Which is The Best of N-TFT LCD, IPS or AMOLED to Play Sbobet Games in Smartphone

The present era of this artificial smartphone is very little different, with so many variations of specifications for the unique of all users.

Surely you have heard of TN-TFT, IPS, and OLED in screen groups.

Your friend might have heard “Super AMOLED is better compared because of…., but is that so? What is the difference between each type and can it be better?

Well, you can better understand when buying a smartphone to be able to use the use of each screen better, as follows a very easy brief explanation of TN-TFT, IPS, and OLED which are not uncommon.


LCD or Liquid Crystal Display is a screen panel that uses liquid crystals as the main display material. Therefore, the TN-TFT screen requires a backlight or backlight projected onto the liquid crystal layer to be able to display color until it becomes an image.

TN-TFT LCD itself used Thin Film Transistor technology and became popular in the television and monitor markets thanks to higher prices and compatible with previous comparable screen designs. So it is not surprising not a few in the era of the emergence of smartphones that used the most TFT-TN until now.

There are advantages of TN-TFT compared to other types of screens, namely a higher level of freedom, the sharpness of color, easy to witness in the sun, and more extended durability compared to OLED screens. Even so, TFT-TN is not without weaknesses that require technology must compete with OLED.

Some of the disadvantages of TN-TFT include high power consumption, contrast that is not good enough to not be able to display black, approved colors when viewed from a wide-angle, and low response times that can be done ghosting or shading to the point not suitable for use as VR equipment. As Virtual Reality technology rapidly growing, its not just developed for regular company, agen sbobet terpercaya who provide online sportsbook also start to develop casino games in VR mode.

Also, the TN-TFT is in contrast to PLS-TFT, which is now being used on the latest Samsung smartphones. The PLS-TFT uses Samsung’s exclusive Plane Line Switching technology to compete with IPS technology so that in terms of image quality, it is far better compared to TFT-TN and equals IPS.


IPS or In-Plane Switching is still classified as an LCD type; only the technology used is the opposite of TFT-TN. IPS LCD technology allows liquid crystals to be arranged to increase viewing angles and change the colors compared to TFT-TN.

IPS is very suitable for tablet equipment, and it is not better for smartphones to switch to using this one panel higher for the upper-middle level. IPS provides the best equilibrium of existing smartphone panel technology.

More efficient use of power, a viewing angle of up to 178 degrees, until accurate color reproduction, is the main charm of IPS besides the advantages of TN-TFT which is already included. However, IPS also still has a weakness similar to TFT-TN, which is relatively low response time.

IPS is not often the primary choice for users who are most concerned with color resolution, editing, or editing because the colors shown are always consistent.


OLED or Organic Light-Emitting Diode is a display technology that can produce light and compared LCD that requires a backlight. The use of OLED technology allows the screen to be thin, wide, and wide so that it can be applied in many types of devices.

OLED itself in the smartphone market in Samsung through their Galaxy S line that always uses Super AMOLED in its screen technology. Super AMOLED itself uses Active Matrix technology from TFT LCD into OLED so that it can process each pixel more effectively for each user directly.

The advantages of OLED itself are its ability to change black. This also allows OLED to be more battery-efficient by not requiring light in black. In theory, OLED has an unlimited ratio and a wider range of color gamut.

With all the advantages that exist and the growing prevalence of smartphones using this technology, OLED is not without flaws. Indeed OLEDs are more economical for darker compilation batteries, but on the contrary, OLED will be far more wasteful when it is decided to convert 100% or white.

Besides that, OLED still has a little color evolution when witnessed from other angles. However, there is one weakness of OLED, which until now has created this one technology must be a prime consideration of all consumers, namely the issue of durability, especially burn-in.

The problem of burn-in on OLED occurs when the occurrence of permanent color evolution, the impact of images displayed is not often the same or static, which is not uncommon in navigation locations on smartphones. The duration of burn-in is quite varied, can be in years, monthly, and even daily.


So which screen is better and the champion? Nothing, because every technology has its weaknesses and advantages that can be adapted to the needs of its users. TFT-quality in terms of quality is currently under but has a much more affordable price.

On the different side, IPS are in the middle by providing equilibrium between TN-TFT and OLED. It’s just that IPS cannot offer real black color as it should be like OLED, but it is still better compared to many TFT segments.

For OLEDs that are starting to be used, not a few smartphones, the upper learning space can provide more attractive colors, show pure black, and be more economical if you often use dark colors. Unfortunately, there is a burn-in problem which, according to my statement, is the most fatal.

