USB Type-C - what is it? Just something simple

It is impossible to imagine a modern person without electronic devices. Smartphones, tablets, music players and laptops are found in almost every family today. Each of these devices has its own use and therefore each functions in its own unique way. However, there is something that in one form or another unites them all. And this is the presence of USB ports.

One day in 1994, 7 of the world's leading technology companies created a new standard for connecting computer peripherals. This is how the Universal Serial Bus appeared, which for short is called USB.

Today it is truly a universal standard, and it is difficult to find an electronic device that does not have a USB port of one type or another. But how do you know which cable is suitable for it? This guide will help you determine the type of USB connector and select the appropriate plug.

Variety of options

Almost everything modern computers And electronic devices have some form of USB connection and come complete with the appropriate cables. Does it matter which one is used, and what are all these differences for? This is really important for now, but it may change in the future.

In the mid-1990s. The universal bus became an industry standard, which made it possible to streamline the connection of computer peripherals. It has replaced a number of earlier interfaces and is now the most popular connector type in consumer devices.

However, it is still difficult to understand all the varieties of USB.

If the standard was supposed to be universal, why are there so many of them? different types? Each of them serves a different purpose, mainly ensuring compatibility when new devices with better specifications are released. Below are the most common types of USB connectors.

Type-A

Most cables and peripherals (such as keyboards, mice, and joysticks) have a Type A connector. Personal computers, laptops and netbooks usually have several ports of this form. Additionally, many other devices and power adapters use them for data transfer and/or charging. The connector has a flat rectangular shape and is the most recognizable and used. The USB Type-A pinout is as follows:

1. +5V - voltage +5 V.
2. D- - data.
3. D+ - data.
4. GND - ground.

All versions of USB standards retain the same form factor for Type-A, so they are mutually compatible. However, USB 3.0 connectors have 9 pins instead of 4, which are used to provide faster data transfer speeds. They are located so as not to interfere with the operation of pins of previous versions of the standard.

Type-B

This is an almost square-shaped connector that is mainly used to connect printers, scanners and other devices with their own power to a computer. Sometimes it can be found on external drives. These days, this type of connector is much less common than Type-A connections.

The connection form in version 3.0 of the standard has been changed, so backward compatibility is not supported, although the new type of ports accepts older modifications of plugs. The reason for this is that Type-B USB 3.0 has 9 pins for faster data transfer, while Powered-B has 11 pins, 2 of which provide additional power.

Again, as with Type-A, physical compatibility different versions does not indicate speed or functionality support.

Basic Concepts

Before attempting to understand the differences between types A and B, it is necessary to understand the concepts of host, receptor, and port.

The slot located on the front or back of the computer case (host) into which one end of the USB cable is inserted is called a port. An electronic device that needs to be charged or into which data needs to be transferred (such as a smartphone or tablet) is called a receptor.

The most popular USB standard is Type A, which can be seen at the end of almost every USB cable inserted into a host slot today. Most often, desktop computers, game consoles and media players are equipped with Type-A ports.

Type B connectors are found at the end of a regular USB cable that connects to a peripheral device, such as a smartphone, printer, or hard drive.

Benefits of USB

The standard simplifies the installation and replacement of equipment by reducing all communications to serial data transmission over twisted pair cables and identification of the connected device. If you add grounding and power here, you get a simple 4-wire cable, inexpensive and easy to manufacture.

The standard defines the way the peripheral interacts with the host. If you are not using USB On the Go (OTG), which allows you to limit the capabilities of the host, a direct connection is made. The USB device is not able to initiate communication, only the host can do this, so even if you have a cable with the appropriate connectors, the connection will not work without it. Additionally, since wires carry both power and data, connecting two hosts without an intermediary device can be disastrous, causing high currents, short circuits, and even fires.

Mini

The connector was standard for mobile devices before the advent of micro-USB. As the name suggests, mini-USB is smaller than normal and is still used in some cameras. The connector has 5 pins, of which 1 serves as an identifier for OTG support, allowing mobile devices and other peripherals to act as a host. Pinout USB Mini next:

1. +5V - voltage +5 V.
2. D- - data.
3. D+ - data.
4. ID - host/receptor identifier.
5. GND - ground.

