Hdmi 2.0 144hz: Does HDMI Support 144Hz?

Does HDMI Support 144Hz?

Gaming at 144Hz makes the experience buttery smooth, but to take full advantage of it, you need a powerful graphics card and a compatible display. You also need the right cable to connect them both. While DisplayPort is a popular option, HDMI 144Hz is also entirely possible. Depending on which resolution you’re trying to play at, you may need the latest-generation HDMI cable.

Does HDMI support 144Hz? Depending on the HDMI version, resolution, and bandwidth. All versions of HDMI from HDMI 1.3 onward right through to HDMI 2.1 provide enough raw bandwidth for 144Hz, provided sacrifices are made in color, chroma, compression, or resolution. HDMI 2.1 – the latest and greatest HDMI version – has the most support for 144Hz with the least compromise, allowing 1440p with 4:4:4 or 2160p with 4:2:0 chroma subsampling.

However, from a practical standpoint, there are no TVs or monitors on the market that will display high-resolution 144Hz over HDMI, even if there is enough bandwidth. This may change as HDMI 2.1 picks up steam on high-end gaming monitors.

As HDMI 2.1 technology matures, the number of available options to display your high-resolution, high-refresh-rate HDMI video is also growing. However, most HDMI 2.1 TVs and monitors will only support a maximum of 4K@120Hz over HDMI. To achieve the highest resolution and refresh rate that some HDMI 2.1 monitors advertise as 4K@144Hz, you’ll need a DisplayPort source and connection, so be mindful of your expectations when purchasing a new HDMI gaming monitor.

HDMI 144Hz through the generations

The first HDMI 144Hz generation was HDMI 1.3. Its data rate was more than capable of hitting high refresh rates for 1080p resolution, offering 144Hz over HDMI, as well as 240Hz if you’re willing to use 4:2:0 chroma subsampling.

While that reduction in color quality isn’t necessarily recommended for the best-looking game experience, if you can make do with it, you can also enjoy 144Hz refresh rates at 1440p.

With the same bandwidth and data rate capabilities, HDMI 1.4 144Hz is also possible at the same resolutions.

HDMI 2.0 144Hz options are compression-free, with full support at 1080p and 1440p with full 4:4:4 chroma subsampling. It can’t quite handle 4K at 144Hz, but with 4:2:0 chroma subsampling, 120Hz is just about possible. If you limit your resolution to 1080p, HDMI 2.0 also supports 240Hz refresh rates for even smoother gaming experiences and less input lag.

For the ultimate HDMI 144Hz gaming experience, however, you want the latest generation of HDMI connectors. HDMI 2.1 144Hz options include every one of the most popular gaming resolutions, from 1080p, all the way to 4K – no compression required.

So, does HDMI support 144Hz? Absolutely. And in far more ways than one. Take a look at the chart below to determine which HDMI standard you’ll require if you have a resolution you’d like to achieve with 144Hz. If you already know which HDMI standard you have, then this chart might help you decide which resolution you’re looking for in a monitor.

What do you need for HDMI 144Hz?

The HDMI connector has been the most popular mainstream option for high refresh rate gaming on desktops, laptops, and consoles for almost a decade, and that’s partly thanks to its backward compatibility. A 144Hz HDMI 2.1 cable could connect to HDMI 1.3, 1.4, or 2.0 HDMI ports and support the same features and bandwidth as the video sources port.

That’s not to say the technology hasn’t improved, though. While the cables can all support the various bandwidths and data rates of different HDMI generations, top-tier HDMI 2.1 cables from quality providers like Cable Matters offer gold-plated connectors for anti-corrosion, excellent shielding, and a wide range of cable lengths with active cable options.

HDMI 2.1 changed the standard for good, though, as the first generational leap in many demanded a new cable entirely to support its new, ultra-high bandwidth and data rate. It was the first cable to support HDMI 144Hz at 4K, and because of that, is set to be the connector of choice for next-generation games, consoles, and graphics cards on desktop PCs.