Of the three technologies, I currently prefer IPS because I have no problem in burn-in and have more consistent color reproduction accuracy while OLED according to my information is more suitable for television compared to smartphones and monitors because images will often move.

Even so, the presence of OLED is not ignored because it has a relatively rapid development in recent years. Plus OLED allows a really thin screen panel with a thickness of just 1 mm. Not blocking, it is possible that OLED will completely replace the different screen technology as a whole.

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The 5 Main Advantages of IPS Technology

We have already had the opportunity to introduce IPS (In-Plane Switching) technology, talking about the screens of smartphones, televisions, and monitors. The time has come to investigate the topic, to understand what the advantages of using this LCD technology are.

IPS panels have existed for a long time; but they were used, so far, in the professional field (and in particular photographic), for their ability to reproduce colors as faithfully as possible, as well as brilliance and contrast.

Now, LG has included this technology in most of its products (in addition to the aforementioned monitors and smartphones, also for digital signage ) to offer the best image quality. How?


Here are the five main advantages of using IPS.

1. More real colors

More brilliance and contrast (combined with uniform color temperatures) allow you not to lose any image detail. So much that it will seem real: the colors are so similar to the real ones that you will have the feeling of experiencing the film or the program in the first person.

2. Color calibration

LG Display, a company that is part of the LG Electronics group, is the division that deals with the production of screens for all LG products. And that has developed color calibration tests to ensure a more accurate rendering.

3. Greater viewing angle: up to 178º

IPS technology allows you to see the best image from any angle, up to 178 degrees (horizontally but also vertically). Whether you are standing, sitting or lying down, you will not perceive any change in color or loss of parts of the image. This makes the difference, especially when you find yourself in front of the canvas (and friends will queue up to watch the game or the X-Factor final from you).

4. Prevents eye strain

IPS technology allows you to reproduce an image with more details: this helps to avoid eye fatigue. Even the continuous and very rapid refresh of the images allows a more comfortable vision, even of action films and sports shows.

5. Savings

IPS is an ECO-Friendly technology: the light is emitted through high-efficiency LEDs, which allow to considerably reduce energy consumption.

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What Do IPS Mean?

IPS is an English acronym meaning In-Plane Switching, literally ” variation in the plan “.

It refers to the technology with which some of the best PC monitors currently available are built.

In fact, compared to a TN panel, an IPS panel has liquid crystals arranged horizontally with respect to the panel surface. The basic operation is the same as in other LCD screens: what changes is the way the crystals react to the current.

In fact, subject to the action of an electric field, the liquid crystals rotate on themselves, but always remaining parallel to the panel.

Presented with the real novelty of LCD screens after the introduction of TN panels, IPS technology managed to overcome their problems.

In fact, IPS monitors have undeniable advantages:

  • greater brilliance and color definition;
  • much wider viewing angles.

These two features, combined with greater black density and color rendering, make IPS panels perfect for professional graphic applications.

Not only that, but IPS are also the displays of many TVs and the screens of most smartphones on the market today.

However, the parallel arrangement of the liquid crystals impairs the reactivity in the rotation of the crystals on themselves. Here are the main defects of IPS monitors:

  • Response times on average higher than a TN monitor
  • low refresh rates, in fact often fixed at 60 Hz
  • higher cost with the same specifications.

In recent years, IPS technology has evolved and it is not difficult to find IPS monitors with high refresh rates and low response times. But the cost goes up accordingly.

In recent years, IPS technology has evolved and it is not difficult to find IPS monitors with high refresh rates and low response times. But the cost goes up accordingly.

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Android from A to Z: What is an IPS Screen?

IPS stands for In-Plane Switching.

It is a technology used in the realization of LCD displays that solves some limitations of the previous TN (Twisted Nematic) technology, in particular with regards to viewing angles and fidelity in color reproduction.

In the IPS screens, the liquid crystal molecules move parallel to the panel and not perpendicularly, and this allows viewing angles close to the flat angle, with a consistent and accurate color rendering. To have a demonstration of the goodness of IPS technology, you can refer to a comparison made by Japan Display with TN technology.

Initially, IPS panels were very expensive and intended only for high-end monitors, but over time they have become widespread in the consumer market. In the mobile environment, and in general in touch-based devices, IPS panels were immediately highly appreciated also because they do not lighten or otherwise change the image rendering when touched.

