types of mobile display screens brands

2023-01-03 12:32:11

Over the past 20 years, cell phones have evolved from simple devices made for mobile calling to smartphones that serve as mini computers. As phones got smarter, so did their screens. Take a journey back in time to see how modern phone displays came to be.

For the rest of the 1990s and into the 2000s, black-and-white passive matrix screens were the norm. The rows and columns combined to create text, giving off a blocky appearance.

In 2001, Nokia released the first smartphone to feature a monochromatic display. The Nokia 8250 allowed users to change the background from gray to a bright blue. That same year, the Sony Ericsson T68m and Mitsubishi Trium Eclipse were released, offering 256 colors.

Released in June 2007, the iPhone introduced many firsts. It was the first phone with an operating system, responsive touchscreen, and touch interface that replaced the traditional QWERTY keyboard. The phone screen itself comprised a video graphic array (VGA) display and offered a resolution of 320 x 480 – far exceeding other phones at the time.

In the next few years, phone manufacturers followed iPhone’s example and began making devices with multi-touch interfaces, higher screen resolutions, and larger phone screen sizes. In 2011, Samsung unveiled the Samsung Galaxy S2, which featured a 480 x 800 resolution. Then, in 2013, Motorola’s Moto X was thrust onto the scene with a screen size of 720 x 1280 pixels.

Let’s start with LCDs. TFT LCD displays are considered the most common. They deliver quality images and higher resolutions. IPS LCDs, which are mainly found in higher-end smartphones, offer improved battery life and deliver wider viewing angles. These types of displays are often found in iPhones, but by Apple’s proprietary names, “Retina,” or “Super Retina.” Then, there are capacitive touchscreen LCDs, which rely on the touch of a human finger for input.

OLEDs are considered an up-and-coming display technology – they don’t require any backlighting to display pixels. Fundamentally, each pixel emits it own light, allowing for darker blacks and brighter whites. AMOLEDs combine a TFT display with an OLED display for energy savings, while Super AMOLED displays deliver even brighter screens and more power savings.

When choosing a new Net10 phone, you may feel overwhelmed with all the display options available. First, consider the phone screen size. The bigger the phone screen, the bigger the phone. If you’d like to be able to slip your phone easily inside a pocket or purse, opt for a smaller phone size, such as 4-inch, 4.7-inch, or 5-inch. If you’d prefer a bigger screen size for gaming or watching videos, you’ll benefit from choosing a phone with a 5.5-inch, 6.4-inch, or similar size.

Next, you’ll need to consider the display technology. OLED screens are known for their faster response times, better contrast, and longer battery lives. LCD screens, on the other hand, are better for outdoor viewing, deliver a natural color reproduction, and offer sharper images.

Last up? Resolution. If you’re looking for a phone with higher levels of pixel detail, you’ll want a screen resolution of at least 1920 x 1080, or full HD. If picture quality isn’t on the top of your must-have list, you should be safe choosing a lower screen resolution.

After you’ve chosen the right device for your needs, make sure you receive nationwide coverage on one of America’s largest and most dependable 4G LTE† networks – pick out a Net10 service plan.

† To get 4G LTE speed, you must have a 4G LTE capable device and 4G LTE SIM. Actual availability, coverage and speed may vary. LTE is a trademark of ETSI.

types of mobile display screens brands

In recent years, smartphone displays have developed far more acronyms than ever before with each different one featuring a different kind of technology. AMOLED, LCD, LED, IPS, TFT, PLS, LTPS, LTPO...the list continues to grow.

As if the different available technologies weren"t enough, component and smartphone manufacturers adopt more and more glorified names like "Super Retina XDR" and "Dynamic AMOLED", which end up increasing the potential for confusion among consumers. So let"s take a look at some of these terms used in smartphone specification sheets and decipher them.

There are many display types used in smartphones: LCD, OLED, AMOLED, Super AMOLED, TFT, IPS and a few others that are less frequently found on smartphones nowadays, like TFT-LCD. One of the most frequently found on mid-to-high range phones now is IPS-LCD. But what do these all mean?

LCD means Liquid Crystal Display, and its name refers to the array of liquid crystals illuminated by a backlight, and their ubiquity and relatively low cost make them a popular choice for smartphones and many other devices.

LCDs also tend to perform quite well in direct sunlight, as the entire display is illuminated from behind, but does suffer from potentially less accurate colour representation than displays that don"t require a backlight.

Within smartphones, you have both TFT and IPS displays. TFT stands for Thin Film Transistor, an advanced version of LCD that uses an active matrix (like the AM in AMOLED). Active matrix means that each pixel is attached to a transistor and capacitor individually.

The main advantage of TFT is its relatively low production cost and increased contrast when compared to traditional LCDs. The disadvantage of TFT LCDs is higher energy demands than some other LCDs, less impressive viewing angles and colour reproduction. It"s for these reasons, and falling costs of alternative options, that TFTs are not commonly used in smartphones anymore.Affiliate offer

IPS technology (In-Plane Switching) solves the problem that the first generation of LCD displays experience, which adopts the TN (Twisted Nematic) technique: where colour distortion occurs when you view the display from the side - an effect that continues to crop up on cheaper smartphones and tablets.

The PLS (Plane to Line Switching) standard uses an acronym that is very similar to that of IPS, and is it any wonder that its basic operation is also similar in nature? The technology, developed by Samsung Display, has the same characteristics as IPS displays - good colour reproduction and viewing angles, but a lower contrast level compared to OLED and LCD/VA displays.

According to Samsung Display, PLS panels have a lower production cost, higher brightness rates, and even superior viewing angles when compared to their rival, LG Display"s IPS panels. Ultimately, whether a PLS or IPS panel is used, it boils down to the choice of the component supplier.

This is a very common question after "LED" TVs were launched, with the short answer simply being LCD. The technology used in a LED display is liquid crystal, the difference being LEDs generating the backlight.

One of the highlights from TV makers at the CES 2021 tradeshow, mini-LED technology seemed far removed from mobile devices until Apple announced the 2021 iPad Pro. As the name implies, the technique is based on the miniaturization of the LEDs that form the backlight of the screen — which still uses an LCD panel.

