Disp port: DisplayPort | High Performance Digital Technology

DisplayPort | High Performance Digital Technology


DisplayPort is the de facto global standard for PC monitors and embedded displays. High-performance PC graphics cards, mobile devices, and notebooks using single-cable technologies like Thunderbolt and USB4 support DisplayPort.

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The Ultimate


It’s common on notebooks for the video output to come from the USB-C connector. This video output is called DisplayPort Alt Mode. The USB-C connector changes to provide DisplayPort Alt Mode when it detects that it is connected to a monitor or dock with DisplayPort capability instead of another USB-only device, or power charger.

DisplayPort also powers the video capabilities of Thunderbolt and USB4.

Check out Certified Displays with USB-C

DisplayPort Demystified

Craig Wiley discusses the latest DisplayPort news with Tom’s Hardware.

Watch the Interview on YouTube

USB 4 will support 8K and 16K displays.

Here’s how it’ll work

CNET takes a look at the role of DisplayPort in enabling high-quality video in the USB4 ecosystem.

Read more on CNET

DisplayPort vs. HDMI: Which Is Better For Gaming?

Tom’s Hardware looks at gaming monitor bandwidth, resolution, refresh rate and more to see the differences between DisplayPort and HDMI connections.

Read at Tom’s Hardware

Brilliant Ultra HD and Beyond

Enjoy your desktop, gaming, and entertainment experiences in 4K, 8K, and beyond.

DisplayPort™ can deliver digital content at resolutions above Ultra HD, at higher bit depths, and with the the highest refresh rates available from a single A/V connector. This makes it ready for the next generation of applications, including High Dynamic Range (HDR) content creation and entertainment. DisplayPort monitors certified using the VESA DisplayHDR standard are available.

Learn More about DisplayHDR

Never Look Back

DisplayPort is designed to recognize and support HDMI devices through conversion cables, just like it does for other earlier video interfaces such as DVI and VGA. Connect DisplayPort™ to the following:

  • VGA
  • HDMI
  • DVI

There are many DisplayPort-to-HDMI protocol converters on the market, and they are available with a native DisplayPort Plug or USB-C plug. Some USB docking stations also include an HDMI output. They have built-in DisplayPort to HDMI converters that serve that purpose. Always choose DisplayPort-certified products to maximize performance.

How to Choose a DisplayPort Cable

Supercharged Productivitity

One DP Output, Multiple Video Streams

A multi-monitor setup can increase productivity and seamless multi-tasking at work, and create a massive, immersive experience for gaming. DisplayPort Certified products with Multi-Stream Transport (MST) allow for multiple screens (at various resolutions) to be driven from a single DisplayPort source connection, using either a DP hub, or by daisy-chaining monitors with that capability. While MST has been an optional capability since version 1.2, MST is enabled by default beginning with the DisplayPort 2.0 generation.

Bring Your Games to Life

More Immersive Experiences

DisplayPort connects multiple screens at high resolutions and refresh rates over a single cable, ideal for Virtual and Augmented Reality applications, high-performance gaming setups, and the entertainment platforms of the future.

The world’s highest performance and most versatile connection technology brings your content to the most immersive experiences.

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DisplayPort 1.4 vs. 1.2: What’s the Difference?

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DisplayPort 1.4 and DisplayPort 1.2 are some of the most useful connectors for bringing together desktop computers and high-end monitors. They’re two generations of the same connector type, with DisplayPort 1.4 being the more capable, and in 2023, the more popular choice. Although it has started to be replaced by the newer DisplayPort 2.0/2.1 connector, DisplayPort 1.4 is still a very important connector and cable type in desktop computing – especially gaming.

But where does that leave DisplayPort 1.4 vs 1.2? Although the latter of those DisplayPort standards is not in use as much anymore, it’s still perfectly usable for many mainstream resolutions and refresh rates and will be for years to come. Especially if there’s an option for DisplayPort 1.2 over some other kind of connector, like USB-C.

While living room gaming consoles, Blu-ray players, and HTPCs most often use the humble HDMI connection for their video and audio transmission needs, high-end desktop PCs have been using something different. DisplayPort is a much more capable cable type that has been the connection of choice for high-end monitors and graphics cards for years.

