<h1><b>Refresh Rate Explained: What Does 60Hz, 90Hz, Or 120Hz Mean?</b></h1> ![](https://i.imgur.com/hE0i7IL.png) **Refresh rate** defines how often your display updates its content. Here's what you need to know about 90Hz and 120Hz screens. High-end smartphones increasingly boast blazing-fast 90Hz, 120Hz, and even faster refresh rate displays. This sounds great on paper and it’s yet another way that smartphones attempt to differentiate themselves from one another. But should you buy a phone because of this latest display tech trend? It honestly depends. The benefits of high refresh rate phones and even how they work are not always well understood. While games and content can look a **lot smoother**, whether it’s worth the extra battery consumption depends greatly on the user and the handset. There are various online [Refresh Rate Checker Tool](https://fpstest.org/refresh-rate-test/) available to check refresh Rate. With that in mind, here’s everything you need to know about display refresh rates. <h2><b>What Is The Rrefresh Rate?</b></h2> ![](https://i.imgur.com/7e6eAYG.png) Displays aren’t static. Content and motion appear smooth on your phone’s screen because every pixel constantly updates to display the latest content from your handset’s processor. But this doesn’t happen randomly. Panels update their content at regular intervals, known as the refresh rate. The refresh rate measures the period of time between a phone’s display updates. In other words, how often and quickly the content on the screen refreshes. Measured in Hertz (Hz), the refresh rate counts the number of times the display fully refreshes every second. A **60Hz display refreshes 60 times per second**, 90Hz is 90 times per second, 120Hz is 120 times per second, and so on. So a 120Hz display refreshes twice as fast as a 60Hz panel and 4x faster than 30Hz. **Faster update times also mean lower latency** because the pixels refresh more often. For example, it takes 16.6 ms to fully refresh a 60Hz display, 11.1ms for 90Hz, and just 8.3ms for a 120Hz rate. Refresh rate isn’t the only factor in round-trip display latency, but it’s the most significant contributor. Your smartphone’s screen doesn’t refresh all at once each cycle, though. Instead, each horizontal row of pixels refreshes in turn until the whole display updates at the required rate. You can see this in action if you film a display in slow motion, and it’s the reason why displays flicker if you view them through your **smartphone camera’s viewfinder. ** In other words, your display is constantly updating and refreshing, but it takes cycle time to complete one full refresh. A quick note on touch sample rate — a related but different metric. Also measured in Hz, the sample rate tells you how many times per second the touchscreen looks for input from the user’s finger. A higher-touch sample rate means **less lag** between input (touch or swipe) and action, which is especially important for fast-paced games. <h2><b>What 60Hz, 90Hz, And 120Hz Mean For My Phone?</b></h2> ![](https://i.imgur.com/B9HEQ9a.png) Higher refresh rate displays make moving content look and **feel smoother and snappier**. Even swiping through your emails and interacting with Facebook’s UI or your web browser can look smoother than the standard 60Hz rate. Although that’s not a **game-changer** for day-to-day smartphone use, it’s undoubtedly nicer to look at and there are also more meaningful benefits to be found in fast-motion content, such as video and gaming. However, most video content plays back at the industry standard 24 frames per second or 24Hz. As such, display processing needs to either adapt the frame rate to the content or upscale the content to the frame rate. 120Hz displays are great because they can playback content at **60Hz, 30Hz, and 24Hz** with even frame divisions. Other refresh rates require processing when scaling 24Hz video. Poor quality processing can induce judder into your videos, which obviously isn’t good. Faster displays make a big difference when it comes to gaming too. Higher frame rates and faster response times can have a noticeable impact because **visual latency is lower and gameplay appears smoother**. PC gamers regularly swear by 120Hz and even 144Hz displays. Now mobile gamers can benefit too, albeit on a much smaller screen. However, high frame rate gaming requires a beefy, energy-hungry processor too. This ensures that the graphics frame rate keeps up with the high display refresh rate. The game you’re playing also needs to support high refresh rates too. A 120Hz display won’t benefit from a game capped at 30 frames per second. Unfortunately, **high refresh rates reduce battery life**. During our test on the OnePlus 7 Pro, we noted 200 fewer minutes of browsing time when using the 90Hz mode versus the more standard 60Hz. We also recorded a 9% drop in battery life when switching the Galaxy S20 Ultra between 60Hz and 120Hz modes. However, newer handsets with more efficient displays provide decent battery life, thanks to adaptive 90Hz and 120Hz refresh rates. This is helping to lessen the trade-offs associated with early high refresh rate panels. <h2><b>120Hz Variable Refresh Rates</b></h2> ![](https://i.imgur.com/NpXIotP.png) Higher refresh rates have a negative impact on screen time, but manufacturers have come up with some clever technologies to limit their impact on battery life. **Variable refresh rate AMOLED panels** powered by low-temperature polycrystalline oxide (LTPO) backplane technology is leading this revolution. Implementations vary, but a combination of [LTPO](https:/https://www.smartprix.com/bytes/best-ltpo-displat-phones-with-vrr//) and software changes allows for dynamic refresh rates from 120Hz down to 1Hz, although in reality lowering refresh rates to 60, 24, and 10Hz is more common. The idea is simple in principle, reducing the number of display updates when viewing static content, such as images and web pages, improves battery life while still benefiting from the **smoothness of very high refresh rates** when scrolling through content. Examples of LTPO variable refresh rate phones that can hit 10Hz and lower include the Samsung Galaxy S22 series, Oppo Find X3 Pro, OnePlus 10 series, and others. Samsung also employs a **novel technology** in its Galaxy S22 and S22 Plus phones. The display refresh rate drops as low as 48Hz but communication between the processor and display falls as low as 10Hz to save on some more power. <h2><B>Should I Buy A High Refresh Rate Phone?</B></h2> 90Hz and 120Hz displays are now a mainstay in modern smartphones, not just in the **ultra-premium market**. These panels are increasingly available in affordable mid-tier handsets as well. That said, refresh rate is a small part of a smartphone’s display specifications. You shouldn’t buy a fast display if the color is awful, after all. Ultimately, aspects like color gamut, contrast, white point and color temperature, **HDR capabilities**, and resolution have an equally significant impact on your phone’s screen quality. That said, high refresh rates are now an essential factor in modern mobile displays and are increasingly hard to ignore when picking up a new phone. If you have your heart set on a lightning-fast display, here are just a few of the latest and greatest phones rocking a high refresh rate panel: Samsung Galaxy S22 series — 120Hz displays Google Pixel 6 Pro — 120Hz display Google Pixel 6 — 90Hz display Oppo Find X5 Pro — 120Hz display Asus Rog Phone 5 — 144Hz display Samsung Galaxy A52 5G — 90Hz display Xiaomi Mi 12 series — 120Hz displays