The USB interface is a popular form of technological communication on mobile and other digital devices. Connectors of this kind are often found on personal computers of various configurations, peripheral computer systems, on cell phones, etc.
A feature of the traditional interface is a small-sized USB pinout. For work, only 4 pins (contacts) + 1 grounding shielding line are used. True, the latest more advanced modifications (USB 3.0 Powered-B or Type-C) are characterized by an increase in the number of working contacts. What we will talk about in this material. We also describe the structure of the interface and the features of the cable wiring on the connector pins.
Types of USB Connectors
The abbreviation "USB" carries an abbreviation, which in its entirety reads as "Universal Series Bus" - a universal serial bus, due to which high-speed digital data exchange is carried out.
The versatility of the USB interface is noted:
- low power consumption;
- unification of cables and connectors;
- simple recording of data exchange;
- high level of functionality;
- wide support for drivers of different devices.
What is the structure of the USB interface, and what types of USB technology connectors exist in the modern world of electronics? Let's try to figure it out.
Technological structure of the USB 2.0 interface
The connectors related to products included in the group of specifications 1.x - 2.0 (created before 2001) are connected to a four-wire electric cable, where two conductors are supply and two more transmit data.
Also, in specifications 1.x - 2.0, the wiring of service USB connectors suggests connecting a shielding braid - in fact, the fifth conductor.
This is the physical design of the normal USB connectors related to the second specification. On the left are the versions of the type "father", on the right are the versions of the type "mother" and the pinout corresponding to both options
Existing versions of universal serial bus connectors of the marked specifications are represented by three options:
- Normal - type "A" and "B".
- Mini - type "A" and "B".
- Micro - type "A" and "B".
The difference between all three types of products lies in the design approach. If the normal connectors are intended for use on stationary equipment, the mini and micro connectors are made for use in mobile devices.
This is the physical design of the connectors of the second specification from the “mini” series and, accordingly, the labels for the Mini USB connectors - the so-called pinout, based on which the user makes a cable connection
Therefore, the last two types are characterized by a miniature design and a slightly modified connector shape.
Pinout table for standard connectors of type “A” and “B”
Contact | Specification | Cable conductor | Function |
1 | Power + | Red (orange) | + 5V |
2 | Data - | White (gold) | Data - |
3 | Data + | Green | Data + |
4 | Nutrition - | Black blue) | Earth |
Along with the execution of mini-A and mini-B connectors, as well as micro-A and micro-B connectors, there are modifications of mini-AV and micro-AV connectors.
A distinctive feature of such structures is the execution of the wiring of USB conductors on a 10-pin contact pad. However, in practice, such connectors are rarely used.
Micro USB and Mini USB interface pinouts for “A” and “B” type connectors
Contact | Specification | Cable conductor | Function |
1 | Power + | Red | + 5V |
2 | Data - | White | Data - |
3 | Data + | Green | Data + |
4 | Identifier | – | Host device |
5 | Nutrition - | The black | Earth |
Technological structure of USB 3.x interfaces
Meanwhile, the improvement of digital equipment by the time of 2008 led to the moral aging of the specifications 1.x - 2.0.
These types of interface did not allow the connection of new equipment, for example, external hard drives, so as to ensure a higher (more than 480 Mb / s) data transfer rate.
Accordingly, a completely different interface appeared, marked with specification 3.0. The development of a new specification is characterized not only by increased speed, but also gives an increased current strength of 900 mA versus 500 mA for USB 2/0.
It is clear that the appearance of such connectors provided service for a larger number of devices, some of which can be powered directly from the universal serial bus interface.
Modification of USB 3.0 connectors of different types: 1 - execution of "mini" type "B"; 2 - standard product of type "A"; 3 - development of a series of "micro" type "B"; 4 - standard execution of type "C"
As you can see in the picture above, interfaces of the third specification have more working contacts (pins) than the previous - second version. However, the third version is fully compatible with the "deuce".
In order to be able to transmit signals at a higher speed, the developers of the designs of the third version were equipped with an additional four data lines and one line of the zero contact wire. Augmented contact pins are arranged in a separate row.
Table of designation for the pins of connectors of the third version for wiring the USB cable
Contact | Execution "A" | Execution "B" | Micro-b |
1 | Power + | Power + | Power + |
2 | Data - | Data - | Data - |
3 | Data + | Data + | Data + |
4 | Earth | Earth | Identifier |
5 | StdA_SSTX - | StdA_SSTX - | Earth |
6 | StdA_sstx + | StdA_sstx + | StdA_SSTX - |
7 | GND_DRAIN | GND_DRAIN | StdA_sstx + |
8 | StdA_SSRX - | StdA_SSRX - | GND_DRAIN |
9 | StdA_SSRX + | StdA_SSRX + | StdA_SSRX - |
10 | – | – | StdA_SSRX + |
11 | Shielding | Shielding | Shielding |
Meanwhile, the use of the USB 3.0 interface, in particular, the “A” series, was a serious design flaw. The connector has an asymmetric shape, but it does not specifically indicate the connection position.