Even DisplayPort 1.2, originally released in 2010, offers more bandwidth than all but the latest HDMI standards. DisplayPort 1.4 is a much more capable standard, with limited competition from even the latest and greatest.

That doesn’t mean DisplayPort 1.2 is bad though. In fact, in the battle of DisplayPort 1.4 vs. 1.2, you might be surprised by how competitive it is.

The Raw Data

At the heart of every high-end cable standard are some numbers that dictate just what it’s capable of. DisplayPort cables have offered broad and impressive bandwidth for data transmission since their first iteration, and that’s only improved in successive generations. When it comes to DisplayPort 1.4 vs. 1.2, the newer standard is more capable, but DisplayPort 1.2 is still impressive.

DisplayPort 1.2 offers a maximum total bandwidth of 21.6 Gbps over its four lanes and a maximum total data rate of 17.28 Gbps. 

 It has access to the three base DisplayPort transmission modes, including RBR, HBR, and HBR2, but it isn’t able to make use of more advanced transmissions mores, like HBR3, or any of the UHBR transmission modes.

Even without this additional data rate, however, it still supports a wide range of resolutions and refresh rates, including 4K at 60Hz with 10-bit color, or 1080p at over 200Hz. 

DisplayPort 1.2 also introduced the ability to include multiple independent video streams, allowing for daisy chaining of compatible monitors together. It was also the first DisplayPort standard to support stereoscopic 3D, added support for additional color spaces svRGB, and Adobe RGB 1998, and improved auxiliary channel bandwidth. It also brought with it the Mini DisplayPort connector, though that has largely been retired as of 2023.

DisplayPort 1.2 was further augmented with the miniature 1.2a update to the DisplayPort standard, which introduced support for AMD’s FreeSync using the VESA Adaptive Sync base.

Despite this impressive feature set, though, the DisplayPort 1.4 vs. 1.2 head-to-head is still pretty one-sided.

In comparison, DisplayPort 1.4 has the same four-lane structure but expands the maximum total bandwidth to 32. 40 Gbps, and the maximum total data rate to 25.92 Gbps. This was enabled through its use of the new HBR3 transmission mode, which unlocked 4K at up to 120Hz, and lower resolutions in excess of 400Hz with 8bit color.

These figures are identical to those of DisplayPort 1.3 because DisplayPort 1.4 was more of a feature update than a physical change to the cable or design. However, it did integrate Display Stream Compression (DSC) 1.2, a lossless compression format that opens up a wider range of resolutions and refresh rates than its bandwidth might otherwise allow. 

It also added support for the important HDR10 standard of HDR metadata, ushering in a new era of visuals on compatible displays. The maximum number of in-line audio channels was extended to 32, as well.

So, who comes out on top when we pit DisplayPort 1.4 vs. 1.2? DisplayPort 1.4, by a noticeable margin.

Resolutions, Refresh Rates, and More

As much as raw numbers can look impressive on a spec sheet, what they mean in the real world is access to higher refresh rates and resolutions. DisplayPort 1.4 vs. 1.2 is a battle of features, yes, but it’s also a head-to-head competition of what videos and game settings the cables can actually support.

When it was introduced in 2010, DisplayPort 1.2 heralded a new era of high-end data transmission, with support for features like adaptive synchronization and panel-self-refresh. But it also improved the standard’s resolution and refresh rate support, opening up the option of 5K resolution at up to 30Hz, 4K at up to 75Hz, and 1080p at up to 240Hz – previously impossible standards for the DisplayPort connection to reach.

There were important additions to the standard that helped unlock new, higher resolution and refresh gameplay for PC gamers. This was particularly important for higher refresh rate play in Esports and other competitive games, where the improved latency from a higher refresh rate proved to make a notable difference in not only how smooth games felt when played, but how fast the most competitive players could react in games. This made for more competitive Esports, and more exciting games to watch for the viewers.

DisplayPort 1.4, however, takes things a much greater step further. It supports 1440p resolution at up to 240Hz, and even 4K at up to 120Hz. Like DisplayPort 1.3, it also supports 5K resolution at up to 60Hz and even 8K resolution at 30Hz.

