, as USB 3.1 is a USB protocol and USB Type C is a connector specification. Adding to the confusion is the fact that there are some devices (mostly smartphones) that come with USB Type C connectors but only support USB 2.0.
The USB Type-C port will soon become the only acceptable standard in the European Union. New EU regulations will require manufacturers of new devices to use this port. Why did the EU legislator take this step? Numerous studies show that chargers and cables for purchased devices are often simply thrown away by new owners. The reason is that they have enough of such equipment at home. In total, more than 10,000 tonnes of cables and chargers are thrown into landfills every year.
In addition to standardising connectors in electronic devices, another change will be the elimination of cables in the sales kits. Most users use only one or two cables anyway (e.g. at home and at work) to charge all their devices. When you buy a new device, it is often the case that the cable you used before is still in good working order, so you don’t need a new one. Getting rid of chargers and cables will also reduce the size of the package, which will have a positive impact on the lightness and environmental friendliness of the packaging.
It is worth noting that currently only one electronics manufacturer uses a connector other than USB Type-C. Of course, we are talking about Apple, which will have to introduce a USB Type-C port on its devices in autumn 2024.
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Although not mandatory, but rather common practice, different versions of USB are colour-coded. So just look at the back of your computer or at the end of the cable to see which technology you’re dealing with. This is especially important when you want to connect multiple devices to your computer.
Then you have to choose when a slow connection is sufficient (e.g. keyboard, mouse, printer) and when it is better to connect to a modern fast USB connector. For this reason, the following colour codings are used for the individual versions of the USB bus:
We do not yet have colour coding for the USB 4 connector. This is only the case with USB Type A connectors. USB 4 always has a USB Type-C connector. You can often find a description of the connector next to it, indicating the USB type. The USB 4 connector is also compatible with DisplayPort 2.0 and PCIe 5.
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In the case of USB connectors, the connection is usually made with a data cable. However, it cannot be infinitely long; certain types of USB have a maximum cable length in their specification. The longest cable can be USB 2.0 – it reaches 5 m. For USB 1.x and USB 3.x, the maximum cable length is 3 m. The ultra-fast USB 4 connector, introduced in 2019, has the shortest cable. It can reach 80 cm.
In the case of USB connectors, the main parameter is the bandwidth. It determines the speed of data transfer through a particular connector. However, the ability to charge devices is no less important. The USB connector and additional technologies offer a lot of possibilities here. Even with basic USB 2.0 and USB 3.0, charging capabilities are already available (2.5 and 4.5 W respectively), with USB Power Delivery making really fast charging possible. The maximum load of the USB PD connector is increased to 100 W, although it should be added that for power outputs of more than 10 W, a suitable cable must be used. The USB connector must then also have an external power supply.
So USB Power Delivery is not just for data transfer or connecting basic devices (keyboards, mice, additional drives). With the USB PD connector, we can charge a laptop or a connected portable monitor. In addition, with a single USB Power Delivery cable, we can simultaneously transmit images and power a display.
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You can use the USB battery charging port to charge various devices, such as a smartphone. This technology allows you to increase the current strength and quickly charge the connected equipment. Sometimes the port is called Super Charger or Charger+.
The possibilities of very fast charging and its increasing power can be seen in the example of smartphones. There, by connecting a suitable charger to the USB Type-C connector, we can count on a charging power of several tens or even more than 100 watts! One of the record holders is the Vivo iQOO 10 Pro smartphone with 200W charging. This power allows you to charge a 4700 mAh battery in just 10 minutes. I recently tested the realme GT Neo 3 with a 150W battery charge. Believe me, it is really impressive when your smartphone is fully charged in 15 minutes. Other manufacturers are not far behind.
These are the two most common types of connectors you’ll find on modern PCs. But what is the commonality and difference between USB Type-C and USB Type-A? Which one is more important and better? These are the questions that come up when it’s time to buy the best laptop or the best computer for your needs.
Externally, USB Type-A and USB Type-C have different types of connectors. The former has a flat rectangular horizontal connector, while the latter has a smaller rectangular connector with rounded edges.
These differences mean that each type of USB cable has significantly different capabilities. So here’s why it’s important to understand these differences. This way you will know whether your USB device is compatible with the port you want to connect it to, and what you can achieve with it.
Without further ado, I suggest we move on to a step-by-step analysis of the big differences between USB Type-C and USB Type-A.