Despite the improvement in terms of contrast (and potentially brightness) over traditional LCD/LED displays, LCD/mini-LEDs still divide the screen into brightness zones — over 2,500 in the case of the iPad and 2021 "QNED" TVs from LG — compared to dozens or hundreds of zones in previous-generation FALD (full-array local dimming) displays, on which the LEDs are behind the LCD panel instead of the edges.

However, for even greater contrast control, done individually at each point on the screen, it is necessary to go to panels equipped with microLED technologies – still cost-prohibitive in 2021 – or OLED, which until recently were manufactured on a large scale only in sizes for smartphones or televisions.Affiliate offer

AMOLED stands for Active Matrix Organic Light-Emitting Diode. While this may sound complicated it actually isn"t. We already encountered the active matrix in TFT LCD technology, and OLED is simply a term for another thin-film display technology.

OLED is an organic material that, as the name implies, emits light when a current is passed through it. As opposed to LCD panels, which are back-lit, OLED displays are "always off" unless the individual pixels are electrified.

This means that OLED displays have much purer blacks and consume less energy when black or darker colours are displayed on-screen. However, lighter-coloured themes on AMOLED screens use considerably more power than an LCD using the same theme. OLED screens are also more expensive to produce than LCDs.

Because the black pixels are "off" in an OLED display, the contrast ratios are also higher compared to LCD screens. AMOLED displays have a very fast refresh rate too, but on the downside are not quite as visible in direct sunlight as backlit LCDs. Screen burn-in and diode degradation (because they are organic) are other factors to consider.Affiliate offer

OLED stands for Organic Light Emitting Diode. An OLED display is comprised of thin sheets of electroluminescent material, the main benefit of which is they produce their own light, and so don"t require a backlight, cutting down on energy requirements. OLED displays are more commonly referred to as AMOLED displays when used on smartphones or TVs.

As we"ve already covered, the AM part of AMOLED stands for Active Matrix, which is different from a Passive Matrix OLED (P-OLED), though these are less common in smartphones.

Super AMOLED is the name given by Samsung to its displays that used to only be found in high-end models but have now trickled down to more modestly specced devices. Like IPS LCDs, Super AMOLED improves upon the basic AMOLED premise by integrating the touch response layer into the display itself, rather than as an extra layer on top.

As a result, Super AMOLED displays handle sunlight better than AMOLED displays and also require less power. As the name implies, Super AMOLED is simply a better version of AMOLED. It"s not all just marketing bluster either: Samsung"s displays are regularly reviewed as some of the best around.

The latest evolution of the technology has been christened "Dynamic AMOLED". Samsung didn"t go into detail about what the term means, but highlighted that panels with such identification include HDR10+ certification that supports a wider range of contrast and colours, as well as blue light reduction for improved visual comfort.

In the same vein, the term "Fluid AMOLED" used by OnePlus on its most advanced devices basically highlights the high refresh rates employed, which results in more fluid animations on the screen.Affiliate offer

The technology debuted with the obscure Royole FlexPai, equipped with an OLED panel supplied by China"s BOE, and was then used in the Huawei Mate X (pictured above) and the Motorola Razr (2019), where both also sport BOE"s panel - and the Galaxy Flip and Fold lines, using the component supplied by Samsung Display.Affiliate offer

Resolution describes the number of individual pixels (or points) displayed on the screen and is usually presented for phones by the number of horizontal pixels — vertical when referring to TVs and monitors. More pixels on the same display allow for more detailed images and clearer text.

To make it easier to compare different models, brands usually adopt the same naming scheme made popular by the TV market with terms like HD, FullHD and UltraHD. But with phones adopting a wide range of different screen proportions, just knowing that is not enough to know the total pixels displayed on the screen.Common phone resolutions

But resolution in itself is not a good measure for image clarity, for that we need to consider the display size, resulting in the pixel density by area measured by DPI/PPI (dots/points per inch).Affiliate offer

Speaking of pixel density, this was one of Apple"s highlights back in 2010 during the launch of the iPhone 4. The company christened the LCD screen (LED, TFT, and IPS) used in the smartphone as "Retina Display", thanks to the high resolution of the panel used (960 by 640 pixels back then) in its 3.5-inch display.

The name coined by Apple"s marketing department is applied to screens which, according to the company, the human eye is unable to discern the individual pixels from a normal viewing distance. In the case of iPhones, the term was applied to displays with a pixel density that is greater than 300 ppi (dots per inch).

Since then, other manufacturers have followed suit, adopting panels with increasingly higher resolutions. While the iPhone 12 mini offers 476 dpi, models like Sony Xperia 1 boast a whopping 643 dpi.

With the iPhone 11 Pro, another term was introduced to the equation: "Super Retina XDR". Still using an OLED panel (that is supplied by Samsung Display or LG Display), the smartphone brings even higher specs in terms of contrast - with a 2,000,000:1 ratio and brightness level of 1,200 nits, which have been specially optimized for displaying content in HDR format.

As a kind of consolation prize for iPhone XR and iPhone 11 buyers, who continued relying on LCD panels, Apple classified the display used in the smartphones with a new term, "Liquid Retina". This was later applied also to the iPad Pro and iPad Air models, with the name defining screens that boast a high range and colour accuracy, at least based on the company"s standards.

Nit, or candela per square meter in the international system (cd/m²), is a unit of measurement of luminance, i.e. the intensity of light emitted. In the case of smartphone screens and monitors in general, such a value defines just how bright the display is - the higher the value, the more intense the light emitted by the screen.

The result is smoother animations on the phone, both during regular use and in games, compared to screens that have a 60 Hz refresh rate which remains the standard rate in the market when it comes to displays.

Originally touted to be a "gimmick" in 2017, with the launch of the Razer Phone, the feature gained more and more momentum in due time, even with a corresponding decrease in battery life. In order to make the most of this feature, manufacturers began to adopt screens with variable refresh rates, which can be adjusted according to the content displayed - which is 24 fps in most movies, 30 or 60 fps in home video recordings, and so forth.