For high-speed gaming, HDMI 2.1 is leaps and bounds of anything that’s come before. It’s even more capable than DisplayPort 1.4, which for a long time was the gold standard for gaming at high refresh rates. Cable Matters offers a host of cables that support 144Hz HDMI 2.1 devices.

The only downside to HDMI 2.1 144Hz gaming is that you need a compatible TV or monitor and a graphics card or console. HDMI 2.1 graphics cards and the latest game consoles are in high demand, with next-generation consoles and new series of graphics cards from both AMD and Nvidia supporting it natively. High-end GPUs featuring HDMI 2. 1 are becoming more and more widely available. With prices decreasing, it may be a great time to go out and get one for yourself if you want to take advantage of 4K@144Hz via HDMI 2.1.

The latest generation game consoles like the Xbox Series X and the PlayStation 5 also utilize HDMI 2.1 technology to provide the best gaming experience that consoles have ever delivered.

Ultra High-Speed HDMI Cable (Fiber Active Optical 8K HDMI Cable) — Designed for Xbox

Does HDMI support 144Hz on consoles?

Modern game consoles are more powerful than ever. The next-generation Xbox Series X and PlayStation 5 offer previously unheard-of performance in living room gaming. But can they offer 144Hz over HDMI?

The highest refresh rate currently supported by any games console is 120Hz. The PlayStation 4 supports a maximum of 60Hz. The Xbox Series X and PS5 both offer 4K@120Hz gaming support with compatible displays over HDMI 2.1.

Unlike PC gaming, where most games will run at 144 frames per second and beyond, taking full advantage of high refresh rate displays, that’s rarely the case on the console. Typically, console games are designed to run at a predetermined 30 or 60 FPS, and to run at higher refresh rates, they’ll need to bump down the resolution. Some Xbox One X games do run at up to 120FPS, and there’s a huge variety of games already announced on Xbox Series X and PS5 that are able to run at 4K@120FPS too.

No console games run at 144 FPS, however, so even though 144Hz over HDMI is possible, it won’t be a viable option on consoles for at least one more generation.

That said, if you want to hit 120Hz on console gaming, here’s how to pick the best HDMI cables for the job.

Perfect Cable for a Monitor

HDMI 2.0 144Hz is only possible if your hardware supports HDMI 2.0. You can get a 144Hz on a monitor with up to 2560 x 1440p and up to 240Hz on a 1080P monitor. In this post, we’ll be delving deep into the world of refresh rates, display ports, and cables to help you understand the ideal cable for your monitors.

Contents

What Port Is the Best for HDMI 2.0 144Hz?
- – HDMI Versions
- – HDMI 2.0 Specs
- – HDMI Cables
- – HDMI Bandwidth
- – Video Graphics Array (VGA)
- – Digital Visual Interface (DVI)
DisplayPort Connectors Types
- – Mini-DisplayPort (Thunderbolt Port)
- – DisplayPort Cables
Explaining Maximum Interface Bandwidth
Adapters Available For 144Hz
Conclusion

What Port Is the Best for HDMI 2.0 144Hz?

An HDMI 2.0 port or a DisplayPort 1.2 is perfect for a 144Hz on a 1440p display. For dialing it up to 4K 144Hz, you’ll need a DisplayPort 1.4 with DSC 1.2 or HDMI 2.1.

For gamers who are looking to enjoy 1080p content at 144Hz, simply using an HDMI 1.4 or higher will do.

– HDMI Versions

Most TVs, monitors, and graphics cards in today’s world are designed with at least an HDMI 1. 4 port, which can be enough if you’re not looking to go beyond 30Hz at 4K, 144Hz at 1080p, and 75Hz at 1440p.

However, there are many monitors that can’t go past 120Hz on HDMI 1.4 since they have limited bandwidth over the HDMI version.

Some older monitors and many that come with G-Sync may not even get past 60Hz when paired with HDMI 1.4.

