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What is the Moiré effect on LED displays

How to Fix the Moire Effect on LED Screens

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Moiré effect on LED screen|Causes, Prevention and Solutions

Preface: LED is as an activity industry practitioners we are most familiar with a display medium, it can be said that in a variety of projects almost all will use it, but in a variety of use environment, LED screen moiré effect often become a big problem to bother us, this unpleasant visual phenomenon in the end is how to produce? What kind of impact will it have on the display effect? For the industry, what are the effective prevention and solution strategies?

In this article, RIGARD LED will take an in-depth look at the Moiré effect on LED displays, revealing the principles behind its creation and providing practical prevention and solutions. If you are facing the problem of Moiré effect, or want to learn more about coping strategies, this article will help you master the methods to ensure the best display effect of LED display.

What is the Moiré effect on LED displays?

High-resolution LED screen eliminating moiré effect for export markets.

The Moiré effect is a visual distortion phenomenon that occurs when two similar or slightly different patterns overlap or are superimposed, resulting in a strange pattern on the screen.

This phenomenon creates irregular streaks in the image or video displayed on your LED screen. Simply put, the Moiré effect occurs when unusual streaks appear on the display screen that do not match the original display.

“Moire” is a French word meaning “ripple” or “hazy”, which corresponds to the undulating stripes that the effect usually produces. These patterns can interfere with the viewer’s visual perception, creating a confusing or even uncomfortable visual experience. They may affect the clarity of the entire image, text or video, or interfere with the presentation of reasonable portions of it.

the Moire effect on the LED screen

For example, when you’re watching an event or your favorite TV show, if rainbow-like distorted patterns appear on the screen that don’t match the original display, this could be the Moiré effect on the LED screen.

Sometimes, the Moiré effect can occur on a wide scale, making it difficult to recognize the original display. Next, we will discuss the various factors that trigger the Moiré effect, the corresponding solutions, and how to prevent it from happening again.

high-resolution led display

What causes the Moiré effect on LED screens?

The Moiré effect has become a common problem faced by businesses and individuals when using large LED screens, and while some people know what it is and why it occurs, others may be unfamiliar with it, and here is a list of 18 causes of Moiré effect on LED screens:

  1. LED screen resolution is low: This means that the pixels on the screen are larger than they should be and therefore more conspicuous, resulting in the inability to display finer details. For example, when you try to display small fonts or detailed images, a low-resolution screen can lead to the appearance of the Moiré effect.
  2. Insufficient refresh rate: A slower refresh rate means that your LED wall can’t keep up with the rapid changes in the image, which leads to flickering or blurring and affects the display of the original pattern. For example, if you are running a game at high speed, a slower refresh rate may create a moire effect on the LED screen.
  3. Pixel misalignment: When selecting an LED screen, the alignment of the display must be considered. If the pixels on the LED screen are not aligned for some reason, an interference pattern will be created, resulting in a distorted image or video display.
  4. Low-quality anti-aliasing: The jagged effect is a distortion phenomenon that occurs when the LED screen displays digital images and videos at a resolution lower than the original content. On the other hand, anti-aliasing is a hardware and software system used to smooth the edges and reduce the appearance of jagged effects of technology. If the anti-aliasing of the system is not effective, it may create an interference pattern that affects the display of the content. For example, applying a low-quality filter to an image with parallel lines may not effectively smooth these lines, but instead create a new interference pattern on the LED screen, known as the Moiré effect.
  5. Software or driver incompatibility: Software and drivers are responsible for interpreting digital images or videos and displaying them on the LED screen. If users or software administrators use incompatible software or drivers, they may not be able to correctly interpret the content data, which leads to visual phenomena, such as the Moore effect on the LED screen. In addition, incompatible software or drivers may cause the image or video to be scaled or resolved incorrectly, making the moire effect worse than it otherwise would be.
  6. Low quality video cables: It is important to use high quality equipment when using LED screens to display content. For example, using low quality video cables to connect your LED wall to other devices can also lead to the Moiré effect.
  7. Overlapping elements on the LED screen: When two patterns overlap or are superimposed on the LED screen, an interference pattern is created, resulting in the Moiré effect. Some examples of overlapping elements on the LED screen include:
    • Multiple tabs open at the same time in a browser overlap each other.
    • Display dialog boxes or pop-up windows on other windows.
    • Overlapping images or graphics, such as icons or logos.
    • User interface elements, including buttons or menus, above other elements of an application or website.
    • Overlapping text or other content, such as subtitles or annotations displayed on an image or video. Typically, any visual elements displayed on an LED screen or other display device with each other are overlapping.
  8. Complex structures or designs: Structures and designs that contain repeating patterns or fine details are susceptible to the Moiré effect. Viewing them at a lower resolution or superimposing them with similar or slightly different patterns creates interference fringes that may show up as extremely sharp edges and Moiré effects on your LED screen. For example, when you take a complex geometric design, which contains thin lines or repeating patterns, and shrink it down or overlay it with other similar designs, it will create a moire effect.
  9. Fine strokes or small font text: Fine strokes or small fonts contain fine details and high frequency streaks that are difficult for the screen to accurately reproduce. When you watch such content on a LED screen with a low pixel density, these details may overlap with other similar patterns, resulting in the Moore effect.
  10. High-contrast images: High-contrast images have sharp transitions between light and dark areas. These transitions will produce high frequency patterns that are difficult to reproduce on the screen. For example, when you watch a black and white checkerboard grid of high-contrast images on a very low-resolution LED wall, it is likely to produce the Moore effect, other similar stripes will be constantly superimposed on the checkerboard pattern.
  11. The reflection of external light sources: external light sources, such as overhead lights or direct sunlight, will produce reflections on the LED screen, while interfering with the surface pattern.
  12. Interference from electronic devices: If a nearby electronic device emits electromagnetic waves in a similar pattern, it may interfere with the pixel pattern of the LED screen, producing the Moore effect. Some examples of electronic devices that emit electromagnetic waves include cell phones, Wi-Fi routers, Bluetooth devices and microwave ovens.
  13. Pixelated images: Various LED walls have a fixed pixel density, which means they can only display a specific number of pixels per inch. Therefore, when LED screens display video or images, the pixels of such content must align with the existing pixels of the screen in order to display a visible image. However, when an LED screen displays media content with varying pixel densities, the pixels of the image may not align with the pixels of the screen, resulting in a moire effect on the LED screen. For example, if you display a low pixel density image on a high pixel density LED screen, the pixels of the image will be scaled up to fit the original pixel density of the LED wall. Similarly, if you display a high pixel density image on a low pixel density LED screen, the pixels of the image will be scaled down, resulting in the Moiré effect.
  14. Viewing distance: When you keep a certain distance from the LED screen, the relative angle and frequency of the pixel pattern will produce interference pattern, which will trigger the Moiré effect on the LED screen. If you are close to or away from the screen, the distorted pattern may change slightly or disappear.
  15. Physical damage to the screen: When light passes through a scratched or cracked screen, it diffracts or scatters in different directions, producing interference patterns that overlap the underlying image. This interference interacts with the pixel pattern of the image to form a Moiré effect on the LED screen.
  16. Displaying content that doesn’t fit your LED screen: Your LED wall consists of light-emitting pixels; the spacing and alignment of these pixels determines the resolution and quality of the display. However, when displaying video or images that are not suitable for your LED screen, the pixel structure of the screen may interact with the content, creating a moire effect.
  17. Color calibration is not correct: LED screen color calibration is the process of adjusting the screen color and brightness to accurately reproduce the image or video color. If you do not calibrate the LED screen correctly, the color on the screen will not match the actual color of the image or video. For example, if your LCD screen display is over-saturated, when displaying certain patterns, such as diagonal or circular patterns, the Moiré effect will become very obvious.
  18. Improper scaling: Scaling is the process of resizing an image or video to fit a specific screen size or display resolution. When a designer or editor does not properly scale an image or video, the pixels of the original content may not align with the pixels on the screen, resulting in the Moore effect.