And that’s without even factoring in its support of DSC 1.2. DisplayPort 1.4 vs. 1.2 is a blowout without even considering compression technologies, but with DisplayPort 1.4’s support of DSC 1.2, it is even more capable. With DSC enabled it can handle 4K at 60Hz with 30bit/px color and HDR, and even 8K at up to 60Hz. and can go even further if you are willing to sacrifice some color resolution by using Chroma Subsampling.

DisplayPort 1.4 cables are entirely backward compatible with older DisplayPort devices too, whether you’re using a full-size or Mini DisplayPort connection. While there is some benefit to buying a device that supports the DisplayPort 1. 4 standard over DisplayPort 1.2, if you’re comparing DisplayPort 1.4 vs. 1.2 cables, there’s little reason to consider the older alternative.

Which DisplayPort Cables to Buy?

With all the improvements in DisplayPort 1.4, it wins hands down. If you are in the market for a DisplayPort cable, you should choose a quality DisplayPort 1.4 cable from a company like Cable Matters. Even if your current equipment only supports DisplayPort 1.2, a quality DisplayPort 1.4 cable is still a great choice. It is backward compatible with your current equipment and may allow you to avoid replacing cables when you do decide to upgrade your hardware.

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What’s Next?

DisplayPort 1.4 has been the best high-end cable for years, especially if you bought it from Cable Matters where we can guarantee a high quality of anti-noise shielding and anti-corrosion protection on the connectors. But DisplayPort and competing standards are always evolving.

HDMI 2.1 is a more capable cable and as more devices support it, it has become the new standard for A/V and gaming connectivity over the past few years. Especially with the launch of new gaming consoles from Microsoft and Sony. But DisplayPort 2.0 was recently ratified as a standard, and it looks set to reclaim the top spot for high-performance connections and cabling.

Right now, the DisplayPort 1.4 vs. 1.2 question is an important one, but there’s also the big question of DisplayPort 2.1 vs HDMI 2.1.

What’s New in 2023?

As of 2022, we’ve seen HDMI 2.1 become the industry leader for in-home connectivity. The newest generations of gaming consoles, like the PS5 and Xbox Series X, both utilize this technology, and there is a multitude of TVs and monitors that offer video qualities of 4K@120Hz over HDMI 2.1.

The latest high-end GPUs also feature HDMI 2.1 ports, including both Nvidia’s RTX 4000 series GPUs, like the RTX 4080 and 4090, and AMD’s RX 7000 series, including the RX 7900 XT and XTX.  

AMD’s new cards take things a step further, however, by being the first graphics cards to support DisplayPort 2.1. That’s an almost-identical standard to DisplayPort 2.0, so there aren’t many new features or specifications to discuss, but it’s intriguing that AMD included three DisplayPort 2.1 connections on each of its new GPUs, whereas Nvidia included three DisplayPort 1.4 connections, instead.

DisplayPort 2.0 or DisplayPort 2.1 is the most high-end connector for consumer hardware yet released. It makes the DisplayPort 1.4 vs 1.2 debate look pedestrian, bringing with it the greatest bandwidth and resolution options of any DisplayPort connector yet. It has a maximum bandwidth of 80Gbps, and thanks to its new, efficient 128b/132b encoding scheme, it maintains 77.37Gbps of data rate. That unlocks 4K resolution in excess of 240Hz, and up to 90Hz at 8K resolution.

Enable DSC and Chroma Subsampling, and DisplayPort 2.1 can manage 10K or even 16K displays at impressive refresh rates. The only downside is the lack of supporting displays. As of Q2 2023, we haven’t yet seen any become widely available, with only a few announced so far.

DisplayPort 2.0, on the other hand, has yet to become widely available. GPUs and high-end gaming monitors are still using the DisplayPort 1.4 standard to process video resolutions higher than 4K@120Hz. 

The latest line of AMD 7000 Processors is set to come equipped with DP 2.0 Certification, which could be useful for those running new PCs using onboard graphics, but displays have still yet been released to take advantage of it. With USB4’s native support for DP 2.0, it would not come as a surprise if the newest generation of gaming monitors were to utilize the USB’s latest standard to pass the highest-bandwidth video signals.

DisplayPort vs HDMI for games ☑️ dp cable (display port) ☑️ Artline.ua review

Many people know that gaming computers must be equipped with a high-performance video card and a powerful processor. But that is not all. Signal transmission from the video card to the monitor is another very important variable for any gamer, regardless of whether he plays professionally or from time to time paints gray everyday life with bright examples of the modern gaming industry. The transfer rate determines how quickly and how well the image will be transmitted to the monitor, which directly affects the sensations during the game.

