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AMOLED vs OLED Display: What’s the Difference and it’s Type?

Difference Between AMOLED And OLED Display

Leading technologies that are changing electronic device visual experience include OLED (Organic Light Emitting Diode) and AMOLED (Active Matrix Organic Light Emitting Diode) displays. While their basic construction and performance are different, they both provide stunning pictures with rich colors, deep blacks, and energy efficiency.

OLED employs a passive matrix to control each pixel individually, AMOLED uses an active matrix for quicker response times and more precise control. The little variations between these technologies should be known by consumers seeking the best possible display quality in smartphones, TVs, and other electronic devices. Let us go into further depth on the difference between AMOLED vs OLED display.

What are OLED Displays?

OLED (Organic Light Emitting Diode) displays are a quantum leap in visual technology, they light up when an electric current passes through them. OLED displays do not need a backlight. hence, every pixel can emit light independently.

Image Source: Corning

Allowing genuine blacks, infinite contrast ratios, and vibrant colors results in incredible visual quality and higher energy efficiency. OLED displays are so flexible that manufacturers may create curved or even folding panels for the newest ideas in technology. OLED displays are being used more and more in wearables,TVs, and smartphones because of their flexibility and superior image quality.

➣ Advantages of OLED Displays

  • Vivid Visuals: OLED technology creates vivid colors and a fully immersive viewing experience and gaming.
  • Flexible Design: OLED panels can be thinned down to enable creative gadget designs, including curved or folding displays.
  • Energy Efficient: OLED pixels use less electricity than conventional LCD displays with backlighting, which extends the battery life in gadgets.
  • Quick Response Time: OLED displays respond more quickly than LCDs, which lowers motion blur and enhances overall performance—perfect for multimedia and gaming.
  • Wide Viewing perspectives: OLED screens improve user experience by keeping colors and brightness levels constant even from various perspectives.

➣ Disadvantages of OLED Displays

  • Susceptibility to Burn-in: Long-term static picture display can result in burn-in, in which ghost images stay visible on the screen. this is especially troublesome for devices with static user interface components.
  • Cost: Generally speaking, producing OLED display costs more than making LCD displays, which drives up the price of the products for customers.
  • Limited Lifespan: OLED display’ organic materials deteriorate with time, resulting in lower brightness and color accuracy and maybe a shorter display lifespan.
  • Blue OLED Degradation: Over time, color balance problems result from blue OLED pixels degrading more quickly than red and green pixels do.
  • Outdoor Visibility: Because OLED display may be less bright than LCDs, they could have trouble being seen in bright outside settings.

What are AMOLED Displays?

At the cutting edge of visual technology, AMOLED (Active Matrix Organic Light Emitting Diode) screens use organic compounds that light up when an electric current flows through them. Because AMOLED panels use an active matrix for individual pixel control, response times are faster, and image quality is better than with conventional LCD screens.

Image Source: Bruno Fuga Advocacia

Because every pixel in an AMOLED display produces its own light, pure blacks, vivid colors, and energy efficiency are all possible. Wider viewing angles and greater contrast ratios are made possible by this technology in thinner and lighter devices. With their unmatched visual experience, AMOLED screens are widely used in high-end televisions, smartwatches, and cell phones.

➣ Advantages of AMOLED Displays

  • Vivid Images: High contrast ratios and vivid colours are delivered by AMOLED technology, which also offers a fully immersive watching experience.
  • Energy Efficiency: Because every pixel in an AMOLED screen emits light of its own, it uses less electricity than conventional LCD displays, which extends battery life of gadgets.
  • Flexible Design: The thin, flexible AMOLED panels allow for creative gadget designs like curved or foldable displays.
  • Fast Response Time: Motion blur is reduced and multimedia and gaming performance is improved by the faster reaction times of AMOLED displays thanks to an active matrix control.
  • Wide Viewing Angles: An excellent viewing experience is guaranteed from any angle since AMOLED screens have constant colors and brightness levels.

➣ Disadvantages of AMOLED Displays

  • Burn-in Risk: Long-term static picture display can cause burn-in, in which ghost images remain on the screen, this is most evident on devices with static user interface components.
  • Price: Devices using AMOLED screens will often cost more to produce than those using LCDs.
  • Blue OLED Degradation: Over time, blue OLED pixels may cause color balance problems since they degrade more quickly than red or green pixels.
  • Restricted Lifespan: As organic materials in AMOLED displays deteriorate over time, the display’s brightness and color accuracy may decrease.
  • Outdoor Visibility: Because AMOLED displays may not be as bright as LCDs, they may find it more difficult to see outside in bright weather.

Difference Between AMOLED and OLED Displays

➣ Technology

  • OLED (Organic Light Emitting Diode): Makes use of organic materials that light up when an electric current flows through them.
  • With an active matrix for each pixel control,
  • AMOLED (Active Matrix Organic Light Emitting Diode): Improves OLED technology and offers faster response times.