The same unit of measurement is used for the sampling rate. Although similar, the value here represents the number of times per second the screen is able to register touches. The higher the sample rate, the faster the smartphone registers such touches, which results in a faster response time.

To further muddy the alphabet soup that we"ve come across, you will also run into other less common terms that are often highlighted in promotional materials for smartphones.

TFT(Thin Film Transistor) - a type of LCD display that adopts a thin semiconductor layer deposited on the panel, which allows for active control of the colour intensity in each pixel, featuring a similar concept as that of active-matrix (AM) used in AMOLED displays. It is used in TN, IPS/PLS, VA/PVA/MVA panels, etc.

LTPS(Low Temperature PolySilicon) - a variation of the TFT that offers higher resolutions and lower power consumption compared to traditional TFT screens, based on a-Si (amorphous silicon) technology.

IGZO(Indium Gallium Zinc Oxide) - a semiconductor material used in TFT films, which also allows higher resolutions and lower power consumption, and sees action in different types of LCD screens (TN, IPS, VA) and OLED displays

LTPO(Low Temperature Polycrystaline Oxide) - a technology developed by Apple that can be used in both OLED and LCD displays, as it combines LTPS and IGZO techniques. The result? Lower power consumption. It has been used in the Apple Watch 4 and the Galaxy S21 Ultra.

LTPO allows the display to adjust its refresh rate, adapting dynamically to the content shown. Scrolling pages can trigger the fastest mode for a fluid viewing, while displaying a static image allows the phone to use a lower refresh rate, saving the battery.

In 2022, flagship phones started using the so-called LTPO 2.0 tech, whose main advantage is being able to go down to a 1 Hz refresh rate, instead of the 10 Hz available in first-generation LTPO panels. Found in phones like the OnePlus 10 Pro and the Galaxy S22 Ultra, LTPO 2.0 promises even further energy savings.

Among televisions, the long-standing featured technology has always been miniLED - which consists of increasing the number of lighting zones in the backlight while still using an LCD panel. There are whispers going around that smartphones and smartwatches will be looking at incorporating microLED technology in their devices soon, with it being radically different from LCD/LED displays as it sports similar image characteristics to that of OLEDs.

A microLED display has one light-emitting diode for each subpixel of the screen - usually a set of red, green, and blue diodes for each dot. Chances are it will use a kind of inorganic material such as gallium nitride (GaN).

By adopting a self-emitting light technology, microLED displays do not require the use of a backlight, with each pixel being "turned off" individually. The result is impressive: your eyes see the same level of contrast as OLED displays, without suffering from the risk of image retention or burn-in of organic diodes.

On the other hand, the use of multiple diodes for each pixel poses a challenge in terms of component miniaturization. For example, a Full HD resolution has just over two million pixels (1,920 x 1,080 dots), which requires 6 million microscopic LEDs using a traditional RGB (red, green, and blue) structure.

This is one of the reasons that explain the adoption of such technology to date remains rather limited in scope. You will see them mainly in large screens of 75 to 150 inches only, which enable 4K resolution (3,840 x 2,160 resolution, which is close to 8.3 million pixels or 24.8 million RGB subpixels). This is a huge number of pixels to look at!

Another thing to be wary of is the price - at 170 million Korean won (about US$150,330 after conversion), that is certainly a lot of money to cough up for a 110-inch display.

Each technology has its own advantages and disadvantages but in recent years, OLED screens have gained prominence, especially with the adoption of the component in high-end flagship smartphones. It gained an even greater degree of popularity after the launch of the iPhone X, which cemented the position of OLED panels in the premium segment.

As previously stated, OLED/AMOLED screens have the advantage of a varied contrast level, resulting from individual brightness control for the pixels. Another result of this is the more realistic reproduction of black, as well as low power consumption when the screen shows off dark images - which has also helped to popularize dark modes on smartphones.

In addition, the organic diodes that give OLED screens their name can lose their ability to change their properties over time, and this happens when the same image is displayed for a long period of time. This problem is known as "burn-in", tends to manifest itself when higher brightness settings are applied for long periods of time.

While that is a very real possibility, it is not something that affects most users, who often confuse burn-in with a similar problem - image retention, which is temporary and usually resolves itself after a few minutes.

In the case of LCD displays, the main advantage lies in the low manufacturing cost, with dozens of players in the market offering competitive pricing and a high production volume. Some brands have taken advantage of this feature to prioritize certain features - such as a higher refresh rate - instead of adopting an OLED panel, such as the Xiaomi Mi 10T.

types of mobile display screens brands

Smartphone display is the main thing a user sees when buying a new mobile device. This is because the display screen happens to interact with the software and do various things. However, the display screen has evolved and today humans have reached the milestone of making flexible screens. There are quite a lot of display types used in mobile phones.

TFT LCDs are supposedly the most common type of display units found in mobile devices. TFT LCD gives you good image quality and higher resolutions compared to earlier generation LCD displays however, in narrow viewing angles and in direct light or sunlight there’s poor visibility.

IPS LCDs are the next level of TFT LCD displays providing wider viewing angles and lower power consumption which leads to much-improved battery life. IPS-LCDs obviously are costlier than normal TFT LCD and hence located only on higher-end smartphones. A higher resolution (640 x 960 pixels) of IPS LCD is found n Apple iPhone 4 which is called Retina Display because of its brilliant picture quality.

Capacitive touchscreen technology happens to have a layer of glass laced with a transparent conductor (like indium tin oxide). When touched by the human body (finger), an interruption is created in the screens electrostatic field (which is measurable as a change in capacitance) and this, in turn, is detected by the phone’s processor or chip and which in turn will instruct the phone’s operating system to trigger an event or action accordingly.

This happens to be the newest technology in for displays of mobiles and monitors. As far as the OLED tech is concerned you will find an organic material which is placed between two conducting sheets (an anode and a cathode), which are also put between a glass top plate (seal) and a glass-bottom plate (substrate). The time an n electric pulse passes or is applied between the two conducting sheets, electro-luminescent light is produced directly from the organic material sandwiched between.