The developers had to deal with the modernization of the design, as a result of which in 2013 the USB-C option appeared at the disposal of users.
Upgraded USB 3.1
The design of this type of connector involves duplication of the working conductors on both sides of the plug. There are also several redundant lines on the interface.
This type of connector is widely used in modern mobile digital technology.
The location of the pins (pins) for the USB-C type interface relating to the series of the third specification of connectors designed for communication of various digital devices
It is worth noting the characteristics of USB Type-C. For example, the speed parameters for this interface show a level of 10 Gbit / s.
The design of the connector is made in a compact design and ensures a symmetrical connection, allowing insertion of the connector in any position.
Pinout table compliant with specification 3.1 (USB-C)
Contact | Designation | Function | Contact | Designation | Function |
A1 | GND | Grounding | B1 | GND | Grounding |
A2 | SSTXp1 | TX + | B2 | SSRXp1 | Rx + |
A3 | SSTXn1 | TX - | B3 | SSRXn1 | RX - |
A4 | Tire + | Power + | B4 | Tire + | Power + |
A5 | CC1 | CFG Channel | B5 | SBU2 | PPD |
A6 | Dp1 | USB 2.0 | B6 | Dn2 | USB 2.0 |
A7 | Dn1 | USB 2.0 | B7 | Dp2 | USB 2.0 |
A8 | SBU1 | PPD | B8 | CC2 | CFG |
A9 | Tire | Nutrition | B9 | Tire | Nutrition |
A10 | SSRXn2 | RX - | B10 | SSTXn2 | TX - |
A11 | SSRXp2 | Rx + | B11 | SSTXp2 | TX + |
A12 | GND | Grounding | B12 | GND | Grounding |
The next level of USB 3.2 specification
Meanwhile, the process of improving the universal serial bus is actively continuing. At the non-profit level, the next level of specification has already been developed - 3.2.
According to available information, the speed characteristics of an interface such as USB 3.2 promise twice as much parameters as the previous design is capable of.
The developers managed to achieve such parameters by introducing multiband channels through which transmission is carried out at speeds of 5 and 10 Gbit / s, respectively.
Like Thunderbolt, USB 3.2 uses multiple bands to achieve overall bandwidth, rather than trying to sync and run one channel twice
By the way, it should be noted that the compatibility of a promising interface with an existing USB-C is fully supported, since the Type-C connector (as already noted) is endowed with redundant contacts (pins) that provide multi-band signal transmission.
Features of the cable wiring on the connector pins
By some special technological nuances, the soldering of cable conductors on the contact pads of the connectors is not noted. The main thing in such a process is to ensure that the color of the cable conductors previously protected from insulation by a particular contact (pin) matches.
Color coding of conductors inside the cable assembly used for USB interfaces. From top to bottom, respectively, the color scheme of the cable conductors for specifications 2.0, 3.0 and 3.1 is shown.
Also, if you are soldering modifications of outdated versions, you should consider the configuration of the connectors, the so-called “father” and “mother”.
The conductor soldered on the contact of the “father” should correspond to the soldering on the contact of the “mother”. Take, for example, the option of soldering the cable through the USB 2.0 contacts.
The four working conductors used in this embodiment are usually indicated by four different colors:
- in red;
- white
- green
- in black.
Accordingly, each conductor is soldered to a contact pad marked with a specification of a connector of a similar color. This approach greatly facilitates the work of the electronics engineer, eliminates possible errors in the wiring process.
A similar soldering technology applies to connectors of other series. The only difference in such cases is the greater number of conductors that have to be soldered. To simplify your work, it is convenient to use a special tool - a reliable soldering iron for soldering wires at home and a stripper to strip the ends of the wires.
Regardless of the configuration of the connectors, soldering of the screen conductor is always used. This conductor is soldered to the corresponding pin on the connector, Shield - protective screen.
There are frequent cases of ignoring the protective screen when “specialists” do not see the point in this guide. However, the lack of a screen dramatically reduces the performance of the USB cable.
Therefore, it is not surprising when, with a significant cable length without a screen, the user receives problems in the form of interference.
Wiring the connector with two conductors for the organization of the power line for the donor device. In practice, different wiring options are used, based on technical needs.
Soldering a USB cable is possible in different ways, depending on the configuration of the port lines on a particular device.
For example, to connect one device to another in order to obtain only the supply voltage (5V), it is enough to solder only two lines on the corresponding pins (contacts).
The video below shows the main points of pinout of 2.0 series connectors and others, visually explains the individual details of the soldering procedures.
Having complete information on pinout of universal serial bus connectors, you can always cope with the technical problem associated with conductor defects. Also, this information will come in handy if you need to connect non-standard digital devices.
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