Actions

Active Matrix Organic Light-Emitting Diodes (AMOLED)

What are Active Matrix Organic Light-Emitting Diodes (AMOLED)?

AMOLED (active-matrix organic light-emitting diode) is a display technology used in smartwatches, mobile devices, laptops, and televisions. OLED describes a specific type of thin-film-display technology in which organic compounds form the electroluminescent material, and active matrix refers to the technology behind the addressing of pixels.[1]

Active matrix organic light-emitting diodes (AMOLEDs) consist of pixels of electroluminescent organic compounds “printed” in a matrix onto a base layer. This base layer is currently glass and will be further developed to use flexible polymers in the future. Unlike liquid crystal displays, OLED displays do not require a backlight and consume very little power, making them suitable for battery-powered devices. AMOLEDs use a thin film transistor (TFT) to control the pixels.[2]


Comparison of Screen technologies[3]

There are a number of contenders for screen technology within the television, computer monitor, and other related areas. Although cathode ray tubes are now well out of the picture, developers of equipment have a choice of technologies of which AMOLED is one. (See figure below)


Absorption Costing
source: Radio Electronics


Advantages and Disadvantages of AMOLED[4]

Advantages

  • One advantage of AMOLED display is its thinness. A typical AMOLED display has an organic plastic layer that is about 100 to 500 nanometres thick. This is about 200 times thinner than the strand of human hair, thus making it thinner, lighter, and more flexible than the crystalline layers of LED or LCD displays. This thinness also produces brighter luminescence compared to LED.
  • Energy efficiency is another advantage of AMOLED display. It is more energy efficient than LED and LCD, as well as fluorescent lamps for numerous reasons. Because they emit light without generating too much heat, energy loss due to heat transfer is lesser.
  • An AMOLED display also does not require backlighting unlike LCD because each pixel of organic material generates light itself. Within the same display, power consumption is uneven, focusing mostly on active pixels as represented by the on-screen image. Blacks do not consume power because the underlying pixels are actually turned off.
  • Thus, an AMOLED screen display consumes less power, making it more appropriate for use in portable consumer electronic devices in which battery life is of critical importance. Furthermore, because of this energy efficiency, eco-friendliness is another advantage of AMOLED over its counterparts.
  • The images produced by an AMOLED display are remarkable and incomparable due to its deep blacks and high contrast. This advantage is noticeable when compared to other LOCD display technologies such as in-plane switching display or IPS or twisted nematic or TN display technologies.
  • Because each pixel of organic material emits light, the entire display has a greater artificial contrast ratio measurable in pure dark conditions and has a better viewing angle compared to an LCD. The display is also more responsive due to a higher refresh rate than LCD making moving images more fluid and less straining to the eyes.

Disadvantages

  • Tenured users of the Samsung Galaxy S and Galaxy Note line of smartphones could attest to the fact that the quality of their screen display had degraded over time. This is one of the major disadvantages of AMOLED display. Organic materials have a limited lifespan, far shorter than the lifespan of LED or LCD.
  • In addition, the lifespans of each color-specific organic material vary. Red and green OLED films have longer lifespans compared to blue OLED films. This variation results in color shifts as a particular pixel fades faster than the other pixels.
  • Because of the overall shorter lifespan and variations in the lifespan of color-specific organic materials, AMOLED displays are very prone to screen burn-in, which leaves a permanent imprint of overused colors represented by overused images.
  • Organic compounds are also highly susceptible to water damage unlike light diodes or inorganic crystalline. Submerging an AMOLED display in water would result in the immediate loss of some colors represented by burn-in or dead pixels. This susceptibility makes sealing processes an important consideration in fabrication and manufacturing.
  • Compared with an LCD, an AMOLED display is difficult to view in direct sunlight due to reduced maximum brightness and lack of backlighting. There have been several workarounds to this problem including reducing the size of gaps between the layers of the screen to reduce reflectivity.
  • Another disadvantage of AMOLED display is cost. Manufacturing this display technology can be costly due to the complexity in fabricating substrates. The individual parts of the same display can also be costly and assembling them together remains much more expensive than LCD manufacturing.


See Also

Mobile Device


References


Further Reading