As mentioned earlier, the Moiré effect is a common phenomenon that can be encountered by any business or individual using LED screens to display content. However, its severity and frequency depends on the purpose of use, individual needs, type of screen, and the content being displayed.

The Moiré Effect on LED Screen Content The Moiré effect is disruptive and can cause serious problems especially when organizing important events. Imagine using an indoor LED screen for a presentation at a conference, and suddenly the images and text become blurry; your team may have to interrupt the meeting due to this disruption, or continue the meeting without the presentation.

What about events that cannot be saved? We will focus on how the Moore effect affects the quality of displayed content, how it affects businesses, and its impact on various events.

How does the Moore effect affect the quality of content displayed on LED screens?

The Moore effect can affect the text, graphics, images or video you display on your LED screen in a number of ways, including the following:

  1. Image Distortion:The Moiré effect can cause images on LED screens to look distorted or blurred, reducing the display and making the viewing experience poor for the viewer.
  1. Contrast Reduction: The Moiré effect may reduce the contrast of what you display on your LED screen. Contrast reduction automatically destroys the structure of the original image, giving it a flat appearance.
  1. Poor Clarity:It may also reduce the clarity of the content you display on your LED screen, making the image appear somewhat blurry, not sharp enough and lacking in detail, thus spoiling the viewing experience for the audience.
  1. Screen Flicker:The Moiré effect can cause the screen to flicker or pulsate in a distracting and unpleasant way. This is especially noticeable when the screen displays high contrast images or moving content such as video.
  1. Text Distortion: During text presentations, the Moiré effect may break up the text, making it difficult or nearly unreadable, attributed to the interaction between the pixels of the LED display and the content.
  1. Jagged Edges: If you display text or images with jagged edges due to the Moir®¶ effect, it can make the content look unprofessional, reduce its quality, and even distract the viewer from the message you’re actually trying to convey.
  1. Moiré Patterns: When the Moiré effect is present, it can produce uneven patterns on the screen that are distracting and confusing to the viewer. These patterns are especially noticeable in areas with regular patterns in the image background.
  1. Ribbon effect: Just because certain colors and patterns look great on your smartphone or PC doesn’t mean they’ll display well on an LED screen. When gradients and smooth color transitions appear blocky, your LED screen may have a moire effect.
  1. Ghosting: Another way to determine if there is a Moiré effect on an LED screen is if the image or text on the screen seems to have trailing or residual shadows, especially in fast-moving areas.
  1. Rainbow Effect: The Moiré effect may produce a variety of uneven patterns on LED screens, including a highly visible rainbow effect, which can degrade the quality of text, graphics, images or video displays.
  1. Motion Artifacts: There’s another way to tell if you have a Moiré effect screen, when the display appears to skip frames or jitter, which can reduce the conveyance and quality of the display.
  1. Pattern Clash:When there is a pattern clash due to the Moiré effect, it can make the content appear cluttered and reduce quality. This occurs when there are multiple patterns or textures on the screen, which may interact with each other and create undesired Moiréor interference patterns.

The impact of the Moore Effect on businesses that rely on LED screens for advertising, events or communications.

Many businesses rely on LED screens for a variety of purposes, including commercial LED displays, conferences, product demonstrations, and more. Since 63% of consumers say that digital signage gets their attention more than traditional static media, this method of advertising is highly favorable to them.