➣ Display

  • OLED: Controls pixels using a passive matrix to produce very good color and image reproduction.
  • AMOLED: Has an active matrix that provides more exact pixel control for better performance and crisper images.

➣ Contrast Ratio

  • OLED: Offers breathtaking visual experiences with deep blacks and vivid colors at outstanding contrast ratios.
  • AMOLED: Guarantees vivid and engaging displays by maintaining the outstanding contrast ratios of OLED technology.

➣ Display Size

  • OLED: Large panels in televisions and tiny screens in cell phones are all supported by OLED displays.
  • AMOLED: Equally adaptable in terms of display size, this technology allows producers to design curved and foldable screens, among other form factors.

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➣ Power Consumption

  • OLED: Improves battery life in devices by consuming power only when emitting light.
  • AMOLED: Extended battery lives and higher energy efficiency are the outcomes of active matrix control, which further optimises power consumption.

➣ Durability

  • OLED: Long-term display quality may be compromised if static images are shown for long periods of time.
  • AMOLED: Active matrix control might help to some extent reduce burn-in, which would improve overall durability over OLED displays.

How Many Types of OLED Displays

1. Passive Matrix OLED (PMOLED)

  • Using a simpler technology, rows and columns control individual pixels, which is known as passive matrix OLED (PMOLED).
  • Usually seen in tiny screens found in MP3 players, wearables, and some small-scale industrial uses.
  • Compares to active matrix OLED displays, but with less resolution and color reproduction.

2. Active matrix OLED (AMOLED)

  • This more sophisticated technology uses an active matrix to provide exact control over every pixel.
  • In comparison to PMOLED displays, it offers faster response times, higher resolutions, and better picture quality.
  • It is usually found in high-end wearable devices, tablets, televisions, and cell phones because of its performance and adaptability, and it is good for eyes.

3. Transparent OLED Displays

  • Transparent components in transparent OLED displays let light flow through even when the display is off.
  • Enables futuristic design concepts, heads-up displays (HUDs), and augmented reality (AR) applications where combining digital information with the real environment is sought.
  • Discovering uses in smart home technology, shop displays, and automobile displays.

4. Top-Emitting OLED Displays

  • These displays have electrodes atop the OLED layers to let light shine through the top surface.
  • Superior to bottom-emitting OLEDs in flexibility and endurance, they are perfect for flexible and foldable displays.
  • Used in portable gadgets like tablets and smartphones when flexibility and durability are essential.

5. Foldable OLED Displays

  • Flexible OLED panels in folding or bending displays are available.
  • Producers of smartphones gave consumers the ease of having a bigger screen that can be folded into a smaller form factor.
  • Showcase a development in display technology that makes creative device designs and user experiences feasible.

How Many Types of AMOLED Displays

1. Super AMOLED

  • Samsung created Super AMOLED, which combines touch sensors right into the display to produce thinner panels with better sunlight visibility.
  • Provides rich blacks, vivid colors, and high contrast ratios to improve the whole viewing experience.
  • Sharp visuals and touch interactions that respond are features found in Samsung tablets and smartphones.

2. Super AMOLED Plus

  • The development of Super AMOLED technology lowers power usage while improving brightness and color accuracy.
  • Sharper pictures and better outdoor visibility are the outcomes of the more sophisticated pixel layout.
  • Frequently seen in Samsung flagship products, it provides excellent energy efficiency and display quality.

3. Flexible AMOLED

  • It makes use of a flexible substrate to enable the bending or curving of the display, hence enabling novel gadget designs.
  • It gives wearables, curved TVs, and folding smartphones durability and damage resistance.
  • It enables novel user experiences and form factors, such as foldable smartphones with big, immersive screens that fold for portability.

4. Foldable AMOLED

  • Specially made for folding devices, foldable AMOLED displays include flexible panels that can be bent repeatedly without losing performance.
  • Provide smooth fold-to-unfold transitions so that users may enjoy a flexible and engaging display.
  • Leading the way with their inventive, foldable designs are Samsung and Huawei, which are transforming the smartphone market.


  • At 2560 x 1440 pixels, quad HD AMOLED displays offer clear, detailed images.
  • Give gamers and multimedia consumers great color accuracy, high pixel density, and immersive viewing experiences.
  • Featured in upscale tablets and cellphones, it provides customers with an amazing visual experience.

In summary, the implementation and performance of AMOLED and OLED display vary even if they share basic technology. Faster response times and finer pixel control are features of AMOLED, which expands on OLED technology with an active matrix.

The improved picture and video quality, smooth scroll, energy economy, and adaptability that follow make AMOLED displays appropriate for a broad spectrum of uses, from televisions to cell phones. But because of their affordability and simplicity, OLED screens keep taking the stage in a variety of products. Knowing these differences enables customers to make well-informed choices according to their own requirements and preferences.

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