Micro

This is the current connector standard for mobile and portable devices. It has been adopted by almost every manufacturer except Apple. Its physical dimensions are smaller than Mini-USB, but it supports high data transfer rates (up to 480 Mbps) and OTG capabilities. The shape is easily recognizable thanks to the compact 5-pin design.

The Lightning connector is not a USB standard, but rather an Apple proprietary connection for iPad and iPhone. It is similar to micro USB and is compatible with all Apple devices made after September 2012. Older models use a different and much larger proprietary connector.

Type-C

It is a reversible connector that promises faster data transfer and more power than previous types. It is increasingly used as a standard for laptops and even some phones and tablets, and has been approved by Apple for Thunderbolt 3.

Type C is a new solution and promises to be everything to everyone. It is smaller, faster and can receive and transmit much more power than previous versions.

Apple shocked the world when it introduced new MacBook with only one USB-C port. This will likely be the start of a trend.

You can read more about USB-C at the end of this article.

Nuances of micro-USB

Those of you who have a phone or tablet on Android platform, definitely have a micro USB cable too. Even the most die-hard Apple fans can't avoid them, as they are the most common type of connector used for things like external power boxes, speakers, etc.

Owners of many gadgets may find that these cables become plentiful over time, and since they are usually interchangeable, you may never have to buy them separately unless they get lost or fail all at once.

When shopping for a micro-USB cable, it may be tempting to go for the cheapest option, but as is often the case, this is a bad idea. Poor quality wires and plugs can easily break and become useless. Therefore, it is better to save yourself from future problems by purchasing a quality product from a reputable manufacturer, even if it costs a little more.

Another thing worth mentioning is the cable length. Short ones are great for transport, but they often mean you have to sit on the floor next to an outlet while your phone charges. Conversely, a cable that is too long can be awkward to carry, can become tangled, and can potentially cause injury.

0.9m is a good length for a charging cable. It allows you to keep your phone while connected to the battery in your bag or pocket, ideal for playing Pokemon Go or simply using your phone while traveling for long periods of time.

If you frequently charge from third-party USB ports to comply with safety precautions or when the device charges slowly, a special cable that prevents data transfer can solve the problem. An alternative is a network adapter.

Another issue that can be problematic is the fact that the connectors on most USB cables (except USB-C) are not interchangeable and often require several attempts to connect. correct connection. Some manufacturers have attempted to fix this. However, not all devices support this feature.

What is USB OTG?

It is a standard that allows portable and mobile devices to act as hosts.

Let's say you have an external drive, a laptop and a smartphone. What do you need to do to copy files from the disk to your phone? The easiest way is to move them from external storage to a laptop, and from it to a smartphone. USB OTG allows you to connect the drive directly to your phone, thereby bypassing the need for an intermediary.

And that's not all! There are many other ways to use OTG. You can connect any USB device to your smartphone, be it a flash drive, wireless mouse, keyboard, headphones, card readers, game controllers, etc.

USB cables

In a connected world, wired connections between various electronic devices play an important role. The demand for them is so high that tens of millions of USB cables are produced every year around the world.

Technologies are constantly developing and improving, as well as the corresponding ones peripherals. The same trend of upgrades holds true for USB connectors, but with so many versions and types of USB standards, it can become difficult to keep track of which USB is best suited for which functions. To do this, it is necessary to understand their basic differences.

USB types

The different versions of USB, such as 2.0 and 3.0, relate to the functionality and speed of the USB cable, and their type (such as A or B) mainly refers to the physical design of the connectors and ports.

The USB 1.1 standard (1998) is designed for a throughput of 12 Mbps, a voltage of 2.5 V and a current of 500 mA.

USB 2.0 (2000) is distinguished by the “HI-SPEED” marking on the USB logo. Provides speeds of 480 Mbps at a voltage of 2.5 V and a current of 1.8 A.

Adopted in 2008, USB 3.0 supports 5 Gbps at 5 V and 1.8 A.

USB 3.1, available since 2015, provides speeds of 10 Gbps at 20 V and 5 A.

The latest standard provides higher throughput and is mostly backward compatible with earlier versions. Standard-A connectors are identical to previous versions of Type-A, but are usually colored blue to distinguish them. They are fully backwards compatible, but the increased speeds are only available if all components are USB 3 compatible. The Standard-B and micro versions feature additional pins for increased throughput and are not compatible with previous versions. Older USB Type-B and Micro-B cables and connectors can be used with USB 3.0 ports, but will not improve speed.

