Pinout of micro hdmi connector. Scart connector: pinout and adapters for HDMI, S-Video and RCA. Pinout of HDMI connector to RCA tulip
HDMI pinout— this cable is very similar in design to the popular “twisted pair” cable, but has one significant difference. This wire contains a larger number of conductors than a twisted pair and has nineteen signal wires.
Anyone who uses computer technology or is a radio amateur has probably already encountered this standard of connecting wire. And if you haven’t had to deal with such connectors yet, then there’s still more to come. Therefore, it is advisable for everyone to study the diagram and know well how it is done. HDMI pinout.
Some may have a fair question: isn’t it easier to purchase a new cord along with a connector than to repair a failed cable or damaged HDMI connector? And their prices are not high now. For example, a six-meter HDMI cable, which fully meets international standards for high-speed connection, can be purchased for about 600 rubles.
You can answer this question like this: Well, what if the cable is walled up in the wall or placed in a corrugated sleeve? Moreover, it will not be possible to quickly and easily remove and replace it. And if we assume this option: you are an admirer of the world's best manufacturers of Hi-End equipment. And your system uses an exclusively business-class HDMI interface, the price of which goes through the roof for tens of thousands per meter, what to do then?!
Under such circumstances, it would be more profitable to buy a new HDMI connector and solder it instead of the damaged one. Consequently, there will be no need to change the entire wire, and this is already a significant saving.
It follows that in this material we will analyze the wiring of almost any modern HDMI wire, for example: high-speed High Speed with Ethernet. Without going too deep into specific details.
Pinout of HDMI connector Type A 19 pins
HDMI cable pinout - its internal part
Here we see that the cable is divided into five parts, each of which contains three conductors. In addition, there are still four separate veins that are not included in the other parts.
There is no general color marking of conductors, so all cable manufacturers may use their own color designations. In the HDMI wire sample we studied, the following was used:
| Contact number | Purpose | Wire color | Note |
| 1 | Video signal 2+ | White | Red group |
| 2 | Video signal 2 screen | Screen | |
| 3 | Video signal 2- | Red | |
| 4 | Video signal 1+ | White | Green group |
| 5 | Video signal 1 screen | Screen | |
| 6 | Video signal 1- | Green | |
| 7 | Video signal 0+ | White | Blue group |
| 8 | Video signal 0 screen | Screen | |
| 9 | Video signal 0- | Blue | |
| 10 | Tact + | White | |
| 11 | Tact screen | Screen | |
| 12 | Tact - | Brown | |
| 13 | CEC Signal | White | |
| 14 | Utility | White | Yellow group |
| 15 | Asymmetric bus signal SCL | Orange | |
| 16 | Asymmetric bus SDA signal | Yellow | |
| 17 | Earth | Screen | Yellow group |
| 18 | Power supply +5 V | Red | |
| 19 | Connection detector | Yellow | Yellow group |
Let’s try to use a visual example based on this cable to demonstrate the technology for cutting the ends of a wire and terminating its cores.
HDMI wire processing method
- 1. First of all, we prepare the ends of the HDMI cable - remove the outer insulation.
- 2. We move the shielding coating to the side, allowing free access to the conductors.
- 3. We prepare the contacts in groups and also clean their ends.
- 4. We will use an HDMI socket for crimping Dr.HD as a connector for the cable.
This socket module is great for doing your own HDMI cable termination without the necessary crimping tools. Here, you just need to install it in the frame and you will get an HDMI outlet that meets all the requirements.
- 5. All ends of the wires, guided by the table presented, are clamped into the socket module
Therefore, when carrying out repair work or organizing the construction of a network, you have the opportunity to place an HDMI cable of the required length directly into the wall. After this, terminate it at both ends with an HDMI socket for crimping Dr.HD.
An HDMI cable in its structure resembles the well-known “twisted pair”, but it only consists of a larger number of cores - 19. Knowing the cable pinout diagram, you can connect an HDMI socket or repair a damaged connector.
Many may ask: why repair a damaged HDMI cable or its connector? After all, it’s easier to buy a new wire, since the prices for it are now more than affordable. For example, a 5 meter HDMI cable can be purchased for around 500 rubles. And it will meet all modern standards: High Speed with Ethernet, support for 3D and 4K.
We answer: What if the cable is embedded in a wall or corrugation and there is no way to simply pull it out and replace it? Or are you a connoisseur of top Hi-End brands and you use only premium HDMI cables, the cost of which starts at several thousand rubles per 1 meter?!
In this case, you can significantly save on purchasing a new cable by replacing the damaged HDMI connector.
So, without going into technical details, let’s look at the pinout of any modern HDMI cable (High Speed with Ethernet class).