With such a positive impact on consumers, imagine how bad things could be for businesses that regularly experience the Moiré effect on their LED screens. Fortunately, there are preventative measures and solutions for this phenomenon. First, however, let’s take a look at how the Moiré effect affects businesses that rely on LED screens for advertising, events, or communication.

  1. Reduced Visibility:When the Moiré effect occurs, it can make text, graphics, images or video on an LED screen appear broken and difficult to read or understand. This can reduce the visibility of the information you are trying to convey, making it much less effective.
  1. Damage Brand Image: If a business has a frequent Moiré effect on its LED screens, it may develop a negative brand image. For example, if your business is constantly displaying in-store advertising videos that always have the Moiré effect, customers will perceive your business as unprofessional, which will ultimately damage your company’s reputation.
  1. Missed Opportunities:Many businesses display promotions and sales offers on LED screens within their organization. If the Moiré effect makes the content on the screens difficult to understand, customers may miss out on important information or promotions, and the organization will lose the opportunity to generate sales or increase brand awareness.
  1. Distraction: No matter how sensible the information is, anyone can lose interest in a display that skips frames or is unclear. The Moiré effect distracts the viewer from focusing on the content of the display.
  1. Difficulty displaying branded products:When displaying branded products, you want them to look as beautiful as the originals. But what happens when the Moir®¶ effect causes colors to shift or look different? This makes it difficult to accurately showcase your brand, products and services.
  1. EYE STAIN: When the moire effect on an LED screen lasts for a long time, it may cause eye strain for the viewer. The viewer will feel discomfort and eventually ignore the displayed text, images or video.
  1. Negative word of mouth: most people will buy branded products based on recommendations from trusted people. However, customers who are not satisfied with the quality of your LED screen displays will spread negative comments about your business, which will discourage others from working with you.
  1. Higher Maintenance Costs: LED screens that are susceptible to the Moiré effect require more frequent maintenance, which can increase the operating costs of using this technology.
  1. Lower Return on Investment (ROI):If the Moore effect is affecting the effectiveness of a business’s advertising or communication campaigns, over time this will lead to poor customer acquisition and a lower ROI.

Impact of the Moore effect on activities

Every event needs engaging displays to light up the venue and entertain the audience. Companies, brands and organizations of all kinds use LED screens in a variety of environments to display important information and content.

Your event may start out very fun and engaging, but once the LED screen malfunctions and causes an interruption in what is being displayed, these small issues can turn your exciting event into an instant nightmare. Here are some of the negative effects that a Moore Effect LED screen can have on your event.

  1. Distraction: The Moiré effect creates a distracting pattern on the screen, which can draw the audience’s attention away from the main focus of the event. This distracting effect is especially detrimental when you are organizing an event to convey an important message or when you need attendees to focus on a specific element (such as a speaker or presentation).
  1. Produces a sense of disorientation:Not everyone can tolerate strong visual inconsistencies, and no one should have to experience them. the Moiré effect on LED screens can cause a sense of disorientation or motion sickness in some people, making it difficult for them to participate in the activity, or even leave early.
  1. Content Misinterpretation:Misinterpretation is easy with graphics, images and videos that are distorted, blurred and skip frames. The Moiré effect may create new shapes or patterns on the screen that confuse the viewer, giving another meaning to the displayed content.
  1. Poor Interactivity:Disturbances from the Moiré effect on LED screen displays may reduce attendee engagement and interactivity at the event. Instead of concentrating on the presentations, asking questions, or interacting with the event’s LED display content, they may divert their attention to discussing the Moiré effect amongst themselves.
  1. Reduced credibility:It takes years and a certain amount of trust to get people to consistently attend a particular event. They expect a mind-blowing experience, and the Moiré effect on LED screens can diminish the credibility and professionalism of an event, damaging the organizer’s reputation and reducing the likelihood that attendees will return in the future.
  1. Negative Impact on Sponsors:If the Moore Effect is present in a sponsor’s brand presentation, it may harm the sponsor’s return on investment and future sponsorship opportunities. Sponsors will lose interest and will be less likely to continue to support your event.
  1. Negative Reactions on Social Media:In today’s world where social media makes it easy for people to connect and know what’s going on with each other in real time or almost real time, it’s never a good idea to host a disastrous event. This is because there is a 100% chance that your attendees will share a negative experience of the LED screen Moiré effect on social media, damaging the event’s reputation.
  1. Poor User Experience:Providing a smooth and enjoyable experience for your audience is one of the secrets to success in your industry. The disruption caused by the Moore effect runs counter to this recipe for success. It creates a poor user experience for attendees, making it difficult for them to interact with the content on display and even reducing their overall satisfaction with the event.

The Moiré effect on LED screens can create all sorts of negative experiences that discourage attendees from attending future events.

Preventing the Moiré Effect on LED Screens

Now that you understand the Moiré pattern, its causes and its impact on businesses and events that rely on LED screens for advertising. Let’s explore some effective ways to prevent the Moiré effect:

  1. Use of LED screens with higher pixel density:Using screens with higher pixel density makes it more difficult to capture patterns on the screen, thus reducing the likelihood of a moire effect.
  1. Adjusting the refresh rate of your screen: As mentioned earlier, the refresh rate of your LED screen can cause flickering, which in turn produces a blurry or jagged effect on text, images and video. However, if you adjust the refresh rate correctly, you can prevent the Moiré effect from occurring.
  1. Use a matte screen or anti-glare coating: Prolonged exposure to direct sunlight or strong ambient light is one of the causes of the Moiré effect on LED screens. However, using a matte screen or anti-glare coating can help reduce reflections on the LED wall.
  1. Use high-quality video cables and connectors:The use of high-quality video cables and connectors is necessary in order to prevent interference with the displayed content. They play a vital role in minimizing interference and preventing the moire effect.
  1. Using a Video Signal Processor:When using multiple LED screens, the occurrence of the Moiré effect is almost inevitable. However, you can use a video signal processor to adjust the frequency and timing of the signals to prevent the Moiré effect.
  1. Use a diffuser to soften the light emitted from the screen: If you want to reduce interference and prevent the screen from experiencing the Moiré effect, you can use a diffuser. The diffuser will soften the light emitted from the LED screen.
  1. Avoid Small Fonts or High-Contrast Patterns: Another way to prevent the Moir®¶ effect is to avoid using small fonts or high-contrast patterns. Instead, use mediumsized fonts and patterns with moderate contrast – neither too low nor too high.
  1. Use a high-quality graphics card with a good anti-aliasing filter: Displaying text and images with jagged edges can ruin your presentation. However, a high-quality graphics card with a good anti-aliasing filter will smooth out the edges on the LED screen and prevent the Moire effect from occurring.

