USB type c charger. Everything you wanted to know about USB Type-C

The first version of the Universal Serial Bus (USB) was introduced in 1995. It was USB that became the most successful interface in history. computing systems. Tens of billions of devices communicate with each other via USB, so the importance of this data transfer channel is difficult to overestimate. It seems that with the advent of the connector USB Type-C, our understanding of the capabilities and role of a universal bus may change dramatically. Before talking about the prospects, let's look at what the new universal connector offers.

The advantages and disadvantages of the new format interface connector have been discussed on the Internet for some time. The USB Type-C specification was finally approved at the end of last summer, but the topic of a universal connector aroused active interest after the recent announcement of the laptop, as well as new version, equipped with USB Type-C.

The USB Type-C connector is slightly larger than the usual USB 2.0 Micro-B, but noticeably more compact than the dual USB 3.0 Micro-B, not to mention the classic USB Type-A.

The dimensions of the connector (8.34x2.56 mm) allow it to be used without any particular difficulties for devices of any class, including smartphones/tablets with a minimum reasonable case thickness.

Structurally, the connector has an oval shape. Signal and power terminals are located on a plastic stand in the central part. The USB Type-C contact group includes 24 pins. This is much more than the previous generation of USB connectors. Only 4 pins were allocated for the needs of USB 1.0/2.0, while USB 3.0 connectors have 9 pins.

The first obvious benefit of USB Type-C is the symmetrical connector, which allows you not to think about which side to connect the plug to the socket. The age-old problem of devices with USB connectors of any format has now finally been resolved. At the same time, the solution to the problem is achieved not by the banal duplication of all contact groups. A certain automatic negotiation and switching logic is used here.

Another nice thing is that there are identical connectors on both sides of the interface cable. Therefore, when using USB Type-C, you do not need to choose which side of the conductor to connect the master and slave devices.

The outer shell of the connector does not have any holes or cutouts. To secure it in the connector, internal side latches are used. The plug must be held securely enough in the connector. There should not be any backlashes similar to those that could be observed with USB 3.0 Micro-B.

Many people are probably concerned about the physical reliability of the new connector. According to the stated characteristics, the mechanical life of the USB Type-C connector is about 10,000 connections. Exactly the same indicator is typical for USB port 2.0 Micro-B.

Separately, we note that USB Type-C is not a data transfer interface. This is a type of connector that allows you to tie together various signal and power lines. As you can see, the connector is elegant from an engineering point of view, and most importantly, it should be easy to use.

Data transfer rate. 10 Gb/s is not for everyone?

One of the advantages of USB Type-C is the ability to use the USB 3.1 interface for data transfer, which promises an increase in throughput up to 10 Gb/s. However, USB Type-C and USB 3.1 are not equivalent terms and are definitely not synonyms. The USB Type-C format can implement the capabilities of both USB 3.1 and USB 3.0 and even USB 2.0. Support for a particular specification is determined by the integrated controller. Of course, USB Type-C ports are more likely to appear on devices that support high data transfer rates, but this is not a dogma.

Let us remind you that even with the implementation of USB 3.1 capabilities, there may be differences in the maximum data transfer speed. For USB 3.1 Gen 1 it is 5 Gb/s, USB 3.1 Gen 2 is 10 Gb/s. By the way, the presented Apple Macbook and Chromebook Pixel have USB Type-C ports with a bandwidth of 5 Gb/s. Well and a clear example The fact that the new interface connector is very variable is the Nokia N1 tablet. It is also equipped with a USB Type-C connector, but its capabilities are limited to USB 2.0 with a bandwidth of 480 Mb/s.

The designation “USB 3.1 Gen 1” can be called a kind of marketing ploy. Nominally, such a port has capabilities identical to those of USB 3.0. Moreover, for this version of “USB 3.1” the same controllers can be used as for the implementation of the previous generation bus. At the initial stage, this technique will probably be actively used by manufacturers, releasing new devices with USB Type-C that do not require maximum bandwidth. When offering a device with a new type of connector, many will want to present it in a favorable light, declaring the presence of not only a new connector, but also support for USB 3.1, even if only conditional.

