60Hz
Basic office, browsing, documents, and light media use. It is still usable, but motion does not look as fluid as higher-refresh displays.
144Hz / 165Hz
A practical upgrade for many PC gamers. It can feel smoother when your system can deliver enough frames consistently.
240Hz+
Useful mainly for competitive players who can maintain very high frame rates and benefit from faster visual updates.
Visual refresh-rate demo
See how higher Hz reduces the gap between frames
The moving dots use the same distance but different update rhythms. Higher refresh rates show more frequent visual updates, so motion can look smoother when your PC or console can output matching frame rates.
60Hz
Everyday
144Hz
Gaming sweet spot
240Hz+
Competitive motion
60HzFewer visual updates
144HzSmoother motion
240Hz+Smallest motion gaps
What Refresh Rate Actually Means
Refresh rate measures how many times per second a monitor redraws its image, expressed in Hertz (Hz). A 60Hz monitor updates 60 times per second. A 144Hz monitor updates 144 times. The practical effect is that higher refresh rates produce smoother apparent motion, because there are more frames delivered between each interval of time. At lower refresh rates, fast movement can appear choppy or blurred โ an effect that becomes more noticeable the faster the on-screen action is.
Refresh rate is not the same as frame rate. The monitor's refresh rate is the ceiling it can display โ your GPU or console must actually produce frames at or near that rate to benefit from the higher display speed. A 240Hz monitor connected to a system delivering 60 frames per second will not look better than a 60Hz monitor in that configuration.
60 Hz
Standard tier. Adequate for office work, web browsing, movies, and non-action-heavy games. Will not produce smooth motion in competitive first-person gameplay.
75 Hz
A modest improvement over 60Hz. Useful for users stepping up from entry-level displays. Not a gaming-focused tier but noticeably smoother than 60Hz for casual use.
100 Hz
A more recent tier appearing in mid-range IPS monitors. Provides a noticeable smoothness upgrade over 60Hz for everyday use and light gaming without requiring a high-output GPU.
144 Hz
The entry point for serious PC gaming. Most gaming genres benefit from this tier. GPU requirements are manageable at 1080p and reasonable at 1440p.
165โ240 Hz
High-end gaming tier. Provides tangible improvement over 144Hz in fast-paced multiplayer games where GPU output can match the refresh rate. Most users need a mid-to-high-range GPU.
360 Hz+
Esports-focused tier. Primarily useful for professional and semi-professional competitive players. Requires a high-performance GPU to deliver matching frame rates at useful resolutions.
Refresh Rate vs. Response Time
Refresh rate and response time are related but different. Refresh rate determines how often the screen updates. Response time measures how quickly individual pixels can change colour, typically expressed in milliseconds. A monitor can have a high refresh rate but slow pixel response, which causes visible ghosting trails behind fast-moving objects.
For high-refresh gaming monitors, a short response time โ typically 1 millisecond or below in grey-to-grey (GtG) measurements โ is important to match the panel's speed with its display frequency. Response time specifications vary in how they are measured and marketed across manufacturers, so comparing absolute values across brands without reviewing measurement methodology can be misleading.
Adaptive Sync โ Matching Frames to Refresh Rate
Even with a high-refresh monitor, frame rate and refresh rate are rarely locked in perfect sync during gameplay. When the frame rate drops below or fluctuates around the monitor's refresh rate, screen tearing or stuttering can appear. Adaptive sync technologies โ including AMD FreeSync and NVIDIA G-Sync Compatible โ allow the monitor's refresh rate to dynamically match the GPU's output within a supported range, reducing tearing and stutter without the input lag penalty of V-Sync.
Not all monitors support adaptive sync equally. The sync range (for example 48โ144Hz) and the implementation quality affect how well tearing is eliminated at the low end of the frame rate range. Verifying adaptive sync support and range from the official specification sheet is recommended before relying on it as a purchase reason.
Refresh Rate for Consoles
Console gaming adds a constraint that PC gaming does not have. PlayStation 5 and Xbox Series X support up to 120Hz output via HDMI 2.1 on compatible monitors. Most current console titles run at either 30fps or 60fps, with 120fps modes available in selected games. A 144Hz or 240Hz monitor does not offer a benefit beyond 120Hz for console use unless the monitor can handle 120Hz input at the relevant resolution over HDMI 2.1.
For older consoles or games capped at 30fps or 60fps, the refresh rate difference between a 60Hz and a 144Hz monitor is invisible because the frame output is the bottleneck, not the display.
Refresh Rate Guide โ Frequently Asked Questions
Will a 144Hz monitor make me better at gaming?
A higher refresh rate can make fast motion look smoother and reduce motion blur, which may improve your ability to track fast-moving targets. Whether that translates to better gaming outcomes depends on many other factors including input device, game settings, and individual skill.
Is there a visible difference between 240Hz and 360Hz?
For most users in most game types, the difference between 240Hz and 360Hz is smaller than the difference between 60Hz and 144Hz. The benefit of 360Hz is most perceptible in very high frame rate competitive titles and is primarily relevant to players who are already optimising every millisecond.
Does refresh rate affect battery life on laptops?
Yes. Higher refresh rate panels generally consume more power. Many laptop displays offer variable refresh rate or automatic switching between lower and higher refresh tiers to manage battery life.
Can I connect a 60Hz GPU to a 144Hz monitor?
Yes, but the monitor will display only the frames the GPU produces. If the GPU outputs 60fps, the 144Hz monitor will show a 60Hz experience. The additional refresh rate capacity is unused.
Does refresh rate affect eye strain?
Higher refresh rates can reduce the perception of flicker in some monitors, which may help with eye comfort over long sessions. The effect varies between individuals and depends on other factors including brightness, blue light filtering, and ambient lighting.
What is the difference between Hz and fps?
Hz refers to the monitor's display frequency โ how many times per second it can show a new image. Fps (frames per second) refers to how many frames the GPU or game engine is producing. For the smoothest result, both should be closely matched.
Is 100Hz enough for gaming?
For many casual to moderate gaming scenarios, 100Hz provides a noticeable improvement over 60Hz without requiring a high-output GPU. For competitive first-person shooters or fast-paced action games, 144Hz or higher is generally preferred.
Does adaptive sync work with all GPUs?
AMD FreeSync is designed for AMD GPUs but many FreeSync monitors are also NVIDIA G-Sync Compatible. G-Sync Certified monitors primarily target NVIDIA GPUs. Verifying compatibility between the specific monitor and your GPU before purchase is recommended.
Should I buy a high refresh rate monitor for general office use?
General office work โ document editing, browsing, email โ is not meaningfully improved by refresh rates above 60โ75Hz. Budget allocated to a higher refresh rate in an office context may produce better value if redirected toward resolution, ergonomics, or colour quality.