Generally, most monitors with 144Hz capabilities won’t go past 120Hz when paired with HDMI 1.4.

However, many manufacturers tend to customize their pixel rates and timing parameters so their monitors can utilize the full potential of the HDMI 1. 4 bandwidth, thereby allowing them to get 144Hz at 1080p.

Therefore, when getting a monitor with an HDMI 1.4 port, make sure it supports 144Hz or can go up to 120Hz at the very least. Or, to be on the safer side, just go with a 144Hz monitor with HDMI 2.0 refresh rate.

– HDMI 2.0 Specs

HDMI 2.0 1080p max refresh rate is 240Hz, 4K stops at 60Hz, and 1440p max refresh rate is 144Hz.

On the other hand, you can get HDMI 2.1 144 Hz refresh rate at 4K Ultra High Definition and up to 60Hz on an 8K display.

However, the amount of bandwidth you get from an HDMI 2.1 port depends on its implementation. For instance, the FRL6 implementation provides up to 48Gbps, while the FRL5 implementation can only go up to 40Gbps.

– HDMI Cables

HDMI cables are often backward-compatible, which means that the cable you use for an HDMI 1. 4 port will work efficiently for an HDMI 2.0 port.

However, you need to be mindful of the bandwidth offered by your cable, as the bandwidth is what actually determines the maximum refresh rate and screen resolution that will be transferred between your monitor’s HDMI and hardware port.

While you may have heard things like HDMI 2.0 cable or HDMI 1.4 cable, we are here to tell you that there’s no such thing, and the only important factor you need to consider when choosing an HDMI cable is the bandwidth.

– HDMI Bandwidth

For instance, if you have a 1080p monitor with an HDMI 1.4 port and you’re looking to get a refresh rate of 144Hz, the ideal cable you want to choose should be labeled as “High-Speed” and be able to provide a bandwidth rating of at least 10. 2Gbps.

If the port you’re working with is an HDMI 2.0 port, a cable with a “Premium High Speed” or “Premium Certified Cable” label and a bandwidth rating of at least 18Gbps should be your preferred choice.

And for devices with HDMI 2.1 ports, you’ll need a cable that’s labeled “Ultra High Speed” or “Ultra Certified Cable” with a bandwidth rating of 48Gbps.

As noted earlier, these cables are all backward compatible. However, they won’t go beyond their bandwidth rating.

This means that if you use a 10.2Gbps cable on an HDMI 2.1 port that is capable of providing up to 48Gbps, the bandwidth you’ll get won’t exceed 10.2Gbps as that’s the maximum allowed by the cable.

Conversely, if you use a 48Gbps cable on an HDMI 1.4 port, you won’t get up to the 48Gbps allowed by the cable since the port doesn’t output that much bandwidth.

– Video Graphics Array (VGA)

Video Graphics Array, otherwise known as D-Sub, is a type of analog connector that’s found on older devices.

This connector cannot go beyond 1920 x 1200 at 75Hz, so even if you have a 144 Hz monitor, the chances of you getting 144Hz with this connector are nonexistent.

In fact, most of the graphics cards and monitors produced in today’s world don’t feature this connector.

However, there are some monitors that do come with this connector, making them an ideal option if you use a multi-monitor setup or if you have an old-gen GPU.

– Digital Visual Interface (DVI)

Unlike the VGA connector, DVI is more common, but it comes in a variety of versions.

To get a 144Hz, you’ll need a Dual-Link DVI-D port as it’s the only port that can provide you with 144Hz on a 1920 x 1080 display and 75Hz on a 2560 x 1440 screen. Other DVI ports sit on the same frequency as the VGA connector.

DisplayPort Connectors Types

Besides your HDMI ports, you’re bound to find one or more DisplayPort connectors on your gaming monitors.

Most monitors feature the DisplayPort 1.2 connector, which provides up to 75Hz when dealing with 4K, up to 240Hz at 1080p, and up to 165Hz if you’re going for 1440p.