It is important to understand that the USB Type-C port can nominally be used for maximum performance connections at speeds of up to 10 Gb/s, but in order to obtain such bandwidth, the connected devices must provide it. The presence of USB Type-C does not indicate the real speed capabilities of the port. They should be clarified in advance in the specifications of specific products.

Some restrictions also have cables for connecting devices. When using the USB 3.1 interface, for lossless data transfer at speeds up to 10 Gb/s (Gen 2), the length of the cable with USB Type-C connectors should not exceed 1 meter, for connection at speeds up to 5 Gb/s (Gen 1) – 2 meters.

Energy transfer. 100 W unit

Another important feature that USB Type-C brings is the ability to transmit power up to 100 W. This is enough not only to power/charge mobile devices, but also for the trouble-free operation of laptops, monitors or, for example, “large” external drives 3.5" format

When the USB bus was originally developed, power transfer was a secondary function. The USB 1.0 port provided only 0.75 W (0.15 A, 5 V). Enough for a mouse/keyboard to work, but nothing more. For USB 2.0, the nominal current was increased to 0.5 A, which made it possible to obtain 2.5 W. This was often enough to power, for example, external hard drives 2.5" format For USB 3.0, a nominal current of 0.9 A is provided, which, with a constant supply voltage of 5V, already guarantees a power of 4.5 W. Special reinforced connectors on motherboards ah or laptops were capable of delivering up to 1.5 A to speed up charging of connected mobile devices, but this is still 7.5 W. Against the background of these figures, the possibility of transmitting 100 W looks like something fantastic. However, in order for the USB Type-C port to be filled with the necessary power, support for the USB Power Delivery 2.0 (USB PD) specification is needed. If there is none, the USB Type-C port will normally be able to output 7.5 W (1.5 A, 5 V) or 15 W (3 A, 5 V) depending on the configuration.

To streamline the energy capabilities of USB PD ports, a system of power profiles was developed that provides possible combinations of voltages and currents. Compliance with Profile 1 guarantees the ability to transmit 10 W of energy, Profile 2 – 18 W, Profile 3 – 36 W, Profile 4 – 60 W, Profile 5 – 100 W. Port that matches the profile more high level, supports all states of the previous ones in descending order. 5V, 12V and 20V were selected as reference voltages. The use of 5V is necessary for compatibility with the huge fleet of available USB peripherals. 12V is the standard supply voltage for various system components. 20V was proposed taking into account the fact that external 19–20V power supplies are used to charge the batteries of most laptops.

Of course, it’s good when the device is equipped with USB Type-C, which supports the maximum USB PD energy profile. It is this connector that allows you to transmit up to 100 W of energy. Obviously, ports with similar potential may appear on some powerful laptops, special docking stations or motherboards, where separate phases of the internal power supply will be allocated for the needs of USB Type-C. The point is that the required power must be somehow generated and supplied to the USB Type-C contacts. And to transmit energy of such power, active cables will be required.

It is important to understand here that not every port of the new format will be able to provide the declared power of 100 W. There is a potential opportunity for this, but this issue must be resolved by the manufacturer at the circuit design level. Also, don’t be under any illusions that the above 100 W can be obtained from, say, a power supply the size of a matchbox, and now you can charge your gaming laptop and a 27-inch monitor connected to it using a smartphone charger. Still, the law of conservation of energy continues to work, and therefore a 100 W external power supply with a USB Type-C port will still be the same weighty block as before. In general, the very possibility of transmitting energy of such power using a universal compact connector is, of course, a plus. At a minimum, this is a great opportunity to get rid of the inconsistency of original power connectors, which laptop manufacturers especially often sin with.

Another useful feature of USB Type-C is the ability to change the direction of energy transfer. If the circuit design of the devices allows, the consumer can, for example, temporarily become a charge source. Moreover, for reverse energy exchange, you don’t even need to reconnect the connectors.

Alternative mode. Not USB alone

The USB Type-C port was originally designed as a universal solution. In addition to direct data transfer via USB, it can also be used in Alternate Mode to implement third-party interfaces. The VESA Association took advantage of this flexibility of USB Type-C by introducing the ability to transmit video streams via DisplayPort Alt Mode.

