Name of the company-manufacturer.
Designation of the model.
The year in which this model was announced.
Size class of the display as declared by the manufacturer. Often this is the rounded value of the actual size of the diagonal in inches.
|27 in (inches)|
Approximate diagonal size of the display. If the manufacturer does not provide such information, the diagonal is calculated from the width and height of the screen.
|685.9 mm (millimeters)|
68.59 cm (centimeters)
27.0039 in (inches)
2.2503 ft (feet)
Approximate width of the display. If the manufacturer does not provide such information, the width is calculated from the diagonal and the aspect ratio.
|596.736 mm (millimeters)|
59.6736 cm (centimeters)
23.4935 in (inches)
1.9578 ft (feet)
Approximate height of the display. If the manufacturer does not provide such information, the height is calculated from the diagonal and the aspect ratio.
|335.664 mm (millimeters)|
33.5664 cm (centimeters)
13.2151 in (inches)
1.1013 ft (feet)
Name of the manufacturer of the display panel.
Information about the model of the panel used.
There are various panel technologies. Each has its own specific features - viewing angles, color reproduction, response time, brightness/contrast, production cost, etc. The image quality depends directly on the type of the display panel used.
|Panel bit depth|
The most widely used panels are those with 6, 8, and 10 bits for each of the RGB components of the pixel. They provide 18-, 24-, and 30-bit color, respectively.
|10 bits (8 bits + FRC)|
Frame Rate Control (FRC) is a method, which allows the pixels to show more color tones. With quick cyclic switching between different color tones, an illusion for a new intermediate color tone is created. For example, by using FRC, a 6-bit display panel is able to show 16.7 millioin colors, which are typical for 8-bit display panels, and not the standard 262200 colors, instead. There are different FRC algorithms.
A LUT (Look Up Table) contains precalculated sets of values that are used to apply transformations to the input color data so that the resulting data meets certain (the desired) visual standard and color accuracy. For example, LUT can be used to emulate/map different color spaces and gamma settings. Many professional monitors as well as some TVs have programmable internal LUTs allowing more control over the image.
The maximum number of colors, which the display is able to reproduce, depends on the type of the panel in use and color enhancing technologies like FRC.
The ratio between the horizontal and the vertical side of the display. Some of the standard and widely used aspect ratios are 4:3, 5:4, 16:9 and 16:10.
Information about the number of pixels on the horizontal and vertical side of the screen. A higher resolution allows the display of a more detailed and of higher quality image.
|2560 x 1440 pixels|
Quad HD (QHD) / 1440p
The pixel pitch shows the distance from the centers of two neighboring pixels. In displays, which have a native resolution (the TFT ones, for example), the pixel pitch depends on the resolution and the size of the screen.
|0.233 mm (millimeters)|
0.0233 cm (centimeters)
0.0092 in (inches)
0.0008 ft (feet)
Information of the number of pixels in a unit of length. With the decrease of the display size and the increase of its resolution, the pixel density increases.
|109 ppi (pixels per inch)|
42 ppcm (pixels per centimeter)
The backlight is the source of light of the LCD display panels. The type of backlight determines the image quality and the color space of the display. There are various backlights such as CCFL, LED, WLED, RGB-LED, and etc.
sRGB is a color space, developed jointly by Hewlett-Packard and Microsoft in 1996. It is used in different devices such as printers, displays, TV sets, cameras, etc. The sRGB color space covers about 72% of the NTSC color space.
|100 % (percent)|
|Adobe RGB (1998)|
Adobe RGB (1998) is a color space, developed by Adobe Systems in 1998. It has a wider gamut than the sRGB (mainly in the cyan-green range of colors) and is widely used in professional printing.
|99 % (percent)|
The NTSC (1953) color space is introduced in 1953 by the FCC with the appearance of color television and has a wider gamut than the sRGB.
|72 % (percent)|
DCI P3 is a color space, introduced in 2007 by the SMPTE. It is used in digital cinema and has a much wider gamut than the sRGB.
|95 % (percent)|
Information about the brightness of the screen. It is measured in candela per square metre (cd/m²).
|250 cd/m² (candela per square meter)|
The static contrast shows the ratio between the brightest and the darkest color, which the display can reproduce simultaneously, for example, within one and the same frame/scene.
|1000 : 1|
The dynamic contrast shows the ratio between the brightest and the darkest color, which the display can reproduce over time, for example, in the course of playing a video.
|20000000 : 1|
|Horizontal viewing angle|
Information about the maximum horizontal viewing angle, within which the image on the screen is of acceptable quality.
|178 ° (degrees)|
|Vertical viewing angle|
Information about the maximum vertical viewing angle, within which the image on the screen is of acceptable quality.