However, there are newer versions of the DisplayPort, including DisplayPort 1.3 and 1.4. Both of these versions allow you to enjoy extra bandwidth as they provide 30Hz at 8K, 120Hz at 4K, 60Hz at 5K, and 240Hz at 1440p.

With that said, there’s a difference between the DisplayPort 1.3 and 1.4, and that’s because the 1.4 version supports Display Stream Compression, also known as DSC.

This means that thanks to the DSC, the DisplayPort 1.4 uses compression to provide 60Hz at 8K, 120Hz at 5K, and 144Hz at 4K.

– Mini-DisplayPort (Thunderbolt Port)

There’s a mini version of the DisplayPort, known as the Thunderbolt port, and it’s common on many modern laptops.

The Thunderbolt connector can provide the same amount of bandwidth you’d get from the DisplayPort version it’s based on.

Therefore, a Thunderbolt port that’s based on a DisplayPort 1.2 will be able to provide you with a 240Hz at 1080p, 75Hz at 4K, etc.

Thanks to the advancement in technology, many newer displays now have the USB Type-C as their mini–DisplayPort.

The USB Type-C does two to three things simultaneously, i. e., send the DisplayPort audio and video signals, transfer data to any connected device, and charge the device it’s on if the device has power delivery features.

– DisplayPort Cables

These cables are similar to the HDMI cable as there’s no specific cable for DisplayPort 1.4 or 1.2. What you want to consider when getting a cable for your DisplayPort is the cable’s rating.

For devices with DisplayPort 1.2, you want to get a cable that is HBR2-bit rate class and rated for 21.6Gbps.

And for devices with DisplayPort 1.4, you want to buy a cable with an HBR3-bit rate class and rated for 32.4Gbps. Just like HDMI cables, DP cables are also backward-compatible.

Explaining Maximum Interface Bandwidth

The table below shows the maximum bandwidth interface for different refresh rate combinations as well as the resolution you can pair them with.

Interface	3840 x 2160 (Ultra HD)	3840 x 1600 (UWQHD+)	3440 x 1440 (UWQHD)	2560 x 1440 (Quad HD)	1920 x 1080 (Full HD)
Display Port 1.4 DSC	240Hz	300Hz	360Hz	480Hz+	480Hz+
DisplayPort 1.4	120Hz	144Hz	180Hz	240Hz	360Hz
DisplayPort 1.2	75Hz	100Hz	120Hz	170Hz	240Hz
HDMI 2.1 DSC	360Hz	480Hz+	480Hz+	480Hz+	480Hz+
HDMI 2.1	144Hz	240Hz	300Hz	360Hz	480Hz+
HDMI 2.0	60Hz	75Hz	100Hz	144Hz	240Hz
HDMI 1.4	30Hz	30Hz	60Hz	75Hz	144Hz

Note that besides the interfaces using DSC, each interface provided above is assumed to have full 4:4:4 RGB signals and 8-bit color depth.

For those using DSC, 10-bit color is assumed instead. Also, 48Gbps (FRL6) is assumed for HDMI 2.1.

Some of the included refresh rate-resolution combos might need DSC if you’re using a lower FRL, though you may be able to get 4K 144Hz with FRL4 (32Gbps) if you use 8-bit color and FRL5 (40Gbps).

For FRL3 (24Gbps) and lower, you’ll need to utilize DSC.

Additionally, many of the refresh rates listed above could take it up a few more notches since we’ve only limited them to the popular refresh rate/resolution combos found in many popular gaming monitors.

Adapters Available For 144Hz

There are many different adapters to help gamers achieve 144Hz in case your GPU and monitor do not share the same port type. For instance, if your monitor uses HDMI as its output and your monitor has a DisplayPort as its input, you’ll need an HDMI to DisplayPort adapter to connect both devices. These interfaces aren’t bi-directional.

If you want to connect your monitor’s HDMI input to a PC with DisplayPort output, you’ll need to get a DisplayPort to HDMI adapter.