Type C Connector Specifications

The name made headlines in tech magazines around the world when Apple released the 12” Macbook. This is the first laptop to include a Type-C design.

From a physical point of view, the connector is similar to existing option USB Micro-B. Its dimensions are 8.4 x 2.6 mm. Thanks to its small form factor, it can easily fit into even the smallest peripherals used today. One of many advantages of Type-C compared to others existing solutions is that it allows connection in reverse orientation, i.e. the plug will always be inserted correctly on the first try! The connector is designed in such a way that you don't have to worry about it being upside down.

Type-C supports the USB 3.1 standard and provides a maximum speed of 10 Gbps. It also has a significantly higher power output of up to 100W at 20V and 5A. Since laptops typically consume 40-70W, this means Type C easily covers their power requirements. Another functionality offered by USB Type-C is bidirectional power. In other words, you can not only charge your smartphone through a laptop, but also vice versa.

Type-C has received rave reviews from users around the world and has appeared in the popular Chromebook Pixel and Nexus 6P smartphones, as well as the Nokia N1 tablet.

We can confidently say that in the coming years all electronic devices will be equipped with ports of this type. This will make working with them easy and convenient. All you need is a single Type-C cable, which will eventually eliminate the tangled tangle of wires in your desk drawer.

Although the specifications were first published in 2014, the technology only really took off in 2016. Today, it has become a viable replacement not only for older USB standards, but also for others such as Thunderbolt and DisplayPort. The new Type-C audio solution is also a potential replacement for the 3.5mm headset jack. Type C is closely intertwined with other new standards: USB 3.1 provides more bandwidth and USB Power Delivery provides better power delivery.

Connector shape

USB Type-C is a new tiny connector that's barely the size of a microUSB. It supports various new standards such as USB 3.1 and USB PD.

The usual connector that everyone is familiar with is Type-A. Even after the transition from USB 1.0 to 2.0 and further to modern devices, it remained the same. The connector is just as chunky as before and only connects when oriented correctly (which obviously never works the first time). But as devices got smaller and thinner, massive ports simply weren't suitable anymore. This led to the emergence of many other forms of USB connectors such as Mini and Micro.

This inconvenient set of connectors of various shapes for devices of all sizes is finally becoming a thing of the past. Type C is the new standard of very small size. It is about a third of the old USB Type-A. This is a single standard that all devices must use, so to connect an external drive to a laptop or charge a smartphone from a charger, you only need one cable. This tiny connector is small enough to fit into an ultra-thin smartphone, but powerful enough to connect all your peripherals. The cable itself has identical Type C connectors on both ends.

Type-C has many advantages. The orientation of the connector doesn't matter, so you no longer have to flip the plug over and over again trying to find the right position. This is a single form of USB connector that everyone should accept, so for various devices no need to have a large number of different USB cables with different plugs. And there won’t be many different ports taking up scarce space on increasingly thin gadgets.

Moreover, Type C connectors can also support multiple protocols using "alternate modes" which allow you to have adapters capable of outputting HDMI, VGA, DisplayPort or other types of connections from that single connection. A good example This is the Apple Multiport Adapter, which allows you to connect HDMI, VGA, USB Type-A and Type-C. Thus, the many connectors on regular laptops can be reduced to one type of port.

Nutrition

The USB PD specification is also closely intertwined with Type-C. Currently USB connection 2.0 provides up to 2.5 W of power. This is only enough to charge your phone or tablet. The specification, supported by the USB-C standard, provides power supply of up to 100 W. This connection is bidirectional, so the device can both charge and charge through it. In this case, data transmission can occur simultaneously. The port allows you to charge even a laptop, which usually requires up to 60 W.

IN Apple MacBook and Chromebook Pixel Google The USB-C connector is used for charging, which allows you to finally abandon all branded power cables. At the same time, it becomes possible to charge laptops from portable batteries, which are usually used to charge smartphones and other electronics. And if you connect the laptop to an external display powered from the mains, then its battery will be charged.

However, please remember that the presence of a Type C connector does not automatically USB support P.D. Therefore, before purchasing devices and cables, you need to make sure that they are compatible with both standards.