USB Type-C has four high-speed lines (pairs) of Super Speed ​​USB. If two of them are dedicated to DisplayPort needs, this is enough to get a picture with a resolution of 4 K (3840x2160). At the same time, the data transfer speed via USB does not suffer. At its peak it is still the same 10 Gb/s (for USB 3.1 Gen2). Also, the transmission of the video stream does not in any way affect the energy capacity of the port. Even 4 high-speed lines can be allocated for DisplayPort needs. In this case, modes up to 5K (5120×2880) will be available. In this mode, USB 2.0 lines remain unused, so USB Type-C will still be able to transfer data in parallel, although at a limited speed.

In alternative mode, the SBU1/SBU2 pins are used to transmit the audio stream, which are converted into AUX+/AUX- channels. For the USB protocol they are not used, so there are no additional functional losses here either.

When using the DisplayPort interface, the USB Type-C connector can still be connected to either side. The necessary signal coordination is provided initially.

Connecting devices with using HDMI, DVI and even D-Sub (VGA) are also possible, but for this you will need separate adapters, however these must be active adapters, since for DisplayPort Alt Mode, Dual-Mode is not supported Display Port(DP++).

Alternative USB mode Type-C can be used for more than just the DisplayPort protocol. Perhaps we will soon learn that this port has learned, for example, to transmit data using PCI Express or Ethernet.

Compatibility. Difficulties of the “transition” period

If we talk about the compatibility of USB Type-C with devices equipped with USB ports of the previous generation, then it is not possible to connect them directly due to fundamental differences in the design of the connectors. To do this you will need to use adapters. Their range promises to be very wide. Of course, we are not just talking about converting USB Type-C to other USB types. Adapters for displaying images on screens with traditional DisplayPort, HDMI, DVI and VGA ports will also be available.

Along with the announcement of the new MacBook, Apple offered several adapter options. Single USB Type-C to USB Type-A is priced at $19.

Considering the presence of only one USB Type-C, the owner of a MacBook probably cannot do without a universal, more functional converter. Apple presented two such adapters. One output has USB Type-C, VGA and USB Type-A pass-through, the second option is equipped with HDMI instead of VGA. The cost of these boxes is $79. A 29 W power supply with native USB Type-C is priced at $49.

For the new Chromebook Pixel system, Google offers single adapters from USB Type-C to Type-A (plug/socket) priced at $13; for a converter to DisplayPort and HDMI you will have to pay $40. A 60 W power supply is priced at $60.

Traditionally, you should not expect humane price tags for additional accessories from equipment manufacturers. Adapter manufacturers are anticipating demand for their new products. Belkin is already ready to ship kilometers of conductors, but their cost also cannot be called low ($20–30). The company also announced, but has not yet introduced, an adapter from USB Type-C to a Gigabit Ethernet port. The price has not yet been announced; there is only information that it will be available in early summer. It's funny, but it seems that until this moment, in order to connect to a wired network, you will need to use two adapters at once. It is quite possible that someone will be more prompt than Belkin, offering an appropriate adapter earlier.

It will be possible to talk about a noticeable price reduction only after much lesser-known companies from the Middle Kingdom begin to work closely on accessories with USB Type-C. Considering the prospects that are opening up, we believe that this will not be the case.

Devices with USB Type-C. Someone has to be first

Nominally, the first device equipped with a USB Type-C port was a tablet. At least, it was this device that became the harbinger of the fact that ports of the new format left the developer’s laboratories and “went to the people.”

An interesting device, but, unfortunately, it is currently offered in a fairly limited edition. The tablet has a native USB Type-C port, although the USB 2.0 protocol is used for data transfer.

Perhaps the most significant product that will help increase the popularity of USB Type-C is the recently introduced . The 12-inch laptop is equipped with a single interface connector, so its owners will one way or another become pioneers who will adapt to life with USB Type-C.

On the one hand, Apple obviously supported the development of the new standard; moreover, the company’s engineers were directly involved in the development of USB Type-C. On the other hand, updated versions Macbook Air And MacBook Pro We did not receive this connector. Does this mean that the manufacturer’s USB Type-C will not be included in the “heavier” category of devices in the coming year? Debatable. After all, Apple probably won’t be able to resist updating its line of laptops after the autumn announcement of a new Intel mobile platform with Skylake processors. Perhaps this is when the Cupertino team will allocate space on the interface panel for USB Type-C.