Pinout of HDMI connector Type A (19pin)
HDMI cable pinout from inside
As you can see, the HDMI cable is divided into 5 groups of 3 cores. And 4 more wires go separately (not grouped).
There is no single color marking for cores, and each cable manufacturer may have its own marking. Our HDMI cable used the following:
Let's try using the example of this cable, which is sold pre-cut (there are some), to demonstrate its cutting and termination.
HDMI cable cutting
1. Strip the HDMI cable from the outer sheath.
2. Move the screen braid and release the groups of wires.
3. We form groups of contacts and clear them.
4. As a connector to the cable, we will use the Dr.HD HDMI socket module for crimping.
This module is convenient because you can terminate an HDMI cable yourself without a special set of expensive crimping equipment. And by placing it in a frame, you will have a full-fledged HDMI socket.
5. According to the table, we clamp each wire into the terminal blocks of the module.
Thus, during renovation or construction, you can install an HDMI cable of the required length into the wall. End it on both sides with a Dr.HD HDMI socket module for crimping.
Let's consider a case where the HDMI cable connector is broken.
We act on the same points.
1. We strip the cable, release and form groups of wires.
2. Since the cross-section of the cores here is smaller and the wire is stranded, they will require tinning.
To find out which of the groups is A/B/C/D/E, you will need a tester (continuity). Only after you have determined the correct grouping of wires, as well as four wires without a group, can you begin crimping.
We have successfully tested the operation of this refurbished cable. The source was a Blue-Ray drive and a 3D video. We did not see any digital interference.
An HDMI cable in its structure resembles the well-known “twisted pair”, but it only consists of a larger number of cores - 19. Knowing the cable pinout diagram, you can connect an HDMI socket or repair a damaged connector.
Many may ask: why repair a damaged HDMI cable or its connector? After all, it’s easier to buy a new wire, since the prices for it are now more than affordable. For example, you can purchase within 1000 rubles. And it will meet all modern standards: High Speed with Ethernet, support for 3D and 4K.
We answer: What if the cable is embedded in a wall or corrugation and there is no way to simply pull it out and replace it? Or are you a connoisseur of top Hi-End brands and you use only premium HDMI cables, the cost of which starts at several thousand rubles per 1 meter?!
In this case, you can significantly save on purchasing a new cable by replacing the damaged HDMI connector.
So, without going into technical details, let’s look at the pinout of any modern HDMI cable (High Speed with Ethernet class).
Pinout of HDMI connector Type A (19pin)
HDMI cable pinout from inside
As you can see, the HDMI cable is divided into 5 groups of 3 cores. And 4 more wires go separately (not grouped).
There is no single color marking for cores, and each cable manufacturer may have its own marking. Our HDMI cable used the following:
Let's try using the example of this cable, which is sold pre-cut (there are some), to demonstrate its cutting and termination.
HDMI cable cutting
1. Strip the HDMI cable from the outer sheath.
2. Move the screen braid and release the groups of wires.
3. We form groups of contacts and clear them.
4. We will use a socket module as a connector to the cable.
This module is convenient because you can terminate an HDMI cable yourself without a special set of expensive crimping equipment. And by placing it in a frame, you will have a full-fledged HDMI socket.
5. According to the table, we clamp each wire into the terminal blocks of the module.
Thus, during renovation or construction, you can install an HDMI cable of the required length into the wall. End it on both sides with a Dr.HD HDMI socket module for crimping.
Let's consider a case where the HDMI cable connector is broken.
We act on the same points.
1. We strip the cable, release and form groups of wires.
2. Since the cross-section of the cores here is smaller and the wire is stranded, they will require tinning.
To find out which of the groups is A/B/C/D/E, you will need a tester (continuity). Only after you have determined the correct grouping of wires, as well as four wires without a group, can you begin crimping.
We have successfully tested the operation of this refurbished cable. The source was a Blue-Ray drive and a 3D video. We did not see any digital interference.
Almost everyone knows what the HDMI interface is; it has long been popular with many users due to its improved characteristics compared to other interfaces. If we talk about the characteristics of an HDMI cable, then, first of all, you need to remember the data transfer speed, which, depending on the HDMI standard, is becoming higher and higher. For example, the HDMI standard allows you to transfer data at speeds of up to 18 Gbit/s. Another important characteristic of an HDMI cable is its ability to transmit audio and video signals simultaneously, and the already mentioned 2.0 standard supports transmission of up to 32 audio channels with a frequency of 1536 kHz.
HDMI interfaces are successfully used in computers and laptops, as well as in TVs and mobile devices. Sometimes it becomes necessary to repair an HDMI cable or connector; this is a rather delicate and difficult matter. To do this, you need to have a pinout diagram for the HDMI cable, which will allow you to navigate the purpose of each individual wire.