Transfer rates

USB 3.1 is the latest Universal Serial Bus standard with a theoretical throughput of 10 Gbps, which is double more speed data transfer Thunderbolt first generation and USB 3.0.

But Type-C is not the same as USB 3.1. This is just the shape of the connector, and the technology behind it can be based on standards 2.0 or 3.0. For example, the Nokia N1 tablet uses a connector USB type Since version 2.0. However, these technologies are closely related. When purchasing, you just need to pay attention to the details and make sure that the device or cable you are purchasing supports the USB 3.1 standard.

Backward Compatibility

The physical Type C connector, unlike the basic standard, is not backward compatible. You can't plug older USB devices into today's tiny Type-C port, and you can't plug a USB-C plug into a larger, older port. But this does not mean that you will have to get rid of all the old peripherals. USB 3.1 is still compatible with previous versions, so you only need a physical USB-C adapter. And you can already connect old devices to it directly.

In the near future, many computers will have both Type-C USB connectors and larger Type-A connectors, like the Chromebook Pixel. This way, users will be able to gradually migrate from older devices by connecting new ones to USB Type-C. But even if the computer is manufactured with only Type C ports, adapters and hubs will fill this gap.

Type-C is a worthy upgrade. Although this port has already appeared in laptops and some smartphones, only they this technology not limited. Over time, all types of devices will be equipped with it. One day, the standard could even replace the Lightning connector used in iPhones and iPads. Apple's port doesn't have many advantages over USB Type-C, other than the fact that the technology is patented and the company can charge a licensing fee.

Recently, more and more phones and smartphones have been appearing on sale that, instead of the traditional Micro USB, use a new connector called USB Type-C. This type The connector appeared not so long ago and there is still little understanding of what it is and how it works.

If you also have questions related to USB Type-C, we suggest you read this article. Here you will find out what USB Type-C is, how it differs from Micro USB and what is better to choose. If you are also interested

What is USB Type-C in phones and smartphones

USB interface logo.

In order to understand what USB Type-C is, you need to make a short excursion into the history of this interface. is a computer interface that appeared in the mid-1990s and has since been actively used to connect peripheral devices to a computer. With the advent of smartphones, this interface began to be used in them, and a little later USB began to be used in ordinary mobile phones with buttons.

Initially, the USB standard included only two types of connectors: Type-A and Type-B. The Type-A connector was used to connect to a device on the side of which a hub or USB interface controller was used. The Type-A connector, on the contrary, was used on the peripheral device side. Thus, a regular USB cable included two Type-A connectors, which connected to a computer or other control device, and Type-B, which connected to a peripheral device.

In addition, both Type-A and Type-B have smaller versions of connectors, which are designated as Mini and Micro. The result is a fairly large list of different connectors: regular USB Type-A, Mini Type-A, Micro Type-A, regular Type-B, Mini Type-B and Micro USB Type-B, which was commonly used in phones and smartphones and more known as Micro USB.

Comparison of different connectors.

With the release of the third version of the USB standard, several additional connectors appeared that supported USB 3.0, these are: USB 3.0 Type-B, USB 3.0 Type-B Mini and USB 3.0 Type-B Micro.

This whole zoo of connectors no longer corresponded to modern realities, in which easy-to-use connectors, such as those from Apple, were gaining popularity. Therefore, along with the USB 3.1 standard, a new type of connector called USB Type-C (USB-C) was introduced.

The advent of USB Type-C solved several problems at once. Firstly, USB Type-C was originally compact, so there is no need to use Mini and Micro versions of the connector. Secondly, USB Type-C can be connected to both peripheral devices and computers. This allows you to abandon the scheme in which Type-A was connected to the computer, and Type-B to a peripheral device.

In addition, USB Type-C supports a lot of other innovations and useful functions:

• Data transfer speeds range from 5 to 10 Gbit/s, and with the introduction of USB 3.2 this speed can increase to 20 Gbit/s.
• Backwards compatible with previous USB standards. Using a special adapter, a device with a USB Type-C connector can be connected to regular USB previous versions.
• Symmetrical connector design that allows you to connect the cable to either side (just like Apple's Lightning).
• The USB Type-C cable can be used to quickly charge mobile phones, smartphones, and compact laptops.
• Support for alternative operating modes in which the USB Type-C cable can be used to transfer information via other protocols (DisplayPort, MHL, Thunderbolt, HDMI, VirtualLink).