AMOLED is a different type of OLED displays for mobiles and are fast gaining popularity in the top-end smartphone segment. AMOLED screens can show us many things that we are present on OLED display like brilliant color reproduction, lightweight, good battery life, proper brightness, etc.

Super AMOLED displays take upon the AMOLED displays and is primarily developed by Samsung. Super AMOLED is constructed with touch sensors placed on the display itself, as opposed to creating a separate touch-sensitive layer (as in capacitive touch screen). This makes it the thinnest display technology on the market. Super AMOLED displays are currently only present in Samsung devices but more phones could use the technology in the future.

types of mobile display screens brands

What constitutes a great phone display? Is it the high resolution and pixel density? Well, that, and great screen quality test numbers, that"s why the Sony Xperia 1 IV specs with the 1644p 4K panel top our list. What about the high brightness and contrast that offer good outdoor visibility in the sun outdoors? That"s certainly important, but most of today"s flagships have HDR-certified panels that breach the 1000-nit barrier upwards to fit the standard, and their OLED tech ensures practically infinite contrast ratio, so it"s hard to pick on that merit alone.

Ditto for credible color gamut presentation, as per-unit display calibration is no longer a prerogative of Apple"s iPhones, while said HDR display flagships now cover both the standard RGB, and the wide P3 color gamut. Is it the actual white balance and DeltaE numbers then? It"s getting warmer, but throw in dynamically-adjusted refresh rate based on the content displayed, and you"ve narrowed it down to only a few choices when it comes to the best phone displays that we round up below.

Not only does Sony make the only phones with 4K display resolution, but it also calibrates them to a near perfect level. The flagship Sony Xperia 1 IV carries a 6.5" 4K display with the whopping 643 PPI pixel density, and our display benchmarks returned class-beating brightness, white balance and wide gamut color representation credibility levels, some of the best we"ve measured. Add the high dynamic refresh rate, and the Sony Xperia 1 IV has probably the best panel on a phone so far.

The CIE 1931 xy color gamut chart represents the set (area) of colors that a display can reproduce, with the sRGB colorspace (the highlighted triangle) serving as reference. The chart also provides a visual representation of a display"s color accuracy. The small squares across the boundaries of the triangle are the reference points for the various colors, while the small dots are the actual measurements. Ideally, each dot should be positioned on top of its respective square. The "x: CIE31" and "y: CIE31" values in the table below the chart indicate the position of each measurement on the chart. "Y" shows the luminance (in nits) of each measured color, while "Target Y" is the desired luminance level for that color. Finally, "ΔE 2000" is the Delta E value of the measured color. Delta E values of below 2 are ideal.

The Color accuracy chart gives an idea of how close a display"s measured colors are to their referential values. The first line holds the measured (actual) colors, while the second line holds the reference (target) colors. The closer the actual colors are to the target ones, the better.

The Grayscale accuracy chart shows whether a display has a correct white balance (balance between red, green and blue) across different levels of grey (from dark to bright). The closer the Actual colors are to the Target ones, the better.

Pay attention to that "brightest" part and the 1Hz-120Hz specs at the full 1440p resolution. Yes, that means that the S22 Ultra is equipped with the newest LTPO OLED display technology that allowed for both the record 1750nits of peak brightness, 15% less battery consumption than what"s on the S21/S21+, and the dynamically-allocated refresh rate that can go down to 1Hz when you are looking at static images, or rev up all the way to 120Hz when you scroll.

This brightness is what makes the S22 Ultra display, in particular, stand out, as the granularly adaptive refresh rate has been on Oppo and OnePlus phones before it.

As usual with Oppo, ever since its partnership with Pixelworks, there is a per-unit factory Delta E calibration, color-blindness presets, and camera-to-display wide color management system. The LTPO panel is factory-calibrated and delivers one of the best color credibility Delta measurements we"ve ever taken, with only Google"s Pixels being better here.

Moreover, the Find X5 Pro has the best white balance score, nearest to the 6500K reference point that means the screens colors are spot on in terms of warmth, neither too yellowish, nor cold and blueish. Adding the high typical or peak brightness levels, the company has managed to beat its own best phone displays record.

To take full advantage of its excellent display panel"s abilities, the Find X5 Pro employs a "multi-brightness color calibration," meaning that the screen is as color-credible in all lighting conditions, be it on the beach or in the dark.

Google managed to catch up with factory calibration and its Pixel 6 Pro display now delivers not only one of the most feature-rich panels in the Android universe - 1440p resolution, dynamic 120Hz refresh rate, and high brightness, but it is also in the top three in terms of color representation in our display benchmark database.

Birds of a feather, the OnePlus 10 Pro and Oppo Find X5 Pro, as they sport the same 6.7" 1440p LTPO OLED panel with dynamic refresh rate and individual display calibration at the factory level courtesy of the imaging specialists from Pixelworks. Thus, you get a near-perfect color accuracy, wide gamut coverage, and high average brightness, all for less than $900 barring any running OnePlus 10 Pro deals.

These measurements are made using Portrait Displays" CalMAN calibration software.The high dynamic refresh rate is the best thing that happened to mobile displays since the introduction of the OLED technology, and there is no looking back once you"ve tried it while browsing and scrolling. Here"s the answers on our question how does it all work exactly:

OnePlus: It’s up to the app that you are using. For example, social media apps, browsers, system interface and other local apps like photo/video album support 120Hz, whereas most of the video and gaming apps support 60Hz. For the video playback, the refresh rate will depend on the video frame rate to be either 60Hz or 120Hz.

The display is also basically able to do what MEMC TVs do, automatically increasing frames in video to up the rate, and take better advantage of the high refresh rate even with content that is usually shot with 24fps or 30fps. Detailing the panel"s virtues in a blog post, the OnePlus CEO also mentioned that:

In order to reach industry-leading color accuracy standards, we have added an additional automatic color calibration machine to the production line. By adding an extra 30 seconds to the production time, each display panel is automatically calibrated for color accuracy before it’s released.