The situation with tablets and smartphones is even more ambiguous. Will Apple use USB Type-C instead of Lightning for them? In terms of capabilities, the proprietary connector is noticeably inferior to the new universal port, but what about the original peripherals that users of Apple mobile products have accumulated since 2012? We will find out the answers to these questions with the update or expansion of the iPhone/iPad lines.

Google has introduced the second generation of stylish Chromebook Pixel laptops. Chrome OS systems are still quite niche solutions, but the quality Google systems captivating, besides, this time they are at the forefront of devices offering to join USB Type-C. Laptops are equipped with a pair of corresponding connectors. However, to be on the safe side, Chromebook Pixels also have two classic USB 3.0 connectors.

In general, Google representatives are very encouraged by the capabilities of the new connector, counting on the appearance of Android mobile devices with a USB Type-C connector in the near future. Uncompromising support from the largest platform holder is a powerful argument for other market players.

Motherboard manufacturers are not yet in a particular hurry to add a USB Type-C port for their devices. MSI recently introduced MSI model Z97A GAMING 6, which is equipped with such a connector with data transfer speeds of up to 10 Gb/s.

ASUS offers an external USB 3.1 controller with a USB Type-C port, which can be installed on any board with a free PCI Express (x4) slot.

Peripherals with native USB Type-C are still frankly not enough. Surely many manufacturers were in no hurry with the announcement, waiting for the appearance of systems with which it would be possible to use products with USB Type-C. In general, this is a typical situation when introducing another industry standard.

Immediately after the announcement of the Apple MacBook, LaCie introduced a series of portable external hard drives with USB Type-C.

SanDisk is already offering a flash drive with two connectors for testing – USB 3.0 Type-A and USB Type-C. The lesser known Microdia offers a similar product.

Surely we will soon see a significant expansion of the range of devices with USB Type-C. The flywheel of change will slowly but surely spin up. The support of “big” companies can influence the situation and speed up this process.

Results

The need for a universal compact connector that could be used to transmit data, video-audio streams and electricity has been brewing for quite some time. Considering the mutual interest on the part of both users and equipment manufacturers, there are all the prerequisites for USB Type-C to take off.

Compact dimensions, simplicity and ease of connection, along with ample capabilities, promise the connector the prospect of repeating the success of its predecessor. The usual USB port has been modernized several times, but the time has come for drastic changes. 10 Gb/s with the possibility of further scaling, power transmission up to 100 W and a picture with a resolution of up to 5K. Not a bad start? Another argument in favor of USB Type-C is that it is an open standard that does not require licensing fees from manufacturers. There is still a lot of work ahead, but there is a result ahead that is worth going through this path for.

Apple's latest MacBook laptop is equipped with a single USB Type-C port. But this form factor is not the corporation's own standard. USB Type-C is a new type of universal port standardized by the international USB-IF consortium. And over time, it will spread to all devices that these days are equipped with a classic (if not “old”) larger USB connector.

The variety of modern Apple MacBooks can be found on the pages of Bayon:

USB Type-C connector tightly intertwined with other new standards: high-speed USB 3.1 and “electric” USB Power Delivery, whose task is to supply sufficient current to power various devices.

In the article we will talk about the differences between USB Type-C and USB 3.1 and how the USB Power Delivery standard and the Type C port are similar.

Type-C is a new form of USB port

By its physical nature, the USB Type-C connector is a thinner port. The connector itself can support existing USB 3.1 and USB Power Delivery standards (USB PD for short). In fact, 3.1 and PD are “logical” varieties of USB, and Type-C is just the size, shape and type of port.

The most common USB connector belongs to the USB Type-A category. Even when moving from the “ancient” USB 1.1 standard to the long-lived 2.0 (and to the fast 3.0, which is usually marked in blue), the connector remained the same. At one time it seemed miniature, but after years of technological development it looks very massive. Its other drawback is the ability to connect to the device only with one specific side. Therefore, before attaching the connector to the port, you must ensure that it is in the correct position.

But the USB bus is also attractive for other devices! A major port USB classic form factor physically cannot be placed on the thin edges of smartphones, game controllers, digital cameras and all other gadgets where this data transfer standard begs to be used. This is how numerous connector standards were born, including the now widespread “micro” and “mini”.