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  1. Is the choice of connection technology really important?
  2. DisplayPort vs. HDMI: Specifications and Resolutions
  3. Capacity
  4. DisplayPort: Choice for PC
  5. HDMI is the ideal solution for home appliances
  6. DisplayPort vs. HDMI: Bottom line for gamers
    1. Where can I buy DisplayPort or HDMI monitors and cables?

Modern monitors are equipped with different technologies for signal transmission, but the most popular are DisplayPort and HDMI. Artline did its own research and found out which of these two technologies is best suited for games. Bandwidth, resolution, refresh rate and other factors will be under the gun for the most objective conclusion.

Is the choice of connection technology really an important question

The best gaming monitors are packed with features, but one aspect that is often overlooked is the inclusion of DisplayPort and HDMI. What is the difference between the two ports and which one is definitely better to use to connect to the system?

You might think this is a simple matter – plugging in a cable that your monitor has a connector for and wasting time on it is a stupid idea, but there are differences that affect refresh rate, color quality, or both . If you want to understand which is better for gaming – DP or HDMI, this article is guaranteed to help you with this, and will allow you to evaluate the capabilities of each of the interfaces.

DisplayPort vs HDMI specifications and resolutions

Not all DP or HDMI ports are made the same. With the development of technology, developers have upgraded their interfaces for the sake of higher image quality and transmission speed. It is worth noting that you can easily connect an old TV to your modern gaming laptop or PC with an RTX 20xx installed, and it will work. Another thing is the refresh rate and the possible screen resolution, but there are often no problems with the connection.

To make our review as objective as possible, Artline has prepared a whole series of studies that make it possible to understand how certain versions of Display Port and HDMI differ. Below is a brief overview of interface versions.

Version Maximum transfer rate (Gbps)

Required transfer rate (Gbps)

Resolution/upgrade support (GHz)

Presented by GPU
1. 0-1.1a 10.8 8.64 1080p / 144 AMD HD 3000 (R600)
4K / 30 Nvidia GeForce 9 (Tesla)
1.2-1.2a 21.6 17.28 1080p / 240 AMD HD 6000
4K / 75 Nvidia GK100
5K / 30
1.3 32.4 25.92 1080p / 360 AMD RX 400
4K / 120 Nvidia GM100
5K / 60
8K / 30
1.4-1.4a 32.4 25.92 8K / 120 AMD RX 400 (Polaris)
2 80. 0 77.37 4K / 240
8K / 85
1.0-1.2a 4.95 3.96 1080p / 60 AMD HD 2000 (R600)
1.3-1.4b 10.2 8.16 1080p / 144 AMD HD 5000
1440p / 75 Nvidia GK100 (Kepler)
4K / 30
4K 4:2:0 / 60
2.0-2.0b 18.0 14.4 1080p / 240 AMD RX 400 (Polaris)
4K / 60 Nvidia GM200 (Maxwell 2)
8K 4:2:0 / 30
2. 1 48.0 42.6 4K / 144 Partial 2.1 VRR on Nvidia Turing
8K / 30

Many could be confused by the presence of two columns with bandwidth data at once. Let us now briefly explain what this means. The digital signals of our interfaces use different coding for different versions of the same HDMI or DisplayPort. Older standards are encoded 8 to 10 bytes, for more modern ones, like HDMI 2.1, there is support for 16 to 18 bytes, for the latter, DP 2.0 encoding reaches 128 to 132 bytes. What do these numbers mean?

Consider the 8 to 10 bytes used for the vast majority of monitors. This encoding means that 2 additional bits are added to every 8 bits, which guarantee the integrity of the signal. Without this, the image quality would be the same, but the transmission stability suffered greatly. In other words, such a system makes the signal clearer and more complete.

Yes, it affects the screen resolution a little. In fact, only about 80% of the bandwidth is available in the 8 to 10 bytes case. However, the higher the encoding (16 to 18, 128 to 132), the better it can increase efficiency and reduce quality loss as resolution increases. Of course, there are other ways to match the signal with less loss, but more on that later.