What is the difference between USB Type-C and Micro USB

USB Type-C (top) and Micro USB cables.

Users who choose mobile phone or smartphone, you are often interested in the difference between USB Type-C and Micro USB. Below we have collected the main differences and advantages of these connectors.

• USB Type-C is a connector for the future. If you choose flagship smartphone, which you plan to use for several years, then you should pay attention to models with USB Type-C. This connector is actively gaining popularity and in the future more and more devices will appear with its support. There is no need to worry about problems connecting to your computer. If your computer is not equipped with this connector, then you can always connect your phone using an adapter.
• USB Type-C is convenient. Thanks to its symmetrical design, connecting USB Type-C is much easier than classic Micro USB. In order to charge a phone with USB Type-C, you just need to plug the cable into it, and you don’t need to look at the connector and choose which side to connect it to. In addition, due to their symmetry, USB Type-C connectors are more stable and rarely damaged.
• USB Type-C is fast. As we already said, USB Type-C supports data transfer rates from 5 to 10 Gbps. If your phone supports this speed, then you can copy data much faster than when using Micro USB, the speed of which is limited by the USB 2.0 standard (up to 480 Mbps).
• Micro USB (or rather Micro USB Type-B) is a time-tested connector, the main advantage of which is its prevalence. A charger and cable with such a connector can be found in any office or home. Therefore, with Micro USB you will always find somewhere to charge your phone or smartphone.

Which is better USB Type-C or Micro USB

Let’s conclude the article by answering the question of which is better, USB Type-C or Micro USB. In short, USB Type-C is definitely better. You can buy a phone with USB Type-C just for the sake of a symmetrical connector. Most users charge their phone every day, so something as small as a symmetrical connector that can be plugged in on either side makes life much easier. On the other hand, if you often charge your smartphone outside the home, then the usual Micro USB may be preferable. This way you will have less problems finding a suitable cable or adapter.

You should also note the data transfer speed. If your phone and computer support USB 3.1, then via USB Type-C can transfer data at speeds up to 10 Gbps, while Micro USB can provide a maximum of 0.5 Gbps.

Advantages of the USB 3.1 port:
★ fast
★ powerful
★ universal

Advantages of the Type-C connector:
★ durable
★ symmetrical

Now you are guaranteed to connect the USB cable to the device the first time.

⚠ It is necessary to distinguish between the concepts “ port" And " connector». Connector(socket) Type-C can be soldered to an old phone (instead of micro-USB), but port USB 2.0 will remain the old one - it will not increase charging and data transfer speeds. The only conveniences that will appear are the symmetry and reliability of the connector.

⚠ Thus, the presence of Type-C does not mean anything. Smartphone models with a new connector are sold, but with old port. The advantages listed in this article do not apply to such smartphones.

Assigning Contacts

The connector contacts in the diagrams are shown from the outside (working) side, unless otherwise specified.

The port contains 24 pins (12 pins on each side). The “upper” line is numbered A1…A12, the “lower” line is numbered B1…B12. For the most part, the lines are identical to each other, which makes this port indifferent to the orientation of the plug. The contacts of each line can be divided into 6 groups: USB 2.0, USB 3.1, Power, Ground, Matching channel And Additional channel. Now let's take a closer look.

Actually, USB 3.1. High-speed data lines: TX+, TX-, RX+, RX- ( pins 2, 3, 10, 11). Speed ​​up to 10 Gb/s. In the cable, these pairs are recrossed, and what is RX for one device appears as TX for another. And vice versa. By special order, these pairs can be retrained for other tasks, for example, video transmission.

Good old. Low speed data lines: D+/D- ( pins 6, 7). This rarity was included in the port for the sake of compatibility with old low-speed devices up to 480 Mb/s.

Power supply plus - Vbus(pins 4, 9). Standard voltage is 5 volts. The current is set depending on the needs of the peripherals: 0.5A; 0.9A; 1.5A; 3A. In general, the specification of the port implies a transmitted power of up to 100W, and in case of war, the port is capable of powering a monitor or charging a laptop with a voltage of 20 volts!

