- 100% Input Lag
A television’s input lag is the amount of time that elapses between a picture being generated by a source and that image appearing onscreen. When gaming, you’ll experience this as the time between making an input and seeing the reaction appear onscreen. It’s only important for gamers, and even then, different gamers will have different sensitivity to lag.
We record the lowest input lag time of which a TV is capable, the amount of lag present when motion interpolation is enabled, and the amount of lag a TV has when using our calibrated settings.
Note: Do not confuse the input lag time with the response time. The response time is the time it takes a pixel to shift from one color to another, which is significantly shorter than the input lag time. Response time is related to motion blur.
|Product||Year||Type||Input Lag||With Interpolation||Outside Game Mode||Overall||Our Reviews|
|Vizio D Series 4k 2016||2016||40" 50" 55" 58" 65"||LED||13.5 ms||N/A ms||80.1 ms||7.5||See review|
|Vizio P Series 2016||2016||50" 55" 65" 75"||LED||17.7 ms||107.1 ms||113.2 ms||8.2||See review|
|Vizio M Series 2015||2015||43" 49" 50" 55" 60" 65" 70" 75" 80"||LED||18.5 ms||43.9 ms||103.6 ms||7.4||See review|
|Vizio P Series||2014||50" 55" 60" 65" 70"||LED||18.7 ms||84.3 ms||85.5 ms||7.5||See review|
|Samsung KU6300||2016||40" 43" 50" 55" 60" 65" 70"||LED||19.8 ms||109.9 ms||122.4 ms||7.2||See review|
|Samsung KS9500||2016||55" 65"||LED||20.5 ms||120.7 ms||112.9 ms||8.2||See review|
|Samsung KS9000||2016||55" 65"||LED||20.5 ms||110.6 ms||124.1 ms||8.2||See review|
|Samsung KS8000||2016||49" 55" 60" 65"||LED||20.9 ms||118.9 ms||113.5 ms||8.1||See review|
|Samsung JU7500||2015||40" 48" 50" 55" 65" 78"||LED||21.1 ms||130.2 ms||119.8 ms||7.9||See review|
|Samsung JS9500||2015||65" 78" 88"||LED||23.2 ms||145.5 ms||154.6 ms||7.9||See review|
|Samsung JS9000||2015||48" 55" 65"||LED||23.6 ms||131.6 ms||139.1 ms||8.1||See review|
|Sony W600D||2016||32"||LED||26.0 ms||N/A ms||26.2 ms||6.5||See review|
|Samsung JU7100||2015||40" 50" 55" 60" 65" 75" 85"||LED||26.1 ms||116.1 ms||127.9 ms||7.7||See review|
|Samsung JU6400||2015||40" 48" 55" 60" 65"||LED||26.4 ms||110.7 ms||119 ms||7.5||See review|
|Vizio D Series 1080p 2016||2016||32" 40" 43" 43" 48" 50" 55" 60" 65"||LED||26.5 ms||N/A ms||26.5 ms||7.4||See review|
|Samsung JU6500||2015||40" 48" 50" 55" 60" 65" 75"||LED||26.5 ms||117.5 ms||118.1 ms||7.2||See review|
|Samsung JS7000||2015||50" 55" 60"||LED||27.4 ms||122.3 ms||122.1 ms||7.4||See review|
|Samsung JU6700||2015||40" 48" 55" 65"||LED||27.8 ms||116.0 ms||116.5 ms||7.1||See review|
|LG LF5500||2015||49"||LED||28.4 ms||N/A ms||31.0 ms||5.9||See review|
|Samsung J5200||2015||32" 40" 43" 48" 50"||LED||29.2 ms||N/A ms||35.5 ms||6.3||See review|
|Vizio E Series 2015||2015||32" 40" 43" 48" 50" 55" 60" 65" 70"||LED||29.5 ms||N/A ms||29.5 ms||7.3||See review|
|LG LF5600||2015||32" 42"||LED||29.8 ms||29.8 ms||6.0||See review|
|TCL FS3750||2016||40" 48" 55"||LED||30.3 ms||N/A ms||31.4 ms||7.0||See review|
|LG UH8500||2016||55" 60" 65" 75"||LED||31.4 ms||121.7 ms||48.7 ms||7.8||See review|
|LG UH7700||2016||55" 60" 65"||LED||33.9 ms||57.3 ms||57.0 ms||7.4||See review|
|Sony X850D||2016||55" 65" 75" 85"||LED||34.6 ms||67.5 ms||71.2 ms||7.6||See review|
|Sharp LE653U||2015||32" 40" 43" 48" 55"||LED||34.7 ms||N/A ms||34.7 ms||6.6||See review|
|Sony X900C||2015||55" 65"||LED||35.1 ms||69.7 ms||72.5 ms||7.4||See review|
|Sony X810C||2015||55" 65"||LED||35.7 ms||68.3 ms||72.0 ms||7.6||See review|
|LG LF6000||2015||50" 55"||LED||35.9 ms||38.8 ms||6.0||See review|
|LG UF9500||2015||65"||LED||36.1 ms||127.6 ms||61.0 ms||7.2||See review|
|Sony W850C||2015||65" 75"||LED||36.2 ms||50.5 ms||54.3 ms||6.7||See review|
|Sony X830C||2015||43" 49"||LED||36.8 ms||69.6 ms||74.0 ms||7.0||See review|
