The screen defines your smartphone. This is why its size and the quality
of image it reproduces determines, to a large extent, your overall
experience of using a smartphone.
No wonder mobile phone makers are investing a fortune in screen technologies. But what makes one screen better than the other? Here are 10 mainstream technologies behind smartphone displays.
No wonder mobile phone makers are investing a fortune in screen technologies. But what makes one screen better than the other? Here are 10 mainstream technologies behind smartphone displays.
LCD
LCD,
or Liquid Crystal Display, is the most common flat panel display. It
uses a combination of layers of liquid crystals and a backlight to
produce an image. This type of display renders excellent colours on the
screen but falls short of the competitors when it comes to contrast
ratio.
Therefore, it is unable to match the darkness levels of other some screens like Super AMOLED and the colours seem washed out in sunlight.
Therefore, it is unable to match the darkness levels of other some screens like Super AMOLED and the colours seem washed out in sunlight.
TFT
TFT
or Thin Film Transistor is used to improve readability of LCD panels
and has fewer number of electrodes per pixel. Transistors are embedded
within the panel itself, reducing crosstalk between pixels and improving
image stability. Used mainly in entry-level handsets with colour
screens, TFT displays boast of better image quality than LCDs.
IPS
IPS,
or In Plane Switching, is an evolution of the LCD, invented by Hitachi
and LG to improve on colours and viewing angles of TFT displays.
This type of panel outdoes TFTs by offering better viewing angles and colour rendering, thus allowing users to view the images on the screens at acute angles without any loss of quality.
This type of panel outdoes TFTs by offering better viewing angles and colour rendering, thus allowing users to view the images on the screens at acute angles without any loss of quality.
Retina
Introduced
by Apple, this type of LCD panels uses pixels smaller than the human
retina can perceive. The pixel density of Retina displays is such that
the human eye is unable to distinguish between individual pixels,
contributing to a more enjoyable viewing experience.
This type of display technology is found in iPhone 4S/5C/5S, iPad Air, second-generation iPad Mini, fifth generation iPod touch and 13- and 15-inch Macbook Pro.
This type of display technology is found in iPhone 4S/5C/5S, iPad Air, second-generation iPad Mini, fifth generation iPod touch and 13- and 15-inch Macbook Pro.
OLED
OLED
or Organic Light Emitting Diodes, produce their own light rather than
relying on a backlight, thus saving battery and rendering dark colours
more effectively. It offers a brighter, more vivid picture with a higher
contrast ratio on lower power consumption and is thinner and lighter
than LCDs.
AMOLED
AMOLED
or Active Matrix Organic Light Emitting Diodes display panel is a
spin-off of the OLED screens, wherein the all pixels are connected to
tansistors and capacitors, which actively maintain pixel state at all
times. This type of screen is cheaper to manufacture and consumes less
power than standard OLED screens.
Super AMOLED
Super
AMOLED is just Samsung's way of marketing the OLED screens it
manufactures, not a technical term when it comes to display panels.
However, the manufacturing process differs from the method followed in
developing standard AMOLED panels, as the touch-detecting layer is
embedded in the screen itself, rather than being put on top of it.
Samsung claims that Super AMOLED Screens reduce the amount of sunlight reflected by five times. The company develops Super AMOLED, Super AMOLED Plus, and HD Super AMOLED, differing upon the number of sub-pixels.
Samsung claims that Super AMOLED Screens reduce the amount of sunlight reflected by five times. The company develops Super AMOLED, Super AMOLED Plus, and HD Super AMOLED, differing upon the number of sub-pixels.
S-LCD
Super
LCD or S-LCD is a display panel manufactured by a subsidiary of
Samsung, which was partly owned by Sony till recently. S-LCD panels use
technology that brings quality and contrast levels to near-AMLED
standards, but at a lower price.
Essentially, this display technology fares better than AMOLEDs in terms of colour definition but loses out by a whisker when it comes to vividness of images.
Essentially, this display technology fares better than AMOLEDs in terms of colour definition but loses out by a whisker when it comes to vividness of images.
ClearBlack
The
strength of Nokia's ClearBlack display technology is its ability to
block incoming light in order to reduce reflections and make the improve
image quality, especially under sunlight. This display panel boasts of
deeper blacks and better viewing angles than most of its competitors and
is used in Nokia's Lumia phones.
E-Ink
E-Ink
displays had been confined to e-readers like Kindle and Kobo till now,
even though Motorola and Samsung had experimented with them earlier. But
a Russian manufacturer has launched YotaPhone, the world's first
smartphone with an E-Ink display on the back and a LCD panel in front.
E-Ink panels do not display colours and are best known for not hurting the eyes even if you stare at them for long hours. This makes them perfect for reading e-books. They consume very less power and devices with E-Ink panels can operate for days on a single charge.
E-Ink panels do not display colours and are best known for not hurting the eyes even if you stare at them for long hours. This makes them perfect for reading e-books. They consume very less power and devices with E-Ink panels can operate for days on a single charge.
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