While the occurrence of Moiré effect on LED screens is becoming more common, there are a variety of ways we can prevent it, including using high-quality equipment and avoiding patterns and colors that can cause interference.

How to minimize the Moiré effect on LED screens

The Moiré effect is one of the biggest challenges facing companies and individuals using LED screens, and it can disrupt important business meetings, advertising campaigns, and other special events. If you have experienced Moiré patterns on your LED screens or are working to minimize its effects, the following tips will help you:

  1. Adjusting Resolution: Adjusting the resolution of your LED screen can help minimize the occurrence of the Moiré effect, which occurs when Moiré patterns occur due to interference between the pattern of pixels on the screen and the pattern in the text, video, image or graphic you are displaying. When you adjust the resolution of your LED screen, you actually change the spacing of the pixels, which reduces the likelihood of uneven patterns. However, reducing the resolution may also reduce image quality and clarity, so it is advisable to find a balance between reducing the moire effect and maintaining image quality.
  1. Use a diffuser: A diffuser is a material that evenly distributes light. Applying it to an LED screen can reduce the Moiré effect. Placing a diffuser on top of the screen blends the pixel pattern so that it is less noticeable, thus reducing the chance of a Moiré pattern.
  1. Choosing the right pixel pitch: Pixel pitch is the distance (in millimeters) between the center of each pixel on an LED screen and the centers of the other pixels around it. Choosing the right pixel pitch reduces the Moiré effect. Choosing a larger pixel pitch means that there is more space between the pixels, which reduces the chance of a Moiré patterns on the LED wall. However, a larger pitch also means that the resolution of the screen will be lower.
  1. Correct Calibration: Have you ever transferred an image from your PC to your phone only to find that the colors are different from the original image? This means that your PC or LED wall has not been properly calibrated. Calibration involves adjusting the color and brightness levels to ensure that it displays the original colors of whatever image you are displaying. Properly calibrating your screen will reduce these patterns and minimize the moire effect.
  1. Using the anti-aliasing filter: The anti-aliasing filter smoothes jagged edges or skipped frames on text and images by adding extra pixels. It reduces the sharpness of the edges, which reduces the appearance of Moiré patterns s.
  1. Utilize multiple screen panels:Using multiple smaller LED video wall panels instead of one large screen can help reduce the Moiré effect on your display. When you divide the screen into smaller sections, the viewer’s eye will not notice existing or impending Moiré patterns s.
  1. Adjust Refresh Rate:The refresh rate of your LED screen is how often you update your video, text, graphics or images. A higher refresh rate will make the content you display look smoother and reduce the visibility of Moiré patterns s.
  1. Varying the Viewing Distance: The distance between the viewer and the screen affects the visibility of the Moiré patterns . To minimize this pattern, change the viewing distance and try to move closer to the screen or further away from the screen to reduce the visibility of the Moiré patterns .
  1. Using the Noise Reduction Filter:Many videos, images, and graphics contain noise that should not be there in the first place. This noise shows a Moiré patterns , which you can minimize with noise reduction filters. If your LED wall manufacturer has built-in noise reduction filters, you can utilize them to reduce the Moiré effect. These filters work by analyzing the image or video and removing patterns that could cause a Moiré patterns to appear.

If you’re not sure how to do this yourself, make sure you contact your manufacturer to help you make the necessary adjustments. Also, if you are using a rented LED screen, don’t hesitate to quickly contact the renter to inform them of the changes on the display before adjusting the LED screen settings.

How to Fix the Moiré Effect on LED Screens

To fix the Moiré effect on your LED screen, you have the option of working with a manufacturer or professional, or fixing it yourself. If you decide to DIY (do-it-yourself), here is a step-by-step guide to help you fix your screen.

Determining the cause of the moire effect: The first step in fixing the moire effect on your LED screen is to determine its root cause. You can do this by examining the pattern on the screen and checking for unusual color blocks. Moiré patterns can be caused by a variety of reasons. Therefore, make sure to also analyze the type of content you are displaying, the settings of the display device, the screen resolution or aspect ratio, and the electronic devices near the screen.

Adjusting the screen resolution and aspect ratio: If you find that the cause of the Moore effect is the visibility of the pixel grid, you can try adjusting the screen resolution to a lower setting. This will make the pixels larger, thus reducing the visibility of the grid. Make sure you don’t adjust it too low to avoid degradation of the content display quality. Again, each LED screen has a different aspect ratio that differentiates it from other screens. Always use the correct and only manufacturer recommended aspect ratio for your LED wall.

Changing the refresh rate: If the pixel grid is not visible, it is time to check the refresh rate. If the Moiré effect is caused by the interaction between the display frequency and the LED wall refresh rate, try changing the display frequency to a different setting and make adjustments until you find the right setting.

Adjusting Display Settings: Contrast, Saturation, Brightness and other display settings may also trigger the Moiré effect. If the resolution is appropriate and the refresh rate is not too low, the next thing to do is to try adjusting these settings to see if they improve the display quality.