It should be noted that USB type-A ports and cables have been around for quite some time, so most people are familiar with them. USB Type-A connectors have a rectangular horizontal port with pins on the underside. This design means that the connection only works if the cable is inserted correctly. If you try to insert the cable incorrectly you will encounter resistance. Be careful not to try to force the cable into the connector.
USB Type-A began to lose relative relevance after the introduction of USB Type-C in 2014, but many modern devices still have at least one USB Type-A port. The fact is that there are still millions of peripherals and devices that need a USB Type-A connection. This is the main reason why USB type-A will not completely disappear any time soon, even though it is an older connection type.
USB-C (or USB Type-C) is slowly becoming the standard port for consumer devices. Almost every new modern laptop, tablet or smartphone has a USB Type-C connection. This is because this type of connection solves many of the problems associated with USB Type-A. Plus, it also has many features that are even superior to its predecessor.
To start with, the USB Type-C ports are smaller and thinner than USB Type-A. Thanks to the symmetrical connector design, you don’t have to worry about which way you put the cable into the port. It’s so practical and convenient! The USB Type-C adapter is backwards compatible with USB Type-A and various connection types, including HDMI.
Support for the Power Delivery standard allows you to charge larger electronics, such as laptops, via Type-C. SuperSpeed and SuperSpeed+ support (via USB 3.0 and above) enables faster data transfer rates. USB Type-C is also compatible with Thunderbolt 3 and Thunderbolt 4, so you’ll often see laptops and desktops with USB-C/Thunderbolt 4 combo ports – the port supports either cable.
USB 3.0 (aka USB 3.1), 3.2 and 4.0 are data protocols for USB connections and refer to the data formats the port can handle. In general, the higher the number, the better, and you can determine which versions your USB device supports by looking at the packaging and/or manual.
Simply put, improved versions of the USB protocol provide faster data transfer and power. Most of us will never be careful enough to tell the difference between USB 3.0 and USB 3.2, but it’s nice to know how it all works.
USB 3.0 can achieve transfer rates of up to 5 Gbit/s, while USB 3.1 can already achieve transfer rates of up to 10 Gbit/s. However, the next USB 3.2 has two 10Gbps lanes and is therefore capable of data transfer speeds of up to 20Gbps.
Both USB-A and USB-C can support USB 2.0 up to 3.2, which makes all this a bit confusing, as the USB port has both connector type (USB-C vs USB-A, or rounded vs rectangular) and USB specification, which shows as far as it can go.
However, the latest USB 4.0 specification can reach up to 40Gbps and is only available in USB Type-C form.
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This question keeps popping up when there is a question about these two different types of USB connections. The answer is on the surface.
USB Type-C is by far the better connection type due to its faster data transfer speeds, ability to charge larger electronics, and symmetrical connection port. That’s why it’s becoming the industry standard and will become ubiquitous in the near future. However, USB type-A is not completely useless. Peripherals and devices are still manufactured with it. There is no getting away from it. Not all manufacturers are ready for a complete switchover. Although in some cases you may only need USB Type-C.
There are millions of devices that still use USB-A ports. Machines without USB-A ports, such as the new 14-inch MacBook Pro and Dell XPS 13 Plus, can put you at a disadvantage if you don’t have an adapter. After all, an external hard drive or SSD with a USB Type-A connection won’t do you any good if you can’t connect it via USB Type-C. Besides, USB Type-A, designed for USB 3.0, is quite sufficient for everyday work and even for transferring large photos or videos, if you don’t mind taking the time. Especially if you like to use USB sticks.
What about a new technology emerging on the horizon of the USB standard? USB 4 is one of the latest developments in USB Type-C technology with great potential for innovation. It is definitely the fastest USB standard with possible transfer rates of up to 40Gbps, although the competing Thunderbolt 3 standard is just as fast. Those looking for the fastest USB performance should consider USB4 and Thunderbolt 3 or 4, which are likely to become more available soon.
So, while USB Type-C is objectively better than USB Type-A, the latter still has its place in the world of computers and could hold out for a few more years. But the transition to USB Type-C is inevitable. Even the new iPhone 15 will switch completely to this new type of USB connection this year. Because progress is unstoppable!
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Most of us today cannot imagine life without USB ports. They are used to charge devices and transfer data between them. The biggest advantages of USB are its compact size (especially in the case of USB Type C), efficient data transfer, and the ability to quickly charge other devices.
Each successive generation of USB has better and better parameters, which is worth considering when choosing new equipment. In addition, USB Type C will soon become mandatory for many new electronic devices sold in the European Union. Therefore, when buying a new smartphone or laptop, you should choose devices with the new generation of USB.
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