Among the defects of the IPS technology, apart from the price, there were, in particular, the greater response times and the higher energy expenditure than the TN, both problems largely overcome, even if in the gaming field there are still those who prefer the latter, in the light of the fastest response.

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What is IPS?

IPS, also known as In-Plane Switching, is a type of screen and vision technology.

Specifically, an IPS panel is a type of TFT LCD (or “active matrix” LCD). LCD, or liquid crystal display, indicates the use of light-modulating properties from unlit liquid crystals to produce flat panels or electronic screens. TFT, which means Thin Film Transistor, is a variant of the LCD monitor created and marketed for its properties of color enhancement, contrast, and black levels. The two most common types of LCD TFTs are the IPS and TN screens.

The TFT LCD screen (IPS monitor with active matrix) was developed by Hitachi in 1996 as a solution to the limits of the late 80s LCD TFT (Twisted Nematic) LCDs, not standard IPS LCDs. The TN screen is known for its viewing angle limitations, such as inversion of colors at extreme angles and low color quality. In contrast, IPS monitors provide wider viewing angles and higher quality color reproduction by making pixels parallel, rather than perpendicular. In an IPS display, the liquid crystals are parallel to the panels when they receive energy. In a TN screen, the crystals are oriented perpendicular to the upper part of the panel. High-performance tablets and smartphones use IPS vision technology because they are often used to view movies, make video chats and store photos. A better viewing angle and color characteristics guarantee better user experience. Creativity professionals benefit from the use of an IPS screen because an IPS LCD with a wider color gamut and wider viewing angles allows for greater aesthetic accuracy and therefore excellent quality.

Other versions of IPS include the following technologies:

  • Super TFT (IPS) for a wider viewing angle
  • Super-IPS (S-IPS) to eliminate the effect of changing colors and improve the pixel refresh rate.
  • Advanced Super-IPS (AS-IPS) for high transmittance
  • Enhanced IPS (E-IPS) for better diagonal viewing angle and reduced response time
  • Horizontal IPS (H-IPS) for an improved contrast ratio and an Advanced True White polarizing film that creates a more natural white color
  • Professional IPS (P-IPS) for true color depth

Is IPS suited to my needs?

An IPS monitor, also known as the In-Plane Switching panel, uses a type of high-quality vision technology typically used in high-performance computer, laptop, tablet, and smartphone screens. IPS offers a better user experience thanks to the wider angle and better color quality, as well as display features evolved over time compared to the introduction of TN effect LCD screens, used a lot in the 90s.

To decide if an IPS monitor is the best choice for your needs, first understand the TFT LCD vision technology. LCD TFT stands for “Liquid Crystal Display” and “Thin Film Transistor” (thin-film transistor). The LCD screen is composed of polarizing material and liquid crystals. TFT LCDs, also known as “an active-matrix “, were born as a variant of LCDs. TFT LCDs improve the color, contrast and response times of passive matrix LCDs.

The two most common types of LCD TFTs are the IPS LCD TFT and TN LCD TFT screens. TNs usually have a faster response time, which guarantees better entertainment experiences for those who watch sports or play video games, but IPS was born to solve TN screen problems, such as reduced viewing angle and the low quality of color reproduction. If you use your laptop or smartphone for creative activities, watching movies and videos, video chatting or uploading photo albums, you should choose an IPS, which gives you the best viewing angle and maximum color accuracy.

What are the qualities of IPS compared to TFT?

IPS (In-Plane Switching) is one of the most common types of TFT LCD screens. The TFT LCD screen improves the image quality of a normal LCD screen thanks to thin-film transistor technology. The IPS LCD screen, a variant of the TFT LCD (active matrix) improves the screen technology ensuring better color reproduction and a wider and more precise viewing angle. TFT LCD IPS technology is widely used for desktop and laptop computers, tablets and smartphones with high performance.

LCD stands for Liquid Crystal Display. It is a type of thin screen that forms a luminous panel display using two layers of polarized panels and a liquid crystal solution. Light is projected through liquid crystals to produce an image, but since liquid crystals are not illuminated, they need a backlight.

TFT LCDs (also known as active matrix LCDs) were created to improve colors, contrast and response time in LCD screens. The two most common types of LCD TFTs are the TFT TN LCDs (not standard IPS) and the IPS TFT LCDs. A monitor with an IPS screen offers improved features such as optimal viewing angles, precise colors, invariable color reproduction, and reduced energy consumption. In summary, IPS is a variant of the TFT LCD that improves the technological limits of TN panels, ie reduced viewing angles and color reproduction.

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