Apple"s finest finally found the 120Hz refresh feature (say that 3 times quickly) and if you are already invested in the iOS ecosystem, there is nothing better than the brightest, toughest displays on an iPhone so far, the one on the iPhone 14 Pro Max and iPhone 14 Pro.

Apple advertises it as having a record for a phone peak brightness level of 2000 nits, or more typical brightness of 1600 nits when consuming HDR content and 1000 nits otherwise. This is exactly what we measured and these displays are so advanced that only Samsung can make them at the moment with its 12th-gen OLED technology.

As usual, Apple offers great individual color calibration and the Super Retina XDR panel is HDR certified to show 4K Dolby Vision HDR video recorded by the phone"s own cameras. The only ho-hum part is the just average greyscale representation, so while the iPhone 14 Pro Max may have the brightest phone screen it"s not the most accurate in terms of color credibility.

Say what you will about Google entering the fray here but the Pixels have very well calibrated displays and the new Pixel 6a is no exception. First off, its color credibility is better than the more established calibration champs here (just look at those DeltaE numbers below). It is also sufficiently bright, so if you are looking for a compact 5G Android phone with a great camera and display that won"t break the bank, the Pixel 6a would fit your narrative.

types of mobile display screens brands

The screen, when combined with the touch element, is "the" major element of the user interface and as such we go to great lengths when testing screens during our review process to measure a displays quality by measuring Contrast Ratio, Color Calibration, Brightness and Sunlight Legibility.

LCD (Liquid Crystal Display) displays consist of a matrix of Liquid Crystals. Liquid Crystals do not emit light themselves and are reliant on some form of back-light to illuminate the whole display. As a result LCD displays can be very visible in direct sunlight.

IPS-LCDs provide a superior viewing angle and better color reproduction than non IPS-LCDs due to the layout of the LCD"s themselves. This has become a common display type for mid-range to high-end phones.

OLED & AMOLED utilizes "organic" LEDs which emits light and in the majority of cases does away with the need for the back-light of an LCD display resulting in a potentially thinner panel.

They consume less power as opposed to LCDs which always have the back-light on. When a pixel is "black" on a OLED/AMOLED display the pixel is truly off.

types of mobile display screens brands

There are many different types of Mobile Phone Display used by Cell Phone Manufactures across the World. Over the last few years there has been significant advancement in technology and today we can see big and crystal clear Displays and Touchscreen with excellent Resolution. Today we also have foldable display made of flexible material.

LCD (Liquid Crystal Display) displays are most common and widely used by most Popular Mobile Phone Manufacturers. These are made of Liquid Crystals that do not emit light. They are supported by SMD LED (Light Emitting Diodes) to illuminate the whole display. Again LCD Displays are of following different types:

TFT LCD (Thin Film Transistor): These consume too much power and are no longer used by Popular Mobile Phone Brands. But manufacturers of cheap smartphones and feature phones still use them.

IPS LCD (In-Place Switching). These are better than TFT LCDs and comparatively consume less power that improves battery life. They are also sometimes referred to as Retina Display.

Resistive Touchscreen LCD: These are 2-Layered Display with the Touch not much responsive or accurate. There are generally used in Low Cost Cheaper Smartphones and Feature Phones.

Capacitive Touchscreen LCD: These are also 2-Layered display but are much better than Resistive Touchscreen. The Touch is much responsive and accurate. Most popular brands use these display in their smartphones.

OLED is relatively a New Technology to manufacture Display for Smartphone, Tablet, Computer Screen, Laptop and TV. They do not need and SMD LED (Light Emitting Diodes) to illuminate the whole display. OLED is much better than LCD in terms of color and brightness, better resolution, very responsive, light weight and wider viewing angle. They also consume less power.

AMOLED stands for Active-Matrix Organic Light-Emitting Diode. These displays are advanced version of OLED. These displays also offer all advantages of OLED.

Gorilla Glass is a type of very strong glass shield that are very resistant to damage by accidental fall of the phone. These Glass Shields protect the Display of the Phone from scratches and cracking / breaking. Gorilla Glass comes in different Class with Class 6 been the latest and toughest as on 2019.

Resolution is the number of pixels or dots that can be displayed horizontally and vertically by a screen. The more the resolution, the better will be the Picture and Video Quality of that Screen or Display.

I hope now you know all about different Types of Mobile Phone Display. If you liked this post then please share on your social profile so that others can also learn.

types of mobile display screens brands

The technology used in the modern day smartphones have progressed significantly thanks to the rising competition. Apart from the basic features such as the camera quality, onboard storage, and sound quality, your mobile phone display is another area that needs maximum attention. For those new in the smartphone world, there are several different types of screen displays available across a vast range of smartphones. To ensure that you get to know more about them (including what their abbreviations mean), this article will round up 10 different types of smartphone displays available in the market.

TFT LCD simply means Thin Film Transistor Liquid Crystal Display. A technology that has gained recognition in the Smartphone market, the TFT LCD is used in most budget Smartphones due to its affordability during Smartphone manufacture. Although this technology offers a higher resolution as compared to the earlier LCD display, users are expected to experience poor visibility in direct sunlight or areas with excessive light.

Another severe case with these displays is that they consume a lot of energy leading to poor battery life especially in Smartphones with large displays.

Another type of Smartphone display we’re going to discuss is the IPS-LCD. An abbreviation for In-Place Switching, the IPS mobile phone display is superior to the TFT thanks to some notable improvements such as wide viewing angles and low power consumption. Due to its high cost of production, this display is common in most top of the range Smartphones such as Apple’s iPhone 4. Smartphones using this display deliver brilliant quality pictures with an improved battery life.

Ever heard of the resistive touchscreen display? Well, sit back and listen. The resistive touchscreen is one brilliant display that’s designed with a double layer of conductive materials with a small space left in between. When the screen is touched, the two layers merge leading to a complete circuit. This action sends a command to the phone’s OS triggering an action at the point of touch.

Comparing the resistive touchscreen to the capacitive touchscreen display, it’s evident that the former is less responsive and is found in most budget touch phones.