GND - Mother Earth (pins 1, 12). Minus everything.

Matching channel(or configurator) - SS ( pin 5). This is the main feature USB type-C! Thanks to this channel, the system can determine:

— The fact of connecting/disconnecting a peripheral device;
— Orientation of the connected plug. Oddly enough, the connector is not completely symmetrical, and in some cases the device wants to know its orientation;
— Current and voltage that should be provided to the peripherals for power or charging;
— The need to work in alternative mode, for example, to transmit an audio-video stream.
— In addition to monitoring functions, this channel, if necessary, supplies power to the active cable.

Additional channel - SBU (pin 8). The additional channel is usually not used and is provided only for some exotic cases. For example, when transmitting video over a cable, an audio channel is transmitted over the SBU.

USB 3.1 Type-C pinout

The “striped color” here shows the contacts of the bare wire.

A strange decision was to mark the D+ and D- wires not as in USB 2.0, but vice versa: D+ white, D- green.

Wires are marked with a gray outline, whose color, according to Wikipedia, is not regulated by the standard. The author did not find any indication of the colors of the wires in official documentation.

Wiring Type-C connectors ▼

Diagram of a typical USB-C male-to-male cable▼

USB PD Rev.2 (USB Power Delivery) power/charge technology

The USB-C cable does not have such concepts as “connector-A” or “connector-B” - the connectors are now the same in all cases.

Device roles are designated with new terms:

DFP- active, power supply device (as if USB port-A)
UFP- passive, receiving device (like a USB port) B)
DRP- a “two-faced” device that dynamically changes its status.
In addition, the charger is called Power Provider, charging - Power Consumer.

The distribution of roles is carried out by setting a certain potential on the CC contact using one or another resistor:

Active device ( DFP V bus.
The resistor value tells the consumer how much current he can expect:
56 ±20% kOhm - 500 or 900 mA
22 ±5% kOhm - 1.5 A
10 ±5% kOhm - 3 A

▲ Adapters from USB 2.0 (3.0) to USB-C, used to connect new smartphones to old PCs or storage devices, are wired according to the DFP scheme, that is, they show themselves to the smartphone as an active device

Passive device ( UFP) is determined by the resistor between contacts CC and GND.
Resistor value: 5,1 kOhm

▲ Adapters from USB-C to USB-OTG are wired exactly according to the UFP scheme, that is, they imitate a consuming device.

⚠ USB PD Rev2 technology in which by contact CC agree current And voltage charge should not be confused with Quick Charge (QC) technology, where the contacts D− And D+ only consistent voltage charge. USB PD Rev2 is only supported in USB 3.1.
QC is supported without reference to the port version.

USB-micro-USB-C adapter

Wiring the Type-C to USB 3.0 OTG adapter board from different sides ▼

Analog audio via Type-C

The standard provides the ability to transmit analog audio through a digital port. This feature is implemented in HTC smartphones U series, HTC 10 Evo, Xiaomi Mi, LeTV. The author will be grateful if the reader adds to this list.

To work in this mode, use analog headsets with a Type-C plug. Adapters are provided to connect the classic one.

Analog audio is transmitted via Data−, Data+, SBU1 and SBU2 channels. The smartphone enters this mode if there is a headset or adapter in the plug between contacts A1-A5 and B1-B5 a resistance of less than0.8…1.2 kOhm. Instead of a resistor, I could see just a jumper.

Video over USB-C

To transmit video via USB 3.1, the “DisplayPort Alternate Mode” has been developed.
See the list of devices that support this mode. I think it will be very useful for many. I don’t know what kind of cord you had and whether it worked with QC3.0 before? How long did you live in it? “Normal USB” - what is it?

Why is the new USB standard really better than the usual USB ports on phones, tablets or laptops, and which devices already have USB Type-C connectors? The CHIP editors answer all these questions.

First a little important information: The designations USB Type-C and USB 3.1, as they say, go hand in hand, since they actually mean the same thing. When the USB 3.1 number is used, it is usually referring to the data transfer speed.

If you come across the name USB Type-C, it usually refers directly to the type of connector for connecting devices. First, let's compare the previous USB 3.0 standard with the new USB 3.1. You will find all the details in the table below.