A variety of connectors and connectors of the Universal Serial Bus class

“Zoo” of various sizes of USB ports is nearing closing. The reason for this is the new USB standard Type-C, which has a huge advantage: the miniature geometric dimensions of the port. Its dimensions are approximately one third of the “old” USB Type-A. The new form factor can be placed in any device. No more collections of wires: both for external hard drive, and you only need one cable to charge your smartphone. At the same time, the tiny port can both fit into the body of a mobile device and serve as a source of electricity even for the “gluttonous” peripheral devices. The cable ends on both sides with identical USB Type-C connectors.

The beautiful “chargers” of various shapes and colors will not go away, but the cable will be standard.

Unified Type-C standard

That’s right: a single standard, and so many “goodies” at once. There is something else: “Type C” (this is the English transcription of the name) is also attractive for its two-sided nature. You can insert the connector into this connector from either side. You no longer have to consider the direction of the “cord” in order to carefully insert it into the port.
While USB Type-C is just beginning its victorious march, data cables are an indispensable attribute of any computer household.

We recommend that you familiarize yourself with our products in this category: USB cables

USB class size Type-C can work in various “protocol” modes. In practice, this means that one and only The port can also connect HDMI, VGA, DisplayPort cables or other types of computer connections to peripherals. Digital USB-C multiport adapter from Apple is a great example of the above. This adapter allows you to connect HDMI or VGA video outputs and large USB connectors of the old standard to your computer. Type-A , and, of course, its native USB inputs Type-C . A bunch of all kinds of USB, HDMI, DisplayPort, VGA and other connectors that now decorate most laptops on all side edges can be replaced with just one type of port. Something similar has happened in recent years with mobile computer speakers - they are increasingly connected to the computer via USB, rather than through specific ports.

USB Power Delivery standard

Closely related to Type-C consists of another fresh standard of the consortium - USB PD. What is USB Power Delivery?

Many mobile devices- smartphones, tablets, pocket computers, can be charged from a computer when connected to it via USB. The USB 2.0 class port provides current transmission of up to 2.5 Watts - enough for leisurely recharging, but there was no need to think about more demanding devices: average laptop, for example, requires up to 60 watts.

USB Power Delivery specifications allow current transmission up to 100 W. Moreover, the direction of current can be bidirectional, so both devices connected by a USB cable can both send and receive electricity. At the same time as power supply is provided, data transmission is also possible. Both the new MacBook and Google's Pixel Chromebook are capable of charging their batteries when connected via a USB Type-C port. The new USB PD standard will allow you to forget about the numerous types of cables and connectors for powering laptops. Any device can be powered from a standard USB port. The current source for a laptop can be any newfangled “ external battery" You can connect the laptop to an external screen - and this display will share its current with the computer, while simultaneously showing the image sent to it by the computer via a small USB Type-C port.

All you need is support for USB Power Delivery technology. A regular USB Type-C port is not a guarantee of such electrical omnipotence. As Bayon already noted at the beginning of the article, Type-C is just a new geometry of this connector; everything else will depend on the specific manufacturer of this device- whether developers will want to equip their devices with Type-C-sized ports with USB PD support.

Relationship between USB Type-C and USB 3.1

USB 3.1 is the next milestone in the development of the USB bus. The theoretical bandwidth of USB 3.0 is limited to 5 gigabits per second. The new iteration, USB 3.1, doubles this figure - up to 10 theoretical gigabits/sec. This beautiful figure matches the speed of the first generation Thunderbolt port.

What is the difference between USB Type-C and USB 3.1?

The first (USB Type-C) is just the geometric shape of the connector, nothing more. Inside this “geometry” you can embed the old man USB 2.0, and its descendant 3.0, and their successor 3.1. In principle, nothing prevents you from placing even the logic of a frankly “museum” USB 1.1 in Type-C.

A practical example of the difference between USB Type-C and USB 3.1 is the Nokia N1 Android tablet. It is equipped with a new USB Type-C connector, but there is 2.0 bus logic inside (yes, not even 3.0). It also has an appropriate data transfer speed. However, these two technologies are directly related to each other, even if they are not synonymous.