Bandwidth is one of the important components when choosing a monitor and the interface with which it will connect to the video card. Bandwidth is the speed and quality with which the GPU converts data into a signal for the monitor. All digital connections – DisplayPort, HDMI and even DVI-D end up with the required bandwidth. Each pixel on your display is made up of three components: red, green and blue (RGB) – alternatively luminance, blue chroma difference and red chroma difference (YCbCr / YPbPr) can be used. Whatever your GPU renders internally (usually 16-bit float RGBA where A is the alpha/transparency information), that data is converted into a signal for your display.

DisplayPort Choice for PC

Here’s some basic information that might motivate you to choose this option:

  • The most popular interface right now is DisplayPort 1.4. It is installed on most video cards, both modern and powerful, and older models. The bandwidth is less than its competitor, HDMI 2.1, but the image quality and refresh rate at a resolution of 7680*4320 is 60Hz.
  • Another plus for DP is the VRR (Refresh Rate), which has remained unchanged since DisplayPort 1.2. This means that both old and new monitors and video chips can work without the need to update any of the above items. Another interface supports the connection of multiple monitors using MST technology. The connection can go through both a standard DisplayPort cable and a modern Type-C interface, which is used on many computers and smartphones.
  • For versions 2.0 and higher, high-speed data transfer is supported. The modes are identified depending on the maximum speed. Thus, UHBR 10 is capable of delivering bandwidth up to 40 Gb / s, 13.5 – up to 54. It is also convenient that the same cable using 128/132 bit encoding is suitable to support such data transfer. With this encoding, the maximum transmission rate is 77.37 Gbps.
  • Although the length of the cable does not seem to be such an important parameter as resolution, bandwidth and other elements that we talked about above, you should not underestimate the importance of this factor. In the case of DisplayPort, the cable length can be up to 3 meters, which is ideal for gamers and gamers who do not want to clutter up their workspace with a lot of wires and cable ties.
  • The final advantage that needs to be mentioned is the support for high screen resolution at a frequency of 98 Hz. If the hardware can handle the load of 4K images, and is capable of delivering 98 Hz at the same time, then the player will be able to enjoy the highest quality picture without the slightest delay.

HDMI is the ideal solution for home appliances

The advantages of this technology are: In practice, this means that with a powerful graphics card with an affordable HDMI interface, you can use both modern and older monitors.


  • HDMI 2.0b lags behind its DP rivals in terms of picture quality and 4K screen refresh, but if you’re willing to settle for 2K gaming, then this aspect can save you some money.
  • Despite the fact that gamers often use standard small monitors punctuated by high resolution, there are still a large number of gamers who are happy to sit at the couch in front of a huge TV screen. If you’re one of them, then HDMI has one significant advantage over DisplayPort, and that’s the cable length, which is up to 15 meters. In case you want higher picture quality and corresponding frequency, there are two categories of cables for lower resolutions and lower requirements, as well as a faster cable that is much better suited for a gamer.
  • DisplayPort vs. HDMI: the bottom line for gamers

    hard. For undemanding gamers, the difference may not be noticeable, however, if you have the best hardware on the market and want to get the most performance out of it, we advise you to choose DisplayPort 1. 4, which currently outperforms HDMI 2.0. In the case of monitors, DP will be the clear favorite regardless of version, as its bandwidth is higher at higher resolutions than the competition.

    For those who like to play on big screen TVs, we advise you to pay attention to the HDMI 2.1 interface, which has been used in large screens for quite some time. Most likely, DisplayPort 2.0 will be an even better solution, but until it is so widespread on the market, Artline advises to wait with the purchase of devices with such interfaces.

    For those players who have acquired video cards from NVidia, there is an option to use a monitor with a DP 1.4 interface. However, for more recent next-generation graphics cards, such as the RTX 30xx, HDMI 2.1, which can be connected to a huge home theater screen, will be the most worthy solution. Unfortunately, there are no small monitors that are compatible with this version of the HDMI interface yet, from which we can conclude that G-Sync monitors are more likely to continue to actively use DisplayPort.

    And for AMD owners, a more universal solution would be to use DisplayPort monitors. High refresh rates up to 144 Hz are only possible via the DP interface. While HDMI 2.1 has already been claimed to be capable of delivering the same and even better performance, to really experience it, you will need to get an expensive AMD RX 6xxx series graphics card.