If the adapter you plan to get is a DVI adapter, you need to make sure the DVI-D adapter you get is an active one and not a passive adapter. An active DVI-D adapter uses USB as its power connector.

Also, make sure you get a Dual-Link DVI-D adapter, as that’s the only DVI-D connector that provides 144Hz. A Single-Link DVI adapter won’t provide you with 144Hz.

Here are the different adapter combinations available:

USB Type-C to HDMI
USB Type-C to DisplayPort
DisplayPort to HDMI and vice versa
HDMI to Mini-DisplayPort and vice versa
DisplayPort to Dual-Link DVI-D

There’s currently no active HDMI to Dual-Link DVI-D adapter. The active versions of the adapters listed above are fairly expensive.

Therefore, be careful when buying one as most manufacturers tend to market passive adapters as the active versions or Single-Link DVI adapters as the Dual-Link versions.

Also, make sure you thoroughly check whether or not both your monitor and GPU support a 144Hz over the port you’re trying to utilize before you purchase an expensive adapter.

Conclusion

That’s all on how you get a 144Hz on different ports and cables, including HDMI 2.0.

Here’s a quick recap to make sure you have all you need to enjoy 144Hz on your monitor:

HDMI 2.0 ports support a 144Hz at 1440p, while HDMI 4K 144Hz is only possible with HDMI 2.1.
Make sure the ports on your GPU and monitor support 144Hz before you buy an adapter.
Only Dual-Link DVI-D adapters support 144Hz.
Make sure you check for HDMI cable ratings when buying an HDMI cable.

If you have a USB Type-C on your laptop and your monitor supports a 144Hz over HDMI, you’ll need to get a USB-C to HDMI cable or adapter. Also, make sure your USB-C supports Display

Can I connect a 144Hz monitor via HDMI?

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Articles on the topic: Monitors (monitor)

Author of the article: Sergey Koval
([email protected])

Published: 1 September 2021

We understand why when connected via HDMI, monitor capabilities are not always realized

Today, a high-performance gaming monitor should have a resolution of at least Full-HD and demonstrate a frequency of 144 Hz. These are the indicators that will allow you to implement the graphics of modern AAA-class games and enjoy high-quality gameplay.
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However, even after purchasing such a monitor, many users do not get the expected quality of video content. To take full advantage of the screen, a high-bandwidth connection interface is required. In this article, we will take a closer look at the capabilities of the familiar HDMI.

Types and possibilities of HDMI interfaces

New monitors, depending on the class and performance, are equipped with different versions of the HDMI interface. Consider the possibilities of each in detail.
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The HDMI 1.0 standard was introduced back in 2002, at a time when 60 Hz monitors were the maximum frequency. This value at Full-HD resolution limits its bandwidth.

HDMI 1.4 — released in 2009 and is the most controversial standard. It is believed that its bandwidth is sufficient for monitors with a frequency of 144 Hz, showing images at a resolution of 1920 x 1080. It is also capable of broadcasting video at a resolution of 2560 x 1440 at 75 Hz and 4K at 30 Hz.
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However, some display models are equipped with a stripped-down version with limited bandwidth, so when buying a monitor with an HDMI 1.4 interface, users can get a maximum refresh rate of 120 Hz.

Newer versions of the standard support 144 Hz.

HDMI 2.0 is a 2013 development. It can be used to transmit Full-HD video at up to 240Hz, with WQHD image quality up to 144Hz. On monitors with a resolution of 4K, the video sequence will be displayed at a frequency of 60 Hz.
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HDMI 2.1 is the latest version of the standard that implements 4K, 5K, 8K, 10K at 120Hz without exception, and Full-HD at 480Hz.

What else to look for?

First of all, you should check the compatibility of the equipment. Not only the monitor, but also the video card must be equipped with the appropriate HDMI version. All HDMI interfaces are backwards compatible. That is, the assembly will work, but performance will be limited to the weakest node, regardless of whether it is a video card or a monitor.
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Another tip: buy only high-quality branded cables. Unidentified wires from China can also act as a limiting factor.