Quite different from the resistive touchscreen, capacitive screens are coated with a layer of transparent conductor (most commonly the Indium Tin Oxide). When the touchscreen is touched by the human finger, the electrostatic field screen sends a command to the phone’s OS which in return responds to the command.

Capacitive touchscreen displays are more responsive providing a better user experience as compared to resistive screens. Due to this reason, this touchscreen technology is used by most high-end Smartphones thanks to its simplicity and responsiveness.

Ever heard of the OLED screen display? Well, this is a newer Smartphone display that has elevated the touchscreen technology to a new level. With initials that stand for Organic Light Emitting Diode, the OLED consist of a carbon-based organic material that is sandwiched between two layers of sheets namely the anode and cathode. These two layers are then sandwiched between two glass plates at the top and bottom (seal and substrate).

When the screen of an OLED Smartphone is touched, the two conducting sheets send the respective commands to the OS at a faster pace leading to a blazing fast response time. This Smartphone technology produces exceptional bright colors and wide viewing angles making it the best for high-end Smartphone devices.

Another type of Smartphone display that has gained popularity among most mobile phone manufactures is the AMOLED. A name that simply stands for Active Matrix Organic Light Emitting Diode, these screen displays have the properties of OLED screens only that they’re more upgraded to improve quality and response time. AMOLED screens display images with brilliant colors and a high level of brightness and sharpness. Designed to offer lots of other brilliant quality feature, the AMOLED Smartphone display has rapidly gained popularity in the Smartphone world making it the preferred screen display for most top of the range Smartphones.

This advanced technology was developed by Samsung to feature in some of their top of the range Smartphones. An advanced version of the AMOLED display, the Super AMOLED mobile phone display consists of a touch response layer placed on the top display itself to improve response time and image quality. Since the display is super thin, this Smartphone technology consumes less battery power making it the perfect option for most expensive Smartphones such as the Galaxy SIII.

Another type of Smartphone display we can’t forget to mention is the Heptic/Tactile touchscreen. This technology is designed to offer a higher level of accuracy when a touchscreen is touched. Due to its accuracy, Heptic/Tactile touchscreen is used by top of the range Smartphones such as Blackberry and Nokia for business purposes.

Retina is another technical term used by Apple to refer to their high-resolution IPS-LCD backlit LED screen displays commonly used by the iPhone 4. The reason why this technology is named Retina is because the pixels cannot be identified by the naked eye thus making the image quality super sharp.

Ever heard of Gorilla Glass? Well, this is a special glass shield made from alkali-aluminosilicate that offers extraordinary damage resistance to your Smartphone display. As you all know, your Smartphone is always at a high risk of getting scratches and cracks caused by drops and bumps. With such a protective glass shield at the disposal, common screen damages will largely be reduced making your mobile phone display more durable and reliable. Though introduced by Apple, this technology has now been adopted by most Smartphone manufacturers such as Motorola, Nokia, and Samsung.

Now that we’ve discussed about 10 of the best smartphone displays used by mobile phones today, the ball is now on your hands when it comes to selecting your favorite display. Before we move on, we would like to mention that the Gorilla Glass is not a display but rather it’s a protective glass that shields your phone’s display from possible damage.

Whether you select the AMOLED, the OLED, the IPS or the TFT display, it’s always wise to understand your main intention. For instance, are you an indoor or an outdoor type of person? Are you a photo or a gaming enthusiast? With such questions in mind, I believe you’ll be able to make an informed decision on what will work best for you.

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When you"re comparing different mobile devices, whether they"re phones, tablets, e-readers, or laptops, one of the differentiating features can be the display technology. But do you know the difference between OLED and AMOLED? What about LCD and e-ink? This guide will get you up to speed.

Liquid crystal is a fascinating substance that has molecular properties of both liquids and solids -- the application of an electrical current affects those properties, allowing more or less light to pass through a particular pixel, creating a gray scale.

In a full-color display, each pixel has three sub-pixels: one with a red filter, one with green, and one with blue. To create colors, different levels of light are passed through each sub-pixel. If you look really closely at an LCD screen, you can often pick out the sub-pixels, as in this image:

Apple"s Retina technology is a specific type of LCD called an in-place switching (IPS) LCD. This technology offers wider viewing angles and lower power consumption. The Retina label is applied when the pixel density is higher than can be distinguished by the human eye.

Obviously, to create light behind the color filters of an LCD screen, a backlight is needed. This is usually created using small fluorescent tubes and a reflector that scatters the light evenly through the pixels on the screen. Because of the large backlights in LCDs, blacks tend to be relatively bright, making for less contrast. LCDs also use more power than LED-based screens, are more affected by viewing angle, and occasionally suffer from dead pixels (though dead pixels can be fixed).

However, LCD production cost is still notably lower than many other options, meaning it"s easier to get a high-quality screen without breaking the bank. And even though it"s been around for a long time, you can still get really great screens, like those included in the iPhone 5, iPad Air, and Nexus 5.

LEDs are tiny devices that emit light of a single color, determined by the material used to create the diode. In traditional LEDs, metals like aluminum gallium arsenide (red), aluminum gallium indium phosphide (green), and zinc selenide (blue) are used.

There are a number of advantages to LEDs: they use less power than LCDs, they"re smaller and lighter, and each pixel is individually lit, making for much deeper blacks than a back-lit LCD.

Traditional LEDs, however, are too large to be used to create small displays; they may be used on the mega-screens you see in stadiums and in digital advertising, but you won"t see them in your cell phone display.

OLEDS, unlike LEDs, use carbon-based substances to create light instead of base metals. The molecular difference isn"t what"s important here, though -- the advantage of OLEDs over LEDs is that they"re significantly smaller, meaning they can be used to create mobile displays at high resolutions. They"re so small, in fact, that they can actually be applied to materials by an inkjet printer or screen printing.

Because each pixel is individually lit, and there"s no large backlight, OLEDs offer significantly better blacks than LCD screens, and they"re also superior in terms of power consumption. Their very small size make them lighter, as well.

However, OLEDs are generally quite expensive in comparison to LCDs, and blue diodes tend to degrade faster than other colors, leaving OLED screens with color-balance issues after many hours of use.