What is pinout? Pinout is a designation of the functions of contacts or wires followed by their numbering; it is also sometimes called wiring.
HDMI connector pinout
HDMI cable pinout
As you can see, the pinout of the cable and connector is distinguished by a mirror image of the functions of the contacts, which is logical. To make it easier to navigate when wiring the hdmi connector, the wires have different colors of plastic coating; below is the wiring of the hdmi cable by color.
VGA, DVI, HDMI, YC, SCART connector contacts
Wiring of cables for YUV (Y/PbCb/PrCr), VGA HD15, DVI, HDMI, s-Video, SCART (Peritel, Euroconnector) signals.
Contacts of VGA, DVI, HDMI, YC, SCART connectors
VGA HD15 connector pins
Cont. |
Signal |
Description |
| 1 | RED | Channel R (red) (75 ohms, 0.7 V) |
| 2 | GREEN | Channel G (green) (75 ohms, 0.7 V) |
| 3 | BLUE | Channel B (blue) (75 ohms, 0.7 V) |
| 4 | ID2 | ID bit 2 |
| 5 | GND | Earth |
| 6 | RGND | R channel ground |
| 7 | GGND | G channel ground |
| 8 | BGND | Channel B ground |
| 9 | KEY | No contact (key) |
| 10 | SGND | Earth Sync |
| 11 | ID0 | ID bit 0 |
| 12 | ID1 or SDA | ID bit 1 or DDC data |
| 13 | HSYNC or CSYNC | Linear or composite synchronization |
| 14 | VSYNC | Frame synchronization |
| 15 | ID3 or SCL | ID bit 3 or DDC clocks |
Wiring of cable Kramer BC5x5S (5-coaxial)
Wiring of cable Kramer BC3x2T7S (3-coaxial, presentation)
Wiring out the YUV signal (Y/PbCb/PrCr) from the VGA HD15 connector (for Kramer VP-41 4(xl), VP-419xl, VP-420, VP-421, VP-724xl, VP-728, VP-729 scalers, VP-730, VP-731, VP-725xl, VP-727, VP-747)
DVI-I/DVI-D connector pins
Cont. |
Signal |
Signal (Russian) |
| 1 | T.M.D.S DATA 2- | T.M.D.S data 2- |
| 2 | T.M.D.S DATA 2+ | T.M.D.S 2+ data |
| 3 | T.M.D.S DATA 2/4 SHIELD | Screen for T.M.D.S 2 and 4 data |
| 4 | T.M.D.S DATA 4- | T.M.D.S data 4- |
| 5 | T.M.D.S DATA 4+ | Data T.M.D.S 4+ |
| 6 | DDC CLOCK | DDC clocks |
| 7 | DDC DATA | DDC data |
| 8 | ANALOG VERT. SYNC | Analog Frame Sync. |
| 9 | T.M.D.S DATA 1- | T.M.D.S data 1- |
| 10 | T.M.D.S DATA 1+ | T.M.D.S data 1+ |
| 11 | T.M.D.S DATA 1/3 SHIELD | Screen for T.M.D.S 1 and 3 data |
| 12 | T.M.D.S DATA 3- | T.M.D.S data 3- |
| 13 | T.M.D.S DATA 3+ | T.M.D.S 3+ data |
| 14 | +5V POWER | Power supply +5 V |
| 15 | GND | Earth |
| 16 | HOT PLUG DETECT | Hot Plug Sensor |
| 17 | T.M.D.S DATA 0- | T.M.D.S data 0- |
| 18 | T.M.D.S DATA 0+ | T.M.D.S data 0+ |
| 19 | T.M.D.S DATA 0/5 SHIELD | Screen for T.M.D.S 0 and 5 data |
| 20 | T.M.D.S DATA 5- | T.M.D.S data 5- |
| 21 | T.M.D.S DATA 5+ | Data T.M.D.S 5+ |
| 22 | T.M.D.S CLOCK SHIELD | Screen for T.M.D.S beats |
| 23 | T.M.D.S CLOCK+ | T.M.D.S + bars |
| 24 | T.M.D.S CLOCK- | T.M.D.S bars - |
| C1 | ANALOG RED | Analog channel R |
| C2 | ANALOG GREEN | Analog channel G |
| C3 | ANALOG BLUE | Analog channel B |
| C4 | ANALOG HORZ SYNC | Analog horizontal sync. |
| C5 | ANALOG GROUND | Analog ground |
HDMI connector contacts (Single Link, Type A, up to version 1.4 inclusive)
Cont. |
Signal |
Signal (Russian) |
| 1 | T.M.D.S DATA 2+ | T.M.D.S 2+ data |
| 2 | T.M.D.S DATA 2 SHIELD | Screen for T.M.D.S 2 data |
