A 144 Hz monitor is a monitor with a refresh rate of 144 Hz. This means that it reads 144 frames per second, which is more than twice as fast as a conventional monitor. The higher this refresh rate, the smoother the image appears, especially video. 144Hz displays are slightly more expensive than 100Hz monitors for several reasons. First, monitors with 144Hz refresh rates also tend to have other impressive features that drive up the price, such as integration with the latest graphics cards, higher response times, and higher resolutions.
Why Are 144 Hz Monitors So Expensive
What is a 144Hz monitor?
The notation “144Hz” in monitors refers to the refresh rate of the monitor. This means that the image on the screen is refreshed 144 times per second (frames per second, or FPS). 1 Hz is equivalent to 1 frame per second, and 144 Hz is more than twice the “standard” refresh rate of 60 Hz.
While there are many monitors that are faster than 144 Hz, 144 Hz is arguably the most popular range of high frame rate monitors due to its affordability, availability, and reduced PC requirements.
Advantages of 144Hz Monitors
With 144Hz monitors, you get a device that can handle any high frame rate (up to 144Hz, of course) as long as your GPU is capable. The result is an incredibly smooth image and fast response time, and the motion blur and weird blurring that is common with 60Hz monitors is eliminated.
These monitors almost always feature additional technologies such as G-sync and AMD FreeSync that optimize input performance for gaming.
For competitive gamers, this is a big advantage because what you input is immediately reflected on the screen, but if you are using a lower-performing monitor, you will experience a slight delay.
Take a look at this side-by-side comparison to see how much a 144Hz monitor can improve your gaming.
Disadvantages of 144Hz Monitors
Despite all the good things that have been said about 144Hz monitors, there are some disadvantages.
Price is the primary drawback. While you can find affordable 144Hz monitors, their quality is significantly lower than that of more expensive models. This is due to the use of TN panels. These are inferior panels with several disadvantages.
With TN panels, speed is comparable to that of more expensive models, but color reproduction is poor. For this reason, if you expect vivid colors, you will find the colors on these monitors to be very pale, washed out, and lacking.
TN panels also have the disadvantage of poor viewing angles compared to other panel types.
Another problem with 144Hz monitors is the frame rate usage itself: while they can handle 144 frames per second, they are completely GPU dependent; if your GPU is weak, you cannot achieve very high frame rates, even with the world’s most expensive 144Hz monitor.
In other words, if you want to buy a 144Hz monitor, you have to pay a lot of money for an already powerful GPU.
Even if you have a powerful GPU, you will have to make compromises to achieve higher frame rates, such as scaling down the settings a bit to achieve that speed.
There are some affordable models with VA panels (which work quite well and solve the color and viewing angle problems of TN panels), but the response time is a bit slower than on high-end models. This can result in bluer motion and slightly slower input response time.
Why 144Hz is suitable for gaming
144Hz monitors are very useful for fast-paced, competitive games, where the faster response time is an advantage. The higher the frame rate, the smoother and faster the user sees the image; 144Hz should be considered the minimum for competitive gaming.
If you are a serious gamer, you probably have a very high quality GPU. The problem is that not all monitors can handle the crazy visuals needed to run graphics monsters, and 144Hz monitors eliminate this problem by allowing games to run at 144 frames per second.
In addition to being able to run games at nearly unlimited frame rates, it also alleviates many of the problems that plague PC gamers on a daily basis.
Do I need a 144 Hz monitor for gaming?
Do not consider it a requirement. Think of it as a nice added value that becomes important for certain types of games. Not only does a higher refresh rate make games run smoother, it also means that data on the screen updates faster and more accurately, and input lag is reduced.
This means that competitive gamers often prefer a frequency of at least 144 Hz to improve reaction time and keep the details of fast-paced games as clear as possible. It is also a welcome feature for gamers who enjoy rich visuals and atmospheric games, which are processed more smoothly at higher refresh rates.
What is the real difference between 144Hz, 240Hz, and 360Hz?
The specifications only affect the refresh rate and the speed at which the monitor and graphics processor process the image data. The higher the rate, the higher the frame rate the monitor can process, and more frames equals more visual data on the monitor screen. Especially with fast motion, more frames result in a clearer, smoother, and more realistic image.
However, the human eye’s vision is limited, and we are talking about a few milliseconds of video. At first glance, it may be difficult to see the difference, but as you jump from 144Hz to 240Hz and then to 360Hz, it may gradually become harder and harder to notice. For example, going from 144Hz to 240Hz will only result in a reduction of 2-3 milliseconds per frame. It is understandable that professional and competitive gamers would go for 240Hz, but for the rest of us it is not a priority. 360Hz is even more difficult and offers fewer benefits. The benefits are there, but they are less visible.
Ultimately, the most noticeable difference occurs when switching from 60Hz to 120Hz or 144Hz. If you are serious about gaming, this upgrade is worth considering.
What is the relationship between refresh rate and resolution?
Refresh rate and resolution are opposites. The higher the resolution, the more data per frame, which puts more stress on the CPU and GPU. if you are not blessed with a powerful PC, it may be difficult to transfer images at high speeds, resulting in lower refresh rates and frames per second. the GPU will need more processing power to make up the difference. more processing power is required. This is why graphics cards with high refresh rates and great resolution can be very expensive.
Another point to consider is that some cables can only transmit a certain amount of data; some monitors and TVs with HDMI 2.0 can achieve 4K resolution and frame rates of up to 120 Hz. However, HDMI 2.0 lacks bandwidth, so a DisplayPort connection is required to enjoy the benefits of both at the same time. However, HDMI 2.1 is even faster than DisplayPort 1.4 and can handle higher refresh rates and resolutions more efficiently.
How do I choose a 144Hz monitor?
We recommend that you take a look at this “Favorites” category to determine what aspects are important to you. For example, if you just upgraded your G-Sync graphics card, you will want a 144Hz G-Sync monitor to match. If you are using the monitor for immersive gaming or running multiple windows simultaneously, an ultrawide model may be the best option. Our choice, the Acer Predator, is an outstanding choice if you are looking for the most reliable visual clarity exclusively for gaming.