Use different video cables: not all cables made by the manufacturer are identical; the cable that connects your computer to the LED screen may also affect the Moiré effect. Check the following:

Cable Quality: Poor quality video cables may not transmit signals properly, resulting in interference or other visual distortions on the LED screen. Upgrading to better quality cables can eliminate Moiré patterns problems.

Shielding: Shielding is another important factor to consider when choosing video cables. Shielding is the metal layer that surrounds the cable and helps block interference from surrounding electronic devices. If a cable has poor quality shielding, it may be subject to interference from nearby devices, which can lead to the Moiré effect. It is recommended to use cables with high-quality shielding, such as HDMI or DisplayPort.

Cable Length: The length of the cable can also affect its performance. If the cable is too long, it may not be able to transmit signals efficiently, leading to distortion of the display or other problems. In some cases, using shorter cables can help improve the quality of the LED display.

Use anti-glare screens: reflective LED walls may increase the appearance of Moiré patterns.

Try using an anti-glare screen; if an anti-glare screen is not available, place the screen in a location that will minimize reflections. If not, you can minimize the Moiré effect by avoiding lighting that creates reflections or glare on the LED screen.

Use a software solution: After checking the above possible causes of the moire effect, if the problem persists, check for the presence of moire patterns in the image or video. If there are, a software solution can be used to eliminate them.

Replace the screen: probe all possible problems and try to fix them. However, if all the above solutions don’t work, it may be time to replace your LED screen. But before replacing it, contact a professional to help you check it again. All screens are not created equal in terms of components, quality and manufacturers. Investing in a high-quality LED wall is worth it because you’ll have reduced maintenance costs and better quality screens are less prone to the Moiré effect.

Use high-quality content: low-quality images, text, videos and graphics often contain moir®¶ patterns. Make sure you use high-quality images as they usually do not have Moiré patterns.

Ensure proper calibration: Proper calibration makes the content you display more attractive.

Therefore, make sure to accurately calibrate the color and brightness levels of your LED screen.

In addition, changing the viewing distance can reduce the Moiré patterns , but make sure that the viewing distance is appropriate for the screen, otherwise the Moiré effect may become more pronounced.

If you follow these steps, you can fix or minimize the moire effect on your LED screen.

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What is the Success of “Black Myth: Wukong” Meant for LED Display Technology?

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With the rapid development of the digital entertainment industry, the combination of games and high-definition display hardware is driving technological change, creating an unprecedented industry resonance. Recently, Black Myth: Wukong, since its release, has captured the hearts of players around the world with its outstanding visual effects, engaging plot and innovative interpretation of traditional culture.

The global success of Black Myth: Wukong, a highly anticipated and critically acclaimed game, has not only aroused widespread concern in the gaming community, but has also brought valuable insights to the future of LED display technology.

Behind the success, LED display screen has become a key factor in enhancing the gaming experience. Although the LED display screen itself is not directly involved in the game development, it plays an indispensable role in many aspects of the game industry chain. From the production and promotion to the player experience, every step is closely linked to display technology.

LED display screen has become a key factor in enhancing the gaming experience

Virtual Production and LED Displays: Realism Meets Detail

The wide application of LED virtual studio, especially in film, television and game production, has brought a new development direction to the display industry. LED display plays a crucial role in the virtual production process, which not only provides dynamic background and complex scenes, but also ensures the consistency of light and color, so that the producer can better control the visual effect of the screen in the production.

Take Black Myth: Wukong as an example. This game is likely to use LED virtual production technology in the production of the promotional video, which perfectly combines the real physical environment with the virtual scene. In virtual sets, the use of large-scale LED displays — such as a 169-square-meter display with a 2.6mm pixel pitch — provides an expansive, realistic view that fully immerses the actors and production team in the scene. The larger the display, the more immersive the environment becomes, making it easier for creators to visualize and interact with their digital environments. Through the LED virtual screen, the producer can view the shooting effect in real time and make adjustments, thus greatly improving production efficiency and reducing post-production costs.

In these LED virtual production processes, the picture quality of the display is especially critical. RIGARD’s LED display screen has become the preferred solution for virtual studios due to its excellent display effect and stable performance, especially in the real scene reproduction and detail presentation.

Immersive Experience: The Close Integration of Gaming and LED Displays

One of the key takeaways from Black Myth: Wukong’s success is the growing importance of immersive experiences in gaming. An immersive experience is not just about high-definition picture quality; it’s about players being able to “enter” the game world through the screen and feel as if they are truly there. For players, the screen is their direct connection to the virtual world. Whether it is the advancement of the storyline or the interaction of the character animations, every image and detail delivered by the screen determines the player’s sense of immersion.

More and more players are pursuing highly realistic visual effects and smooth gaming experiences, and these demands are driving the development of LED display technology. Compared with standard computer monitors, choosing a super-large screen monitor is more capable of enhancing gaming enjoyment and satisfying the needs of players who pursue the ultimate visual experience.

With the extra-large small pitch LED display screen, games can show richer colors and fine details, provide higher contrast ratio and refresh rate, and allow players to experience high-speed action scenes without any sense of delay. This is especially important in an action game like Black Myth: Wukong.

The LED display screen with a 2.6mm pixel pitch and up to 7680hz from RIGARD is gradually becoming the ideal choice to meet this demand with its excellent display effect and realistic picture performance.

LED Displays in Esports: Enhancing the Spectator Experience

Esports has become a major force in the entertainment industry, and LED displays are playing a huge role in how these events are presented. In major esports events, high-definition, large-scale LED screens aren’t just used for live broadcasting of the gameplay — they also show real-time player stats, live scores, tactical analysis and other important game data. This helps to significantly enhance the overall spectator experience, both in person and online.