Backwards compatible USB and new standard technologies

From a physical and geometric point of view, the USB Type-C connector is not compatible with its predecessors. And from a logical point of view, the developers have maintained full backward compatibility. In other words, it will not be possible to “shove” an ordinary bulky connector from a printer or mouse into the thin new Type-C connector. Fail and connect a modern flash drive or external HDD, equipped with a Type-C cable, into the classic USB port of a computer format, familiar to everyone.

Now let's get back to the good stuff. USB 3.1 standard is fully compatible with previous versions USB, so connecting old peripherals to a USB Type-C port requires only a simple adapter. The devices will work, there will be no problems.

How to live in the era of USB Type-C?

In practice, most new computers will be equipped with both the new USB Type-C ports and the familiar USB Type-A - at least for the foreseeable future. This process has already begun; let’s take the same Pixel Chromebook as an example. There is no need to change old peripherals (printers, scanners, flash drives with mice) to new devices with USB Type-C cables. And even if your future computer is orthodoxly equipped exclusively with USB Type-C ports (as is the case with the MacBook), inexpensive and increasingly common adapters will help solve the problem.

Bottom line: Bayona's thoughts on USB Type-C

A timely and long-awaited update, this new connector. The pioneers of USB Type-C are the MacBook developers, but this technology will soon spread far beyond the Apple universe. Over time, other ports will become a thing of the past, and the transition to a new era will be as painless as possible. Whatever the readers' opinion about Apple, this time they have given way to a new standard that will be useful to everyone.

Moreover, the USB Type-C port can replace the Lightning interface, which is used only by smartphones and tablets of this corporation. Lightning has no special advantages over USB Type-C - it is beneficial Apple only because it receives royalties for its use.

Today I will tell you about various USB Type-C cables. And I will try to dispel doubts about their feasibility. The review contains cables from Orico, which are designed to connect your device with a new-fangled connector to a computer or other device with USB 2.0 and USB 3.0 ports.

The USB type-C connector is just gaining popularity and many people not only haven’t seen it, but also don’t understand what innovations are behind it. On what basis are opinions spread such as “everything will burn out” and “why do I need another connector?”

I will try to tell in my own words. Others can find the specification “USB Type-C Specification Release 1.1.pdf”. .

In the text I use the word “connector” as a general word for the concepts “connector”, “socket”, “connector”, “port”, etc.

Historical information

And now on the fingers. A long time ago, in a galaxy far, far away, a data transfer specification called “USB” v1.0 was developed. Then USB 1.1 struck back. USB 2.0 has reached the masses. And USB 3.0, although not everywhere, has successfully settled in various devices. The USB 3.1 standard has made clarifications and amendments. And, most importantly, each standard had a bunch of corresponding connectors. By connector on different types devices with different purposes and partial backwards compatible - USB type-A, USB micro-A, USB Micro-B SuperSpeed.
It was the accumulated diversity and incomplete compatibility that brought confusion, inconvenience and gave rise to many jokes. So, the new USB type-C standard has become a “new hope”. It doesn't change the data transfer standard (but it does add one). This is a connector standard that combines the advantages of connectors from all previous USB standards and avoids their disadvantages.

Properties of USB type-C

Basic new introductions:
- one connector for everything (for printers, smartphones, flash drives... monitors!)
- mirror connector (no need to guess which way to insert it)
- small dimensions (it is slightly larger than micro USB)
- the connector is very securely fixed in the socket (yay!)
- must withstand up to 10,000 connections
- the connector supports USB 1.0 – USB 3.1 standards
- it invites devices to independently decide who to be master/slave and power source/consumer
- the cable can be passive or active (with electronics inside)

Basic old introductions:
- the standard does not define the length of the wire; it is already defined in data transmission standards
- the connector can withstand up to 5A, but this is described in the BC1.2 and Power Delivery standards

Next, you can talk about DisplayPort integration, audio transmission, and more. And I will try to do this in the following reviews, but for now let’s look at the implementation of three USB Type-C cables with backward compatibility.

Unboxing

And only now let’s look at the received parcel. Got to review

Each of them is packed in a little bag, in a cardboard box and in another little bag. Two of the three boxes were wrinkled during transportation. All cables are exactly 1 meter long and 3 mm thick (except LCU-10-BK, it is 4 mm). The wires are a little stiff and happily return to their old position.