Other interface options

Consider the possibilities of other common cables and interfaces.

VGA is an outdated analog connector that can provide a maximum resolution of 1920 x 1200 at a maximum screen refresh rate of 75 Hz. Most modern video cards and monitors are not equipped with such an interface. However, a fairly large number of current user equipment and office devices have this interface.
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DVI is also not the most modern, but quite common interface. Only Dual-Link DVI-D has the potential required for 144 Hz. It can provide 144Hz with a resolution of 1920 x 1080, which means it can work seamlessly with Full-HD monitors. But it is also capable of realizing a resolution of 2560 x 1440 pixels at 75 Hz. That is, through it you can connect game and work WQHD monitors.

DisplayPort is the largest group of modern interfaces that are present on all gaming monitors of recent years. This connector has several versions. The weakest — DisplayPort 1.1 provided Full-HD with 144 Hz and 4K — 30 Hz.
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DisplayPort 1.2 is capable of providing the following types of connectivity:

Full HD up to 240 Hz.

WQHD up to 165Hz.

4K at 75Hz or less.

The newer DisplayPort 1.3 demonstrates the following features:

WQHD up to 240 Hz.

4K at 120Hz or less.

5K at 60Hz.

nine0003 8K at 30Hz.

The latest version of DisplayPort 1.4 supports video stream compression technology and demonstrates the following performance with it:

4 K at 240 Hz.

5K @ 120Hz.

8K @ 60Hz.

DisplayPort 2.0 version — the same performance as 1.4 only without compression at maximum modes.

There is also a group of mini-DisplayPort cables that implement the bandwidth of the interface on which each is based.
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USB Type-C is the latest multifunctional standard. It is capable of simultaneously transmitting video and audio streams, as well as recharging or powering connected equipment. Its capabilities correspond to the DisplayPort 1.4 interface, that is, it is possible to transmit a video signal in 8K resolution at a frequency of 60 Hz. It also copes with other resolutions without problems.

Conclusion

Thus, none of the formats for connecting monitors is losing ground. However, DisplayPort demonstrates the maximum efficiency today: introduced in the fall of 2019DP 2.0 specification with 1.5 times the bandwidth of HDMI 2.1.

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Can I connect a 144Hz monitor via HDMI?| ichip.

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Can I connect a 144Hz monitor via HDMI?

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If you want to connect a 144Hz gaming monitor, you’ll need the right cable to get the most out of the display. We figure out whether it is possible to connect such a screen via a regular HDMI and what you should pay attention to when installing a monitor. nine0011

HDMI: Can a 144Hz monitor be connected?

Classic HDMI 1.0 cables can only transmit at 60Hz. From version 1.4 HDMI, it is possible to connect monitors with a refresh rate of up to 120 Hz. Purely theoretically, with HDMI 2. 0, it is quite possible to connect monitors with increased hertz — up to 240 Hz. However, in practice, everything has stopped at 120 Hz, and only a few manufacturers modify monitors so that they can output 144 Hz via an HDMI connection. nine0011

When buying an HDMI cable, you should still opt for version 2.0, since with HDMI 1.4 in any case it will not be possible to achieve a frequency higher than 120 Hz — and depending on the monitor and video card, at high resolutions it can even be lower.

Be sure to check if your graphics card supports the correct HDMI version. The monitor itself must also support it. However, all HDMIs are backwards compatible, and if you connect a display at a low frequency using HDMI 2.0, or vice versa, then nothing bad will happen — just the image quality will be limited by the capabilities of the equipment. nine0011

Technology

Smartphones with a 120Hz screen: a step forward or just marketing?

Can a gaming monitor run at 144Hz refresh rate via HDMI

If you want not only 120Hz but the 144Hz refresh rate that many gaming monitors support, then HDMI will have to be put aside: current versions of this interface do not provide image output with such a high frame refresh rate.