While OLEDs are more power-efficient than LCD screens, manufacturers of mobile devices are always looking for ways to increase the battery life of their devices, and adding an active matrix to OLED technology is one of the ways they can do this.

An active matrix is a thin-film transistor that"s integrated with the OLED matrix. This might sound complicated and technical, but the takeaway is simple: the circuitry for lighting the LEDs is more closely integrated with the LEDs themselves, reducing the amount of power that"s needed to operate the display. This leads to better battery life in your device. They also have faster refresh rates (what is a refresh rate?), making them good for watching video.

Many Samsung products, including the Galaxy S5, sport Super AMOLED screens, which integrate the touchscreen technology into the AMOLED display, allowing for an even thinner and lighter screen.

If you"ve ever used a Kindle, Nook, or Kobo, you"ve seen e-ink. The distinctive grayscale look stands out in a market saturated with bright display technologies.

E-ink works by applying an electric charge to hundreds of thousands of tiny cells on a page—the charge causes tiny pigmented chips to rise to the surface or fall away from it, and by applying the correct charges throughout the page, patterns can be created, forming text on the page.

There a number of significant advantages to e-ink displays: they"re very easy on the eyes, as they lack a harsh backlight; they"re easily readable in direct sunlight, just like paper; and they"re very energy efficient, as they only draw power when the display is being updated (this is why your Kindle lasts so long on a single charge).

While e-readers are the primary beneficiaries of e-ink technology, a couple phones have used it, like the Motorola F3 and the Samsung Alias 2. You"ll also see them on small devices like keyfobs that display access codes, and even on a Lexar USB stick.

Display technology is advancing, and we"re likely to benefit from new tech in the near future. I mentioned the fact that OLEDs can be used to create flexible displays, and this has been on display at the E3 convention in recent years. Don"t be surprised if your next cell phone has a semi-flexible screen.

Another interesting application of OLEDs is the transparent OLED (TOLED) technology that powers the Samsung Smart Window (below) and this transparent laptop from 2010.

Quantum-dot LEDs are an interesting technology that looks to have a lot of potential, as well—they"re pitched by NanoSys as a way for LCD manufacturers to compete with OLEDs. A quantum dot is a "light-emitting semiconductor nanocrystal" that is very bright, long-lasting, and allows for a huge range of colors.

And, of course, we"ll all be looking forward to full-color e-ink. Kyobo"s Mirasol e-reader had the technology, but was discontinued shortly after launch due to stiff competition and low demand. The Hanvon C18 is one of the current models, though it"s hard to get hold of outside of China.

While it"s difficult to predict what we"ll see next, it"s safe to say that stronger, lighter, brighter, and more flexible displays are on the way. What kind of display are you using at the moment? Are you looking to switch to another type? What are you most excited to see coming up? Share your thoughts below!

types of mobile display screens brands

Market forces made us endure screens interrupted with various sorts of notches and cutouts for a considerable time, but that’s all about to end soon. In the last few years, we have seen the Android community evolve from hating notches to being indifferent towards them. But living with the new wave of bezel-less, full-view display phones has convinced us that the world is better off without notches and it’s imperative that natural order be restored to our phone screens. (हिंदी में पढ़िए)

For now, most of the true full-view and notch-less display phones use Pop-up cameras or sliders, but a few tech giants including Samsung, Oppo, and Xiaomi have already demonstrated prototypes or released phones that place the front camera behind the screen.

Samsung Galaxy Z Fold 3 5G is the world’s first commercially available phone with an under-display camera (UDC). The main screen of this foldable phone is a 7.6-inch Dynamic AMOLED 2X panel with a 22.5:18 aspect ratio, QXGA+ (2208 x 1768) resolution, 120Hz refresh rate, and 374ppi. Thanks to that UDC, you get a 88.57 % screen to body ratio.

In our review of the device, we found the UDC to be discreet most of the time and is only evident in certain colored backgrounds and when you view it from an off-axis. However, it id definitely an engineering marvel and cool from a visual standpoint.

Xiaomi’s Mi Mix 4 is yet another under-screen camera phone. It calls its implementation CUP (Camera Under Panel), but the mechanism is pretty much the same as the other under-display selfie cameras out there. Above its 20MP selfie camera lies 400ppi pixels of the screen. This display stretches 6.67-inches and sports 120Hz refresh rate.

Asus Zenfone 8 Flip has a 6.67-inch (2400 × 1080 pixels) Full HD+ E4 AMOLED HDR10+ display with 90Hz refresh rate, 200Hz touch sampling rate, 110% DCI-P3 color coverage, up to 1000 nits brightness, and Corning Gorilla Glass 6 protection. This full screen fascia is possible thanks to a flip camera module.

The front camera is present within a pop-up camera that raises from the right-hand edge of the phone. The logic is to allow players to stream their gameplay while playing in the horizontal orientation.

OnePlus was one of the first few Android OEMs to usher in a notch, and it’s also one of the first in the premium segment to get rid with OnePlus 7 Pro (review). It further continued the trend with OnePlus 7T Pro which comes with a gorgeous true full-view display with extremely narrow bezels.

The 90Hz refresh rate makes it super smooth, the resolution goes all the way up to 2K, and, there are those slick curves at the edges. The phone is powered by Snapdragon 855 octa-core chipset paired with high-quality UFS 3.1 storage and LPDDR4X RAM. On the downside, the 7 Pro is big and bulky, is missing the audio jack, and has a mediocre set of cameras.

What truly makes Oppo Reno 10X Zoom special is periscope-style 5X optical Zoom, that it offers at a significantly lower price than Huawei P30 Pro. The Reno 10X zoom (review) also has a unique take on pop-up camera that it calls shark fin design.

The elevating module opens like a fin and also makes room for the earpiece and LED flash. Anyway, the result is an immersive full-view AMOLED display that extends edge to edge. The Reno 10X Zoom has flagship-grade specs, including the Snapdragon 855, but all the tech housed within makes it a tad thick and heavy.