Pinout

What does universality bring to backwards compatibility?
In the USB 2.0 – USB 3.1 standards, the master/slave roles are determined through the shape of the connector.
In the USB Type-C standard, the master/slave roles are determined through a pull-up resistor to ground or power. So connecting just one cable tells the USB Type-C device what to expect at the other end.

Test stand

The stand itself looks like this.


I have already tested various cables on it, so I have something to compare with. The charger is quite powerful and has good output voltage stability. The tester used can load the charger with a specified current value and store all measurement data.

The table contains the results of cable measurements at different currents.

* Direct column shows voltages without any cable. The remaining columns need to be compared with Direct and with each other.
* The gray column of ECU10bk shows the result of turning on the USB type-C connector on the other side.
* the remaining gray columns contain data from some cables I have previously measured.

Summary

So far there are very few devices with the new connector and the article is intended for those lucky ones
who are looking for similar “bridges” between generations.

* The USB type-C connector showed itself in all its glory. It is easy to insert, holds tightly and is easily removed. And it has a mirror arrangement of contacts.

* the most popular cable ECU-10-BK (USB type-C to USB type-A) showed good results. It can safely pass about 2A through itself. But yes, it does not live up to its meter-long relatives.

* a slightly specific cable LCU-10-BK (USB type-C to micro USB 3.0) suddenly showed completely identical results with different cable thicknesses and different connectors. It's even somehow strange.

* I can’t say what happened to the MCU-10-BK cable (USB type-C to micro USB 2.0). Perhaps it's just a marriage.

P.S. There will be a test of speed characteristics, but in another review.

The product was provided for writing a review by the store. The review was published in accordance with clause 18 of the Site Rules.

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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 usually refers 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 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 great advantage of Apple products, iPad or iPhone, but 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, for example, 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.

The rapid development of computer technology affects not only the main components of systems. The possibilities are increasing, including various interfaces. As for the most common method of connecting peripheral devices - USB - here, in general, we can state a multiple increase in productivity in recent years. The throughput of the universal serial bus increases and functionality expands. The connectors used to connect various USB devices are also undergoing changes. Today, many people hear about USB, and what are the advantages and disadvantages of the solution is the topic of this article.

Modern computer connectors

Looking around the body of almost any laptop, you can find a number of different ports located on the sides. Among them there is always USB, almost always HDMI and some others. Modern models are often equipped with the latest USB Type-C port. Many people don’t know what kind of connector this is, but it would be worthwhile to familiarize yourself with the capabilities of the port. Presumably, the connector will replace many other solutions in the future and become a truly universal standard. This is facilitated by the technical characteristics of the new method of pairing a computer and peripherals. The USB Type-C port offers users faster data transfer speeds, improved functionality, and a new level of usability. In short, the future of the standard looks very promising.

Multiple uses for one cable

The creators of USB Type-C used a very simple idea when developing the standard. The user must have a single type of cable, and his computer equipment is equipped with one type of port. By using a unified interface, you can connect anything you want. For example, using USB cable Type-C, can be connected inherently different devices, represented by hard drives, monitors, audio interfaces, smartphones, tablet PCs. Among other things, it becomes possible to use the connector in question even to charge a laptop.

USB-A

Today, almost all peripheral devices are connected to a PC via the usual USB-A connector. This port has firmly entered the computer world, has a familiar rectangular shape, and its use has become almost a standard for connecting flash drives, external keyboards, mice, hard drives, printers and many other devices to PCs and laptops. This monopoly is likely to be broken soon - the USB Type-C cable already takes its rightful place among the solutions used to connect many devices.

Change of concept

Various cables are used to connect devices to the now standard USB-A port. The main difference between them is the connector located on the opposite side of the cable connected to the computer. This is almost always a different type of connector. For example, micro-USB is used for smartphones, while mini-USB is often used for other gadgets. To connect the printer, you will need a USB-B cable, and to connect storage devices, you will need a micro-USB-B cable. This variety causes some inconvenience and difficulty, because a user who owns several devices always needs to have a whole set of cables at hand. Designed to be uniform for all devices, i.e., the universal USB Type-C cable greatly simplifies this situation.