|Samsung JS8500||2015||48" 55" 65"||LED||36.9 ms||110.0 ms||117.0 ms||8.1||See review|
|Sony X930C||2015||65"||LED||37.4 ms||65.9 ms||68.6 ms||7.9||See review|
|Sony W800C||2015||50" 55"||LED||37.4 ms||50.3 ms||54.1 ms||7.1||See review|
|Samsung J4000||2015||32"||LED||38.7 ms||39.3 ms||6.4||See review|
|Samsung J5000||2015||32" 43" 48" 50"||LED||39.1 ms||N/A ms||39.1 ms||6.7||See review|
|Sony X850C||2015||55" 65" 75"||LED||39.5 ms||69.6 ms||64.2 ms||7.5||See review|
|Samsung J5500||2015||40" 48" 50"||LED||40.0 ms||N/A ms||91.7 ms||6.2||See review|
|LG EC9300||2015||55"||OLED||40.7 ms||105.9 ms||106.0 ms||8.5||See review|
|LG EG9100||2015||55"||OLED||43.5 ms||110.9 ms||110.8 ms||8.5||See review|
|Samsung J6200||2015||40" 50" 55" 60" 65"||LED||44.5 ms||58.3 ms||65.6 ms||7.3||See review|
|Samsung J6300||2015||32" 40" 50" 55" 60" 65" 75"||LED||44.9 ms||118.7 ms||127.3 ms||7.2||See review|
|Sony R510C||2015||40" 48"||LED||45.8 ms||46.5 ms||6.8||See review|
|Sharp UH30U||2015||70" 80"||LED||46.2 ms||116.6 ms||61.2 ms||7.2||See review|
|LG LF5800||2015||42"||LED||49.6 ms||149.7 ms||149.8 ms||6.5||See review|
|LG LF6100||2015||50" 55" 60"||LED||49.7 ms||149.9 ms||149.8 ms||6.5||See review|
|LG LF6300||2015||40" 43" 49" 55" 60" 65"||LED||50.1 ms||126.5 ms||119.5 ms||6.5||See review|
|LG EG9600||2015||55" 65"||OLED||50.1 ms||117.3 ms||50.2 ms||8.8||See review|
|Sony X930D||2016||55" 65"||LED||52.3 ms||84.2 ms||89.2 ms||7.9||See review|
|LG EF9500||2015||55" 65"||OLED||53.5 ms||120.1 ms||54.5 ms||8.8||See review|
|LG UF7600||2015||43" 49" 55"||LED||55.5 ms||1317 ms||65.1 ms||6.8||See review|
|LG UF6400||2015||43" 49"||LED||56.1 ms||129.2 ms||71.2 ms||6.6||See review|
|LG UF8500||2015||60" 65"||LED||56.7 ms||116.5 ms||63.1 ms||6.8||See review|
|LG UF7700||2015||60" 65" 70" 79"||LED||59.4 ms||113.6 ms||59.4 ms||6.7||See review|
|LG UF6800||2015||55" 65"||LED||60.0 ms||125.3 ms||63.1 ms||6.5||See review|
|Sharp UB30U||2015||43" 50" 55" 65"||LED||79.7 ms||146.4 ms||146.3 ms||6.8||See review|
For older models, see our results for 2013 and 2014 TVs.
When it matters
Input lag only matters for playing video games, either on a console or on a PC.
With fast-paced games like shooters and fighting games, quick reflexes are key. Lower input lag can mean the difference between a well-timed reaction and a move that takes too long to register and ends up countered by the opponent before it can ever be performed. This lag doesn’t matter for watching movies, though, so unless you’re a gamer and are worried about PC peripheral lag, or Nintendo, Xbox One, or PS4 controller input lag (or other controllers too), you have nothing to worry about. Most people will not notice under 50 ms of input lag, and most will also find anything over 100 ms terrible to play with.
This input lag test represents the lowest lag a TV is capable of achieving. This is the amount of lag that is best for gamers, and is pretty important for most fast-paced, competitive games.
We use Leo Bodnar’s input lag checker to perform this test, as it provides an accurate, continuous measurement of a TV’s input lag. To get the lowest amount of lag on most TVs, it’s necessary to enable game mode. On some, though, special steps are required, which we list in a section lower down.
Input lag with interpolation
This input lag time represents the lowest amount of lag a TV can get with the motion interpolation feature (soap opera effect) turned on. If you want to increase the frame rate of videos by adjusting the TV’s settings, this is a test you should care about. Just keep in mind that this setting will usually have significantly higher input lag than the TV’s minimum, and so isn’t great for competitive games (it works well for most RPGs and turn-based games, though).