For example, during the 2022 League of Legends World Championship, immersive LED display screens showed grand game scenes through XR (extended reality) technology, making viewers feel as if they were in the midst of intense battles. The presentation of such scenes relies on high-quality LED display technology, which allows the audience to enjoy an unprecedented visual feast through realistic visual effects and smooth screen switching.

The wide application of LED display screens not only improve the professionalism of the tournament, but also make the audience’s participation greatly enhanced. For the gaming audience, the importance of the viewing experience is no less than the gaming experience of the gamers. RIGARD’s LED display screens, through their excellent visual performance, allow the audience to feel the intensity and excitement of the event in every detail.

The Future of LED Displays: Innovation and Immersion

The success of Black Myth: Wukong indicates that the gaming industry will increasingly demand higher hardware technology standards. Currently, LED displays are one of the most promising key factors for enhancing player experience, prompting game companies to place greater emphasis on product promotion. High-quality LED display screens will become essential tools for showcasing game graphics and promotional videos to attract players and audiences in the future.

The development of technologies such as naked-eye 3D technology and XR virtual shooting is pushing LED display to new heights. As the complexity and interactivity of game content improves, these innovative technologies not only provide gamers with a more immersive visual experience, but also provide game developers and producers with more possibilities for creative expression.

The future of the game world will no longer be just a traditional flat display, with the continuous progress of LED display technology, we can look forward to a more diversified and immersive gaming experience. RIGARD’s LED displays have always been at the forefront of the industry in these innovative fields, and have set a new benchmark for the future development of display technology with their excellent technology and high-quality products.

Conclusion

The success of Black Myth: Wukong is not just a testament to the strength of China’s gaming industry—it also offers valuable lessons for the future of LED display technology. From virtual production in game development to the role of LED displays in esports, this technology is becoming increasingly important across the entire gaming ecosystem.

RIGARD, a leading provider of high-end display solutions, has proven to be the go-to choice for game developers, esports organizers, and production studios alike. Whether it’s enhancing player immersion or elevating the spectator experience, RIGARD’s small pitch LED displays deliver unmatched visual performance. As the gaming industry continues to grow and evolve, RIGARD’s cutting-edge technology will play a crucial role in defining the future of entertainment, pushing the boundaries of what’s possible with LED displays.

How to Find the Right LED Screens for Launch Events?

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In the past, LED display to outdoor advertising and stage performances as the main application scenarios, and based on data and technology media innovation for the audience to bring a very impactful user experience. Nowadays, with the innovation of more application scene mode, the use of LED display screens is no longer limited to the traditional mode, but with an innovative viewing trend to enter the marketing field – product launch events.

When planning a product launch, visual effects play a critical role in highlighting the features of new products and leaving a lasting impression. The use of LED screens for product launches, whether it is to display promotional videos, real-time information or eye-catching graphic icons, can enhance the presentation and engage the audience.

This article aims to help you make an informed decision when choosing a creative LED display for your launch event by highlighting the advantages and key features of LED screens for launch events.

Benefits of LED Screens for Launch Events

Whether in the smartphone sector, automotive industry, or gaming field, brand launch events serve as benchmarks for industry trends, drawing the attention of countless fans and businesses within the sector. To generate more buzz around a brand and its products, LED displays stand out as the ideal medium for brand marketing, offering irreplaceable value at these events alongside the product’s core selling points.

There’s no doubt that LED display screens, especially small-pitch LED displays, provide exceptional visual quality, showcasing the product’s key features and brand identity with clarity. Furthermore, by integrating various shaped screens and incorporating naked-eye 3D and AR technologies, LED displays can create stunning stage effects and interactive experiences, transforming product launches from mundane presentations into engaging showcases.

Notably, LED screens are also energy-efficient and environmentally friendly, allowing organizers to achieve unique and innovative stage designs at a lower cost while boosting brand visibility and significantly increasing product sales.

What to Look for in LED Screens for Launch Events?

Since using an LED display screen can significantly enhance brand and product marketing, what should you keep in mind when choosing the right screen for your event? Here are the key points to understand:

1. Pixel Pitch and Resolution

Pixel pitch refers to the distance between the centers of two adjacent pixels on the screen. A smaller pixel pitch leads to a higher resolution and better image quality. Additionally, the clarity of the image is closely related to the distance from which the audience views the screen, making it vital for product launches, where visual clarity is crucial.

Opting for a small pixel pitch LED display is wise, especially since brand launches typically occur indoors with the audience sitting relatively close to the screen. This ensures that viewers can enjoy high-resolution, flawless images regardless of their position or angle.

2. Color Accuracy and Calibration

Accurate color representation is essential for authentically showcasing your products and brand information. Therefore, you need to consider choosing an LED screen for launch event that offers excellent color accuracy and calibration features to bring your product images and videos to life. Furthermore, to highlight the uniqueness of the stage design, brand launch events usually feature a main screen alongside other secondary displays. As such, it’s important to find an LED screen with advanced color calibration capabilities to ensure consistency across different displays.

3. Brightness and Contrast

High brightness levels are essential for outdoor activities or well-lit indoor venues. Contrast measures the difference between the darkest and brightest parts of an LED screen, enhancing the depth and richness of the visual experience. Ensure that the LED screen you choose for your brand launch provides both high brightness and excellent contrast.

4. Refresh Rate

The refresh rate of an LED display screen affects the smoothness of motion in videos and animations. A higher refresh rate results in a smoother visual experience, which is particularly important for dynamic presentations and video content. For optimal performance, opt for an LED screen for launch event with a refresh rate of at least 3840Hz.