New format

With the development of the standard, it became possible to install a single connector design for all devices, as well as the same connector at both ends of the cable. How can you tell when you pick up a USB Type-C cable that this is it? The solution is a thin connector, oval in shape and significantly smaller in size compared to previous cable and connector formats of this type. In addition, USB 3 Type-C received the most important characteristic represented by symmetry and reversibility. In general, it is very similar to the Lightning solution from Apple - very convenient, because you don’t need to waste time manipulating the cable to find the right way to connect.

Future

Probably today we can say that after a certain time, the USB Type-C connector will turn into the only universal port for all peripheral devices. Thus, USB-A, B, micro-USB and mini, which complicate life so much, will be replaced ordinary users to date. All cables should become the same and be able to be used for any device. Of course, quick unification will not happen; too many functional devices with connectors other than USB Type-C are in use today and will be in use for several more years.

At the same time, we should not forget: the expansion of new solutions has already begun. Eg, USB flash drive Type-C is no longer uncommon on the shelves of computer stores. In addition, the fact that flagship devices from the most famous brands are being released, equipped with the port in question, suggests that the described situation, i.e., the displacement of outdated connectors from the market will occur sooner or later. For compatibility with older solutions, you will have to use a USB Type-C adapter for now.

Compatibility

After reading the above, you can think about what to do with already purchased devices equipped with connector types other than USB Type-C. It must be said that this issue should not cause much concern. A wide variety of adapters have already been developed, produced and sold, allowing you to connect any device with a USB connector, regardless of its type. Adapters such as mini-USB - Type-C, micro-USB - Type-C and others are already widespread and perform their functions perfectly. The security principle, which has been used in computer technology for many years, no one is going to violate. If a new laptop or computer has a USB Type-C port, an adapter for other types of connector is a completely applicable and effective solution.

Learn more about the benefits of the connector

Of course, a simple revision of the design of the connector and port will not be a compelling reason to encourage the user to upgrade all of his existing peripherals, but performance is far from the only advantage of the new solution. The new format supports the most modern USB 3.1 protocol, which brings with it an increase in data transfer speed and greater versatility compared to previous versions used on devices equipped with USB-A.

Speed

More than two decades have passed since the presentation of the first version of the connector. At that time, the maximum speed at which data was transferred was 12 Mb/s. Today, we can say, considering USBType-C, that this is the fastest interface for connecting peripheral devices from existing solutions. The USB 3.1 standard is capable of providing a data transfer rate of 10 Gb/s.

Performance

Additional advantages of the standard under consideration, of course, include performance, represented by the ability to provide power transmission of up to 100 W. This figure is enough to power almost any laptop, not to mention smartphones, tablets and other gadgets. In addition to energy, the new format supports the transfer of a huge amount of data per unit of time. For example, today video signals in 4K resolution are successfully transmitted via USB Type-C.

Versatility

The universal nature of the newest standard opens up a wide range of practical applications. Mass useful functions can be provided with a single cable. For example, you can connect an equipped USB-C laptop to the monitor with external power supply and charge your laptop battery while watching video content. When storage devices are connected to the display, e.g. external drive, from a laptop you can access information stored on the media.

Disadvantages of USB Type-C

This connector is a brilliant new format that is sure to become a ubiquitous solution in the very near future. However, the initial stages of distribution and development, in which the standard is currently still in, do not provide a complete absence of dangers, as well as some confusion when using the connector.

Cheap accessories

The main problem that a user who decides to join modern trends may encounter is cheap, low-quality accessories and cables. Due to the large amount of power transferred through USB Type-C connectors, using poor quality cables may damage the paired devices. This factor must be taken into account by users without fail. When purchasing cables and adapters, you should choose products from reliable, trusted brands.

Confusion about standards

Another unpleasant issue that USB Type-C users may encounter today is caused by the fact that the standard in question relates more to the type of connector used than to the specifications of the interface itself. Therefore, it is quite likely that a device connected to a new connector will not work as fast as the owner of the device expected. The first generation uses USB 3.0 technology, providing a maximum speed of 5 Gb/s. The second generation of USB-C supports the 3.1 standard, the data transfer speed through which reaches 10 Gb/s. Problems with each of the ports arise because they look the same, but when producing ready-made solutions, brands use different components, even in lines of similar models. In other words, before purchasing a device with a USB Type-C connector, you need to check whether it matches the actual technical characteristics port to the required parameters.