    Considering that there are incredibly many areas in which the two interfaces compete, it is difficult to say which of the interfaces will be a more worthy representative. Artline’s research findings show that while DisplayPort has a lot of powerful advantages right now, it’s likely that in a year’s time, the number of devices with modern HDMI 2.1 interfaces will increase and competition will become more serious.

    Where to buy DisplayPort or HDMI monitors and cables

    For a quality system upgrade, you should choose a worthy supplier, which is Artline. We will be able to advise the client when choosing a monitor and other components, based on the capabilities of the system and its requirements.

    Kyiv, st. Kirillovskaya, 104

    • (080) 033-10-06
    • (044) 338-10-06
    • (066) 356-10-01
    • (097) 356-10-01
    • (063) 356-10-01

    [email protected]

    Monitor Ports and USB-C: Comparing Display Connection Types

    Monitor port types have changed over the years. Today, they can not only transfer much more complex data, but also charge and power the devices that are connected to them. As with any technology, monitor ports are constantly being improved to improve image quality and energy efficiency.

    Read this article to learn about the different monitor connectors, their uses and the most modern connection – USB C .

    The development of technology does not stop for a single day. It seems that new and improved devices, formats and types of media files appear on a daily basis. To keep up with all of them, you need to devote as much time to this as to full-fledged work. Monitor ports are hidden technological masterpieces that allow you to get the most out of our ever-evolving devices and media formats.

    Continuous evolution requires faster and more optimized data transfer. The solution lies in faster, smaller and more reliable connection ports in monitors, which replace the “clunky” versions of yesteryear and are characterized by higher quality, as well as more efficient and better signal transmission.

    Video connectors and monitor interfaces are the perfect product today. They are versatile in their connectivity, and many of them perform multiple functions at the same time.

    What are monitor ports?

    Monitor ports are connection points that allow the transfer of various data and information. To decide which connection interfaces best suit your needs, it is essential to understand what monitor connection interfaces are and how they work. If you stay up to date with the latest advances, you are guaranteed to get the most out of your device and enjoy the best digital experience.

    Many different types of monitor interfaces are available on the market today. Ports, once the standard for connectivity, are becoming obsolete and are being replaced by faster, more efficient and smaller versions.


    One commonly used port is the High Definition Multimedia Interface (HDMI). This digital interface supports both audio and video transmission. This is one of the most common ports for transferring high-definition audio and video between devices over a single cable. This port is a good solution for connecting the HD output to an HD display without compromising the quality of high-definition images and videos.

    With the right monitor and connection interface, you can multi-task, maximizing your productivity in the workplace. For example, ViewSonic VG2755-2K is equipped with HDMI ports and VGA input. It provides versatile options for connecting computers, laptops and other multimedia devices, making it the perfect choice for the office.

    Very handy HDMI, capable of carrying signals over inexpensive cables, has become a popular choice for connection interfaces. Now it is the standard for connecting a computer to a TV.

    However, HDMI ports have their drawbacks, so sometimes it’s better to use other options. The main limitation of the HDMI cable is the distance that the signal can be transmitted (15 meters is considered the upper limit). In addition, they are quite bulky. As technology has evolved for mobile devices and tablets, smaller HDMI cables have been invented, commonly referred to as “micro” or “mini”, but the standard size of such a cable is quite large compared to other modern cables.


    One of the oldest ports is the Video Graphics Array (VGA). Introduced by IBM, this monitor port became the standard connector for graphics cards, computer monitors, laptops, projectors, and HDTVs for decades.


    VGA ports consist of 15 pins in three rows of five and can carry red, green, blue, horizontal and vertical sync RGBHV video signals. However, VGA is limited to only transmitting an analog signal, so it displays a lower resolution image on the screen. It has been used a lot less in recent years, replaced by faster DVI and HDMI ports that can provide higher resolution and display quality.


    DisplayPort (DP) is a digital monitor interface that is primarily used to transmit a video signal to a display device such as a computer monitor. DisplayPort (DP) also supports audio and USB signal transmission. The port has a reversible orientation, making it very efficient and capable of delivering high power (up to 100W) over a single cable.