5. Screen Size

Matching the screen size to the event space and audience size is crucial. A LED screen that is too small may make it difficult for everyone to see, while one that is too large may take up too much space. When selecting an LED screen size, consider the viewing distance and the venue’s dimensions to ensure maximum impact.

6. Viewing Angle

A wide viewing angle ensures that product details are clearly visible from various locations in the venue without color distortion or loss of brightness. This feature is especially important for large audiences spread over a broad area. To leave a lasting impression of your product and brand, look for an LED display screen for launch event with a viewing angle of 140 degrees or greater for the best audience experience.

7. Connectivity Options

Compatibility with various devices and presentation tools is essential for seamless integration into the event setup. Today’s brand launches extend beyond merely showcasing product highlights and often incorporate advanced 5G and AR technology to enhance user interactivity. Ensure that the LED screen for product launch you select supports a range of input options, including HDMI, DVI, and VGA, to accommodate different media sources.

Applications of LED Screens for Launch Events

1. Multi-Screen Coordination

At the product launch of Snow God Zero, the configuration included two LED screens on each side, with a total of five LED screens in the center. This combination of multiple screens offers great flexibility in presentation, creating a visually captivating and interactive experience.

During the Meizu ∞ Lynk & Co Eco-launch, a combination of large LED screens and strip screens was used to effectively showcase the crossover collaboration between a smartphone brand and an automotive brand.

2. Cube LED Screens

Cube LED screens are also known as cube displays or six-sided LED displays. Each display side of an LED cube screen can seamlessly connect, breaking away from the monotony of traditional flat displays and attracting users with their unique shape.

In 2023, the Samsung Galaxy S23 series launch in China featured an impressive visual effect through an opening LED screen and a liftable cube LED screen.

3. Curved LED Screens

Curved LED screens are one of the most frequently seen display types at brand launches, characterized by their curved and arched shapes. The ultra-wide display design of curved LED screens gives a sense of depth and continuity, showcasing the brand’s inclusivity and vitality while presenting limitless possibilities. The use of impactful visuals and grand display styles creates a stunning and immersive experience for participants.

4. Multi-Sided Screens  

Multi-sided screens are composed of multiple sets of displays, ranging from a few to hundreds. This design can provide brands with a variety of visual changes and present product highlights from multiple dimensions.

In May 2024, OPPO held the product launch of its Reno12 in an esports center in Hangzhou, which featured a multi-sided screen design. The focal point of the venue was a liftable screen made up of four large and four small LED screens, covering a total area of 240 square meters. The screens could reach heights of up to 22 meters from the ground to accommodate viewers from various seating positions.

5. Naked Eye 3D Screens

Online product launches, especially for cars and smartphones, often utilize naked eye 3D screens. Naked eye 3D screens offer a level of depth and lighting detail that is difficult to achieve on a traditional stage, enhancing the overall visual elements with effective transition effects, thereby amplifying the technological tension of the launch.

By fully utilizing floor LED screens along with augmented reality effects that blend reality and virtuality, and implementing dynamic data lines that break the fourth wall, experiences can become more immersive and engaging. It offers viewers a delightful watching experience paired with vivid high-frame performance explanations.

Tips for Finding the Best LED Screen Supplier

Choosing the right supplier is just as important as selecting the appropriate screen. Here are some tips to help you find a reliable LED screen provider:

1. Research Reputable Suppliers  

Start by researching well-known suppliers that specialize in providing LED displays for events. Look for companies with a strong track record and good industry reputation. Check their websites, review their product portfolios, and gather information about their products and services.

2. Evaluate Supplier Products  

Compare the product ranges, customization options, and after-sales support offered by different LED screen suppliers. Ensure they provide the specific features and configurations your event requires. Customization options—such as screen size, shape, and installation solutions—are crucial for meeting your unique needs.

3. Read Reviews and Recommendations  

Customer feedback is vital when assessing potential LED screen suppliers. Read reviews and recommendations from previous clients to gauge their satisfaction with the products and services. Look for consistent positive feedback regarding product quality, customer service, and reliability.

4. Request Quotes and Proposals  

Request detailed quotes and proposals from multiple LED screen suppliers to compare pricing and products. Comprehensive proposals should include information about screen specifications, installation services, maintenance support, and warranty terms. Use these proposals to make informed decisions based on value and quality.

RIGARD LED, an example in this regard, is a leading manufacturer of reliable LED screens for events. Our small pixel pitch LED display technology is at the forefront of the industry, having broken technical barriers to provide high brightness and contrast in LED screens with a pixel pitch of less than 1mm for your brand events.

In addition, with a wealth of LED display solutions across various industries, RIGARD LED offers LED screens for launch events with advanced color calibration features and refresh rates of up to 3840Hz, ensuring high-quality performance and durability. RIGARD LED is committed to creating visually stunning stage designs for your launch events, enhancing the impact of your brand and products on the audience.

Conclusion

Choosing the right LED display for your event is crucial for creating a visually impactful and engaging experience. Consider factors like pixel pitch, color accuracy, brightness, and screen size to ensure the best option for your needs. Additionally, take the time to find reputable suppliers who can provide high-quality products and reliable support.

Investing in high-quality LED screens will lead to a successful product launch and leave a lasting impression on your audience, ensuring a worthwhile return. Contact RIGARD LED now to explore our range of LED display screens and find the perfect solution for your next event.

RIGARD P6.944 LED Displays: The Ideal LED Screens for Concert

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Concerts are imbued with a sense of ceremony due to live performances and magnificent visual effects, making them a perennial source of spiritual sustenance. Undoubtedly, a flawless concert not only relies on the singer’s exceptional vocal skills but also on the dazzling and stunning effects shaped by LED display screens on the stage.