|178 ° (degrees)|
|Minimum response time|
Information about the minimum amount of time, in which the pixels change from one color to another. Very often the manufacturer provides the response time for transition from grey-to-grey (G2G).
|5 ms (milliseconds)|
0.0050 s (seconds)
|Average response time|
Information about the average amount of time, in which the pixels change from one color to another.
|12 ms (milliseconds)|
0.0120 s (seconds)
|Maximum response time|
Information about the maximum amount of time, in which the pixels change from one color to another.
|20 ms (milliseconds)|
0.0200 s (seconds)
Desktop monitors and smart TVs experience a latency/lag in visualizing the information. The time in milliseconds that the display needs to visualize the signal input.
|17 ms (milliseconds)|
0.0170 s (seconds)
Information about the type of coating of the display. There are different types of matte and glossy coatings, each of which has its own advantages and drawbacks.
Information on whether 3D is supported or not.
|Vertical frequency (digital)|
The vertical frequency/refresh rate shows how many times in a second the image on the screen is refreshed.
|50 Hz - 76 Hz (hertz)|
Permissible voltage tolerance in a 110-volt electric system.
|100 V - 120 V (volts)|
Permissible voltage tolerance in a 220-volt electric system.
|220 V - 240 V (volts)|
|Alternating current frequency|
Requirement regarding the alternating current frequency in the electric system.
|50 Hz - 60 Hz (hertz)|
|Power consumption (off)|
Power consumption in off-mode.
|0.3 W (watts)|
|Power consumption (sleep)|
Power consumption in sleep/stand by/suspend mode.
|0.5 W (watts)|
|Power consumption (average)|
Average power consumption in standard work mode.
|36.7 W (watts)|
|Power consumption (maximum)|
The maximum possible power consumption.
|45 W (watts)|
|Width with stand|
Width with stand in different measurement units.
|652.8 mm (millimeters)|
65.28 cm (centimeters)
25.7008 in (inches)
2.1417 ft (feet)
|Height with stand|
Height with stand in different measurement units.
|445.2 mm (millimeters)|
44.52 cm (centimeters)
17.5276 in (inches)
1.4606 ft (feet)
|Depth with stand|
Depth with stand in different measurement units.
|322.8 mm (millimeters)|
32.28 cm (centimeters)
12.7087 in (inches)
1.0591 ft (feet)
|Weight with stand|
Weight with stand in different measurement units.
|8.3 kg (kilograms)|
18.3 lbs (pounds)
Information about the colors, in which the specific model is offered to the market.
Information about whether there is a possibility for wall mounting according to the VESA Mounting Interface Standard (MIS).
There are many various interfaces under the VESA standard, which differ in the size of the brackets, the distances between the screw holes and their number.
|100 x 100 mm|
Information about whether the stand can be dismounted. Usually, this is required for wall mounting.
Information about whether the stand allows height adjustment.
|Height adjustment range|
Information about the extent to which the stand allows the height to be adjusted.
|130 mm (millimeters)|
13 cm (centimeters)
5.1181 in (inches)
0.4265 ft (feet)
Some displays have the ability to operate in landscape and portrait mode alike.
Degree of pivoting the display counterclockwise.
|0 ° (degrees)|
Degree of pivoting the display clockwise.
|90 ° (degrees)|
Information whether the display can be swiveled around the stand axis.
Maximum swivel degree of the display to the left of the stand axis.
|35 ° (degrees)|
Maximum swivel degree of the display to the right of the stand axis.
|35 ° (degrees)|
Most displays have the ability to be tilted forward and backward as to provide a more comfortable viewing position for the user.
Maximum degree of forward tilting of the display.
|5 ° (degrees)|
Maximum degree of backward tilting of the display.
|20 ° (degrees)|
Information whether the current model has a built-in camera or not.
Information about the available connectivity ports, slots and interfaces such as USB, infrared port, SD card slot, audio/video and network interfaces, etc.
|1 x USB (mini)|
2 x USB 2.0 (downstream)
1 x USB 3.0 (upstream)
1 x HDMI 1.4
1 x DisplayPort 1.2
1 x DVI-D Dual Link
1 x 3.5 mm Audio Out
1 x SD Memory Card Slot
|High-bandwidth Digital Content Protection (HDCP)|
Information about additional software features, technologies, functions and services of the model.
|AMA (Advanced Motion Accelerator)|
Low Blue Light
|Certificates, standards and licenses|
List of the standards, certificates and licenses supported/received by the current model.
|ENERGY STAR 6.0|
Information about some of the main accessories included in the standard packaging of the current model.
|DisplayPort cable - mini-DP to DP|
USB 3.0 upstream cable