We use the same testing process as for the first test, only instead of enabling game mode, we enable motion interpolation at its highest setting.
On most TVs, this isn't playable for fast games. Some people chose to live with the higher input lag in order to get the smoother motion. Learn more about motion interpolation.
Input lag outside game mode
Our ‘outside game mode’ measurement represents the amount of input lag that is present when a TV uses our posted review settings – no game mode, no motion interpolation. Game mode disables many of the picture options a TV has, so this test is useful for people who want to play games with all of the TV’s settings available to them.
We use the same testing process as for the first test, only we don’t enable any settings other than what is used by our test calibration.
How input lag is measured
Input lag is not an official television specification because it depends on two varying factors: the type of source and the settings of the television. The easiest way you can measure it is by connecting a computer to the TV and displaying the same timer on both screens. You can find a timer here. Then, if you take a picture of both screens, the time difference will be your input lag. This is, however, an approximation, because your computer does not necessarily output both signals at the same time. In this example image, an input lag of 40ms (1:06:260 – 1:06:220) is indicated.
In our tests, we measure input lag using a dedicated device made just for this purpose: the Leo Bodnar tool. This is a lot more accurate than the two screens method.
Why there is input lag on TVs
There are three main functions that delay the television: acquiring the source image, processing the image, and displaying it.
Acquisition of the image
The more time it takes for the TV to receive the source image, the more input lag there will be. With modern digital TVs, using an HDMI cable will allow you to minimize the acquisition time, as that will transfer from the source a digital signal that is easily accepted by the TV.
You might find a bit more lag is present with analog connections, like component or composite cables. This is because the TV needs to convert the analog signal to digital before video can be displayed, and the conversion process takes time.
Once the image is in a format understandable by the video processor, it will apply at least some processing to alter the image in some way. A few examples:
- Adding overlays (like menus)
- Adjusting the colors and brightness
- Interpolating the picture to match the television's refresh rate
- Scaling it (like 720p to 1080p, or 1080p to UHD)
The time this step takes is affected by the speed of the video processor and the amount of processing needed. Though you cannot control the speed of the processor, you can exercise some control over how many operations it needs to do by enabling and disabling settings. The more settings you enable, the more work the processor needs to achieve.
Some televisions have a dual core processor in them. This can help reducing the input lag if a lot of processing options are turned on.
Displaying the image
Once the television has processed the image, it is ready to be displayed on the screen. This is the step where the video processor sends the image to the screen. The screen cannot change its state instantly, and the amount of time it will take depends on the technology and components of the television. There’s unfortunately no way to improve or control the amount of time taken by this phase; it is a fixed amount of time for each television.
How to get the best results
Most televisions can be adjusted so that they do not have high input lag. As a general rule, try the following (which is how we set up the TVs in our tests):
- Set the TV to Game or PC Mode
- Disable all of the television's settings
Additionally, you can try different combinations of settings/modes/inputs until you arrive at whatever balance of features and input lag that you like.
Here are the steps necessary for getting minimal input lag on TVs from several brands:
- Samsung: Go to Menu > System > General and set ‘Game mode’ to ‘On.’
- Sony: Go to Menu > Picture adjustments and set ‘Picture mode’ to ‘Game.’
- Vizio: Go to Menu > Picture > More picture and set ‘Game Low Latency’ to ‘On.’
- LG: Go to Menu > Picture and set ‘Picture mode’ to ‘Game.’
- Game mode will disable some of the television's most time-consuming processing. However, gaming mode is not necessarily the setting that guarantees the lowest input lag of the television; you will sometimes need to play with the other settings to get the optimal input lag time.
- Inside game mode, it doesn't really matter what settings you turn on.
- The input lag varies slightly depending on the input resolution and frame rate.
- The input lag also varies in time. On some TVs, it even varies +/- 5ms.
Input lag is the amount of time that elapses between performing an action with a source device and seeing the result onscreen. It’s important for gaming, and is particularly important for fast-paced, competitive games. Anything below 50 ms is unnoticeable by most people. We test to find the lowest amount of lag a TV can have, as well as how much lag is present when a TV has motion interpolation enabled, or when it has normal, non-gaming picture settings on.
To improve the amount of lag, the best thing to do is use ‘Game’ or ‘PC’ mode on your TV (depending on the brand). If you want to use other settings that aren’t available in game mode, you’ll unfortunately need to deal with a higher amount of lag.
Questions & Answers
And generally, apart from some of the settings being disabled, the settings within game mode aren't really different enough that it makes sense to give them their own section, so we likely won't be adding that. But thanks for the suggestion!
If this is indeed the case, to avoid any of this kind of skipping in the future, just disable the motion interpolation feature on whichever TV you get.
And yes, we do plan to test an OLED TV sometime this year.
Before asking a question, make sure you use the search function of our website. The majority of the answers are already here.