| 3 | T.M.D.S DATA 2- | T.M.D.S data 2- |
| 4 | T.M.D.S DATA 1+ | T.M.D.S data 1+ |
| 5 | T.M.D.S DATA 1 SHIELD | Screen for T.M.D.S data 1 |
| 6 | T.M.D.S DATA 1- | T.M.D.S data 1- |
| 7 | T.M.D.S DATA 0+ | T.M.D.S data 0+ |
| 8 | T.M.D.S DATA 0 SHIELD | Screen for T.M.D.S data 0 |
| 9 | T.M.D.S DATA 0- | T.M.D.S data 0- |
| 10 | T.M.D.S CLOCK+ | T.M.D.S + bars |
| 11 | T.M.D.S CLOCK SHIELD | Screen for T.M.D.S beats |
| 12 | T.M.D.S CLOCK- | T.M.D.S bars - |
| 13 | CEC | Consumer Electronics Control Network |
| 14 | Utility | Used for HEAC (Ethernet and Audio Return Channel) |
| 15 | DDC CLOCK | DDC clocks |
| 16 | DDC DATA | DDC data |
| 17 | DDC/CEC GND | Ground for DDC and CEC |
| 18 | +5V POWER | Power supply +5 V |
| 19 | HOT PLUG DETECT | Hot Plug Sensor |
S-Video connector pins (YC, S-VHS)
Standard 4-pin MiniDIN connector
7-pin MiniDIN connector (found in ATI video cards, etc.)
10-pin connector (ATI All-In-Wonder graphics cards)
Cont. |
Signal |
Description |
| 1 | C | Channel C (Color) |
| 2 | S/PDIF ground | S/PDIF Signal Ground |
| 3 | SPDIF | SPDIF signal (digital audio) |
| 4 | GND | Earth |
| 5 | GND | Earth |
| 6 | R | Audio, right channel |
| 7 | GND | Earth audio |
| 8 | Y | Channel Y (Brightness+sync) |
| 9 | V | Composite video |
| 10 | L | Audio, left channel |
10-pin connector (in Matrox G450 video cards, etc.)
Cont. |
Signal |
Description |
| 1 | C (s-video) | Channel C (Color) |
| 2 | GND | Earth |
| 3 | Y | Channel Y (Brightness+sync) |
| 4 | RGB switching control | Control signal |
| 5 | Composite sync | Composite sync output |
| 6 | GND | Earth |
| 7 | V | Composite video |
| 8 | L | Audio, left channel |
| 9 | GND | Earth |
| 10 | R | Audio, right channel |
SCART connector pins (Peritel, Euroconnector)
Cont. |
Signal |
Description |
Level |
|
| 1 | AOR | Audio output, right | 0.5 V rms | |
| 2 | AIR | Audio input, right | 0.5 V rms | >10 kOhm |
| 3 | AOL | Audio output, left + mono | 0.5 V rms | |
| 4 | AGND | Audio Ground | ||
| 5 | BGND | Ground for RGB Blue | ||
| 6 | AIL | Audio input, left + mono | 0.5 V rms | >10 kOhm |
| 7 | B | RGB Blue input | 0.7 V | 75 Ohm |
| 8 | SWTCH | Input, switching TV mode, depending on the type of TV - Audio/RGB/16:9, sometimes turning on AUX (old TVs) | 10-12 V | |
| 9 | G GND | Earth RGB Green | ||
| 10 | CLKOUT | Data 2: Clockpulse Out, only in older VCRs | ||
| 11 | G | RGB Green input | 0.7 V | 75 Ohm |
| 12 | DATA | Data 1: data output | ||
| 13 | R GND | Earth RGB Red | ||
| 14 | DATAGND | Ground for Data, remote control, only in older VCRs | ||
| 15 | R | RGB Red Input or Channel C Input | R: 0.7 V; C: 0.3 V | 75 Ohm |
| 16 | BLNK | Blanking Signal input, TV mode switching (composite/RGB), “fast” signal (new TVs) | RGB=1-3 V; Comp=0-0.4 V | 75 Ohm |
| 17 | VGND | The land of composite video | ||
| 18 | BLNKGND | Ground Blanking Signal (for pin 8 or 16) | ||
| 19 | VOUT | Composite video output | 1 V | 75 Ohm |
| 20 | VIN | Composite video input or Y (luminance) channel | 1 V | 75 Ohm |
| 21 | S.H.I.E.L.D. | Protective screen/housing |
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