Comparison of USB 3.0 and USB 3.1

The best devices with USB Type-C

What USB Type-C devices are currently available? The first of these was the 12-inch MacBook, in which this connector was the only one. The current Google phones Nexus 6P and 5X are also equipped with USB 3.1 - and in general, more and more manufacturers are integrating a port of the new standard into their smartphones.

In the following table we have compiled for you a list of the most interesting devices with a USB Type-C interface.

USB Type-C: these devices already have it

The USB connector can no longer be connected incorrectly

USB Type-C: Type C plug (left) can be used on either side

That's what makes the USB Type-C connector incredibly convenient: it's symmetrical. You no longer have to think about how hard it will take to insert the plug into the socket correctly. Previously, this connector property was a big advantage of the product. Apple, iPad or iPhone, and now it is becoming available to the masses of users. This cable can be inserted in either direction.

Let us mention one more significant advantage over the USB 3.0 standard: due to the maximum transmitted power increased to 100 W, various peripheral devices, such as monitors or speakers, will be able to be connected via USB 3.1 in the future without an additional power source. The current strength of 5 A also significantly reduces the charging time of a mobile phone.

In 2015, Apple released its first gadget equipped with a new and, surprisingly, only USB Type-C port. , which has only one port, caused a storm of discontent among the company's fans.

And then it was tolerated, fell in love, and Apple to this day not only very successfully sells the 12-inch line of ultrabooks, but also equipped the USB Type-C series MacBook Pro, completely abandoning the classic USB 2.0/3.0, and indeed any additional ports.

Almost three years have passed since the release of the MacBook, but users still have questions about using the newfangled USB Type-C port. I am especially concerned about the selection of cables and accessories.

In this material we will understand all the nuances of the new standard. I will try to present the material in such a way that after reading it no more questions arise, but USB ports Type-C in MacBook and MacBook Pro has become known.

Where did USB-C come from and where did the problem creep in?

The USB standard itself appeared in 1994. USB 1.0 was conceived as a universal port for connecting all kinds of equipment to a PC. They began to actively use it only in the 2000s.

USB 2.0. Then it was time for USB 2.0. USB 2.0 cables have a strict orientation and come in two types of connectors: USB Type-A and USB Type-B. With the growing popularity of mobile devices, two more types of connectors will later appear: USB Micro-B and USB Mini-B.

Data was transmitted over two cables, usually green and white, while black and red were responsible for power.

The maximum data transfer speed over USB 2.0 is 480 Mbit/s. The main disadvantage of the standard is that the currents are too low ( no more than 500 mA), which often caused problems when connecting external drives.

USB 3.0. Having decided to eliminate the shortcomings of USB 2.0, engineers are developing a new standard - USB 3.0. “Blue USB” became significantly faster and was able to transfer data at high speeds up to 5 Gbit/s.

Perhaps this was due to the appearance of four additional communication lines, and, as a result, an increase in the maximum current up to 900 mA.

In the fall of 2013, the specifications of the updated USB 3.1 Type-C standard were approved. Since then, life has ceased to be the same.

What exactly is USB Type-C?

Despite the fact that engineers had already released three iterations of the USB standard, the main question still remained open to them. It was necessary to provide normal nutrition.

A pathetic current of 900 mA is clearly not enough to recharge the same 8-10 thousand mAh laptop battery. In addition, more power-hungry accessories began to appear on the market, and the tendency of manufacturers to make devices thinner and more compact forced them to abandon ports such as HDMI, Thunderbolt, classic USB, and Ethernet.

Instead of 8-pin USB 3.0, 24-pin USB 3.1 Type C appears. Why are there so many of them? Judge for yourself:

The new USB Type-C specification has opened up a number of new opportunities for users.

Firstly, USB Type-C has a new USB PD standard, according to which this port and the corresponding cables must be able to transmit current power up to 100 W in both directions.

Secondly, the data transfer speeds are impressive. Thunderbolt 3 Alternate Mode can transfer data at speeds up to 40 Gbps. Of course, with certain “ifs”, but more on that below.

Thirdly, it can transmit video with a resolution of up to 5K. There is plenty of speed here and the need for HDMI simply disappears.

Finally, USB Type-C is convenient because no matter how you plug it in, it will work. It's two-sided. A logical continuation of the Lightning cable, but now not only for Apple devices.