    DisplayPort was designed as a replacement for VGA, DVI and FPD-link. Using adapters, it also easily connects to other interfaces, including VGA, DVI and HDMI.

    With support for both audio and video, you can do more than ever with one powerful monitor. Flexible connection options make this possible.

    Mini DisplayPort

    A compact, stripped-down version of the popular DisplayPort, Mini DisplayPort (MiniDP or MDP) is a digital audio-visual interface developed by Apple in October 2008. This mini version of DisplayPort is called “the little port that changes the world.” Advanced, compact and practical, the port is significantly smaller than its predecessors, even smaller than the mini DVI and USB ports, and is designed to be a one-stop solution.

    It replaces connectors that required several bulky screws to connect with a perfect digital and efficient connection to external displays.



    Digital Visual Interface, or DVI for short, is a video display interface that was developed as a standard connector for transmitting video signals to display devices.

    Supporting signal transmission up to 2560×1600 resolution, it has been able to provide maximum digital quality on flat LCD monitors and modern graphics cards. It was the best choice for HDTVs and other high-quality screens for watching TV, movies and DVDs, as it supported both computer monitors and projectors at the same time. Today, DVI has become the standard digital interface in the computer market.


    Can one connector be the perfect solution and universal interface? This appears to have been made possible when the Universal Serial Bus-C (USB-C) port was introduced.


    USB-C is a 24-pin USB connection system that was developed by the USB Implementors Forum in 2014. It has since become the industry standard for data and power transmission. The port is quite compact, yet incredibly powerful and boasts many advanced features.


    USB-C is known as a universal connector. This is a solution that allows you to transfer power, audio and video signals over one cable through one powerful port.

    One of its best features is its reversible orientation. This feature simplifies its use and eliminates the need for multiple ports and cables. It also makes it easy to connect the cable to the connector correctly the first time – no more trying to find the right position.

    It is similar in size to a USB Micro-B connector, making it an ideal choice for smartphones along with high compatibility.


    USB-C delivers faster speeds than its predecessors—nearly twice as fast as the USB 3.0 connection interface. Delivering up to 100 watts of power, USB-C is also much more powerful than older versions of USB. For example, USB 2.0 could only transfer 2.5 watts of power.

    In other words, it can power small devices like your smartphone and larger devices like computers and laptops, which typically require 60W of power to fully charge. Moreover, the connector is bidirectional, that is, it is capable of both transmitting and receiving power.

    With its versatility, speed, and power, USB-C is the go-to solution for computer monitors, opening up many opportunities to increase office productivity and efficiency. For example, ViewSonic’s VG2455 series monitor uses a USB-C connector to bring you the convenience of a one-cable-all solution. With one powerful port, you can easily transfer power, data, and video without the clutter of multiple cables and ports. You will also have a versatile connection method as it is also compatible with HDMI, DisplayPort, VGA and USB 3.0.

    Alternatively, the VP2785-4K is a powerful monitor with stunning 3840×2160 (4K) resolution and multiple ports that provide USB 3.1 Type C, DisplayPort and HDMI connectivity. These advanced features and high color standards make it an ideal choice for a variety of design-related professions, including graphic design, printing, video and photo editing.

    USB-C Plus Thunderbolt

    With the addition of a Thunderbolt hardware interface, the already high-performance USB-C delivers even faster speeds. It is now the most versatile and powerful connector on the market today. Compatible with any docking station, display, or data transfer device, Thunderbolt delivers USB-C data transfer rates up to 40Gbps, 8x faster than the port bandwidth available on most computers today. In addition, it greatly increases USB-C power and image quality, allowing you to store 8 times more data, and improves image quality with four times the bandwidth.

    Which port is best for monitors?

    The advent of the USB-C connector is a clear indication of the development of technologies that are becoming more efficient, versatile, powerful and practical. Choosing the right port for your monitor depends on your needs.


    USB-C is a truly powerful port with many specific benefits as well as compatibility with other ports. However, DisplayPort, Mini DisplayPort, DVI, HDMI or VGA may be a better choice depending on what you want from your device.

    Considering the direction in which technology is moving and the speed of its development, we can say that we live in an amazing time when we, as consumers, have to adapt to new technologies.

    With monitor ports and the many benefits they offer, we can achieve more with our devices than ever before.