The 6Z (globally known as the Zenfone 6) is one of the most impressive phones we have seen from Asus in India. The 6Z (review) has a gorgeous and well-calibrated IPS LCD display that covers the entire facia. The selfie camera is housed in a flip module and this glass body phone houses a massive 5000mAh battery while being reasonably manageable.

The 6.4-inch screen has Full HD resolution which is quite sharp considering this is an IPS LCD and not AMOLED screen. This competitively priced Snapdragon 855-powered phone also has stereo speakers, 48MP primary camera, and runs an extremely close-to-stock version of Zen UI.

Xiaomi’s Redmi K20 Pro (review) brandishes an impressive set of specs that you’d otherwise find on phones priced significantly higher. With the K20 Pro, Xiaomi pays due attention to design and the phone gets a full-view AMOLED display (6.4-inch, full HD+) with an in-display fingerprint sensor lying underneath.

Oppo Reno, which is a trimmed-down version of the Oppo Reno 10X Zoom, has the same design with shark-fin pop-up and is also slimmer and significantly lighter. The handset has a 6.4-inch AMOLED display (Full HD) with around 87% screen-to-body ratio that targets DCI-P3 color gamut and is shielded by Gorilla Glass variant.

The phone is powered by Snapdragon 730G with 6GB RAM, 128GB storage, and a 5000mAh battery. There is support for 15W fast charging. There is Vanilla Stock Android software too in the mix.

The Realme X (review) is a very competent phone that includes trendy features like a full-view AMOLED screen with minimal bezels on three sides, in-display fingerprint sensor, and pop-up camera – all for a sub Rs. 20,000 price.

Redmi K20 passes on most of what’s good with the Redmi K20 Pro at a lower price point. The handset has the same design as the Pro variant and the same immersive full-view AMOLED display.

The Redmi K20 is however driven by Snapdragon 730 and replaces the Sony 48MP sensor with a Samsung sensor of the same resolution. Other features include in-display fingerprint reader, Pop-up camera, and 4000mAh battery with fast charging.

The Vivo 15 Pro has been around for a while, but it’s still a relevant option, especially at the new price. Both the V15 Pro and V15 employ a pop-up front camera and have a full-view display. The Pro variant, however, benefits from a better AMOLED screen and is powered by Snapdragon 675.

Huawei Y9 Prime is the first Huawei phone in India to deliver a full-view screen. The IPS LCD display on the phone measures 6.59-inch and is full HD sharp.

The handset is powered by Kirin 710 octa-core chipset paired with 4GB RAM and 128GB storage. Other features include triple rear cameras, 4000mAh battery, and Android Pie based EMUI 10 software.

Samsung has developed one of the best full-view display devices globally. One such example of the same is the Samsung Galaxy Note 20 Ultra. The smartphone has a 6.9-inch dynamic AMOLED display complemented with a 120HZ refresh rate. The device has 12GB RAM and 256GB internal storage that can be expanded up to 1TB via a microSD card. It is powered by Samsung’s own Exynos 9 series processor.

On the camera front, the smartphone has a triple rear camera setup consisting of a 108MP primary shooter and two 12MP shooters. On the front, it gets a 10MP sensor for the sake of selfies and video calls. The device packs a 4500mAh battery along with fast charging as well as wireless charging support.

iQOO took the whole market by storm with the launch of the iQOO 9 Pro 5G. The smartphone stands as a strong competitor of devices like the OnePlus 9 Pro in the market. It comes with a 6.78-inch AMOLED display that also has a 120Hz refresh rate to offer a smoother experience. The smartphone runs on the Qualcomm Snapdragon 8 Gen 1 processor paired with 12GB RAM and 256GB internal storage in the high-end variant of the device.

For photography, the iQOO 9 Pro sports a triple rear camera setup including a 50MP primary shooter, 50MP ultra wide-angle shooter, and a 16MP tertiary shooter. The 16MP front sensor of the device makes sure that you get the best results while clicking selfies. The handset has a 4700mAh battery that also supports 120W fast charging. The charging tech of the device claims to fully fuel it up in less than 20 minutes.

The Xiaomi 12 Pro could be hailed as one of the best devices launched by the company so far. The smartphone has a 6.73-inch AMOLED display with a 120Hz refresh rate The smartphone works on the Qualcomm Snapdragon 8 Gen 1 processor for high-speed performance, It also has 8GB RAM and 256GB internal storage to store all your data.

When it comes to the camera, the handset rocks a triple rear camera setup including a 50MP primary shooter, 50MP secondary shooter, and a 50MP tertiary shooter. No doubt the camera performance of the smartphone is better than most of its competitors. The smartphone draws power from a 4600mAh battery and also supports Hyper Charging 4.0.

The flagship devices by Vivo have always amazed the users in terms of camera prowess, performance, and display capabilities. Vivo X70 Pro follows the same trend with its 6.56-inch AMOLED display coupled with a 120Hz refresh rate. Though we will say that the smartphone lags behind in terms of the processor as it has a MediaTek Dimensity 1200 processor. Apart from that, it has 8GB RAM and 128GB internal storage that cannot be expanded.

The smartphone rocks a quad rear camera setup consisting of a 50MP primary sensor, two 12MP sensors, and an 8MP sensor for delivering the best shots in both daylight and low light. On the front, the device has a 32MP front camera for clicking selfies and attending video calls. The handset is powered by a 4450mAh battery that comes with flash charging support.

The OnePlus 10 series failed to make an impact like the OnePlus 9 series due to the changes and experiments. Still, the OnePlus 10 Pro was something which the audience loved because of the specs. The device works on the Qualcomm Snapdragon 8 Gen 1 processor with 12GB RAM and 256GB internal storage. The smartphone comes equipped with a Fluid AMOLED display and 120Hz refresh rate.

Furthermore, it flaunts a triple rear camera setup including a 48MP primary snapper, 50MP ultra wide-angle snapper, and an 8MP tertiary snapper. The smartphone has a 32MP camera at the front and it offers decent selfie shots along with allowing the user to attend video calls in HD. The d

types of mobile display screens brands

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