What then is installed in the MacBook and MacBook Pro?

Before we figure out the choice of cables and USB Type-C accessories, we need to understand the USB Type-C ports that are installed in MacBooks.

Unfortunately, the USB Promoter Group made a lot of mistakes with the USB 3.1 specification, producing several generations of ports and completely confusing users.

Let's unravel this Gordian knot.

So, here are all generations of MacBook and the corresponding USB Type-C ports installed in them.

That is, you should immediately understand that if you have a 12-inch MacBook, you can forget about Thunderbolt 3 support, which means it’s stupid to overpay for support for this specification when choosing a cable.

The MacBook 12″ supports video transmission via HDMI, VGA and DisplayPort (with appropriate adapters), but it cannot be connected to Thunderbolt devices.

With MacBook Pro 2016 and newer, everything is much more interesting. Until the recent update, the 13-inch MacBook Pro models only had Thunderbolt 3 support (the ones on the left).

In 2018, all four ports in models with TouchBar fully support data transfer at full speed. For the 12-inch MacBooks, everything remains unchanged.

Choosing the right cable for specific tasks

The choice of USB Type-C cable directly depends on the task you are pursuing. This specification is very extensive and has certain limitations.

1. For charging

USB Type-C supports charging power up to 100 W. MacBooks come with a corresponding charging cable with a built-in controller that limits the maximum charging power.

The 12-inch MacBook comes with a cable with a maximum charging power of up to 61 W. With MacBook Pro 13 and 15 inches 87 W respectively.

This means only one thing: if you connect a 61-watt cable to an 87-watt charger and try to charge a MacBook Pro 15" from, say, 2018, it will charge at 61 watts. That is, one and a half times slower.

This also applies to other certified charging cable manufacturers.

Is it possible connect your MacBook to a higher power charger? Can. Instead of the included 29 W power supply, you can power it with a charger from a 15-inch MacBook Pro at 87 W. This is not terrible, but there will be no miracle and the MacBook will not charge faster.

And yes, it's not harmful. The MacBook will take exactly as much as it can. By the way, the story is the same with the iPad.

To finally resolve issues with charging and get a cable “for all occasions,” you can opt for the original 2-meter USB-C cable for RUB 1,490.

2. For transmitting video signal like HDMI

You decide to connect an external monitor or TV to your MacBook or MacBook Pro. Let's figure out what to use to transmit a video stream in conjunction with USB Type-C.

First and foremost, determine which input port the external monitor or TV is equipped with.

For HDMI. There is a universal option that will not only add a standard USB 2.0/3.0 port and HDMI to MacBooks, but also duplicate USB Type-C. Costs 5,490 rubles.

For VGA. A similar, but more archaic solution for VGA for the same 5,490 rubles.

For Thunderbolt 3. There are already several Thunderbolt 3 display models on the market (12-inch MacBooks are passing by). 0.8 meters of such cable will cost 3,190 rubles.

The same option can be used for charging (up to 100 W). By overpaying 2 thousand rubles and buying this instead of a USB Type-C charging cable, you will get a truly universal cord that supports data transfer at speeds of up to 40 Gbps.

Important. Don't go for length. Two-meter and half-meter cables supporting Thunderbolt 3 are different things.

But, here it is worth bringing some clarity.

3. For connecting USB 2.0/USB 3.0 devices

Perhaps this is the only case when there are no problems with adapters. The same standard USB Type-C -> USB adapter for 1,490 rubles. capable of delivering up to 5 Gbit/s.

This is exactly what the USB Type-C port in the 12-inch MacBook family is designed to do.

4. For maximum data speed (5K and 4K 60Hz)

40 Gbps - this is the maximum USB Type-C gen 2 with Thunderbolt 3 support can transmit. But this is under ideal conditions.

To ensure this speed, the cable length must not exceed 18 inches or 45 centimeters. Otherwise, the speed drops sharply.

But even here everything is not so clear. Thunderbolt 3 cords fall into two categories: passive And active. And you should pay attention to this if speed is important to you.

The first, with a length of two meters, transmit data at half the speed, that is, at the level of 20 Gbit/s, or even less.

Active ones have a special transmitter that controls the transmission speed along the entire length of the cable. With such laces the speed is maintained.