Modern LED screens and sound equipment can provide audiences with immersive audiovisual enjoyment, allowing them to experience the perfect blend of music and technology. Many organizers also equip concerts with LED display screens tailored for the event, using large-scale screen splicing to create diverse display forms such as overlapping and split screens to enhance creative stage design, attracting various music trends and audiences.

Stage LED screens are specifically designed screens that create various creative effects for stages, typically composed of main screens, sub-screens, and extended screens. The main screen is used for live broadcasting and exciting replays, with several sub-screens placed on each side to smoothly connect to the main screen, presenting stage scenes vividly to the live audience. The extended screen is generally used for large stages like concerts to cater to rear audiences, ensuring that all spectators can clearly see everything happening on stage.

So, what should organizers pay attention to when choosing stage LED screens for concerts? Let us delve into the requirements of stages LED displays.

High Brightness

The lighting conditions in concert venues vary, with natural and artificial light sources. To ensure the LED display screens for concerts remain clear and vibrant even in well-lit environments, a high level of brightness is crucial. Outdoor concerts susceptible to sunlight interference may require screens with brightness levels ranging from 5,000 to 10,000 nits or higher. This ensures that the screen content remains clear and impactful regardless of environmental lighting.

High Resolution

Resolution directly affects the clarity and detail of visual effects displayed on stage LED screens. Higher resolutions, such as HD (1920×1080 pixels) or UHD (3840×2160 pixels), allow LED video walls for concert to maximally reproduce the live performance details when broadcasting artists, enabling the audience to clearly see every expression and movement, enhancing the emotional impact and resonance of the performance. This is crucial for engaging the audience and providing an immersive visual experience, especially in large venues where audience may be seated far from the stage.

High Refresh Rate

The refresh rate of stage LED screens determines how many times per second the image is redrawn. A higher refresh rate (usually measured in Hertz) ensures smoother motion playback and reduces motion blur, which is particularly important for fast-paced performances, dynamic lighting effects, and video content. It is generally recommended for concert LED screens to have a refresh rate of at least 3840Hz to provide a seamless visual experience.

High Color Accuracy

Accurate color reproduction is essential for maintaining the integrity of visual content, ensuring colors appear vibrant, consistent, and realistic. LED display for concert with high color accuracy and wide color gamut (such as screens capable of displaying all colors in the RGB spectrum) enhance the overall visual experience for concert audiences. This is crucial for conveying the mood and atmosphere of the performance, as well as accurately presenting brand elements and sponsor logos.

Pixel Pitch Less Than 7mm

Pixel pitch refers to the distance between individual LED pixels on the screen, measured in millimeters. The suitable pixel pitch depends on the viewing distance – larger pixel pitches may be suitable for screens viewed from a distance, such as those installed on stage backgrounds or placed at elevated positions, while smaller pixel pitches are more suitable for screens closer to the audience. LED screens with pixel pitches ranging from 4mm to 7mm strike a balance between image quality and viewing distance, making them ideal for outdoor concert stages.

RIGARD’s P6.944 LED display screen is specifically designed for outdoor concert stages, providing good visibility and image clarity for audiences sitting at medium to rear distances from the stage.

Durability and Weather Resistance

Outdoor LED displays for stages need to withstand various environmental factors such as rain, wind, dust, and temperature fluctuations. Durable building materials, wind and rain protection seals, and protective coatings help ensure the longevity and reliability of the screen in outdoor environments. Additionally, features like IP65 or IP66 ratings prove the screen’s waterproof and dustproof capabilities, making them suitable for outdoor installation.

Seamless Integration

To create a seamless and immersive visual experience for concert audiences, stage LED screens must have minimal borders and precise panel alignment to eliminate visible gaps or lines between panels. This requires meticulous installation and calibration to ensure that each LED module seamlessly blends together, forming a cohesive and uniform display surface.

RIGARD’s P6.944 LED display features ultra-thin and lightweight panels that enable seamless splicing and uninterrupted visual effects, enhancing the overall production quality of live performances.

Control System

An efficient control system is crucial for managing the content displayed on LED screens during music concerts. This includes hardware components such as video processors, scalers, LED controllers, as well as software applications for content creation, scheduling, and playback. The control system allows operators to switch between different sources, adjust brightness and color settings, synchronize content across multiple screens, and troubleshoot technical issues in real-time, ensuring a seamless and professional presentation.

Easy Setup and Installation

LED screens for concert should be designed for easy setup and installation, allowing production crews to quickly assemble and dismantle screens as needed. The modular LED panel structure is lightweight, tool-less locking, and equipped with quick-release connectors for easy deployment and disassembly, reducing setup time and labor costs. Additionally, screens with user-friendly interface designs and intuitive installation systems simplify the installation process, making them an ideal choice for touring performances and temporary event setups.

RIGARD’s P6.944 LED display features a unique intelligent locking design and module hard-pin connection, allowing precise positioning of problematic modules for efficient replacement and installation.

Flexibility

Sub-screens on the stage are often designed in various irregular shapes to enhance the unique aesthetics, visual impact, and audience experience. Opting for more flexible stage LED displays, such as flexible LED displays, curved LED displays, or transparent LED displays, is crucial to ensuring that concert organizers and event planners get the best value and return on investment.

RIGARD P6.944 LED Screen is an Excellent Choice for Concerts.

The meticulously designed P6.944 LED screen meets the stringent requirements of concert stages, ensuring unparalleled brightness, resolution, and reliability, thus elevating live performances to new heights.

With brightness ranging from 5,000 to 10,000 nits, our LED screens guarantee clear visibility even in the brightest outdoor concert environments. The P6.944 LED screen, ideal for concerts, boasts a refresh rate of up to 3840Hz, ensuring smooth motion playback and preserving the smoothness of fast-paced performances and dynamic lighting effects.

Renowned for outstanding color accuracy and wide color gamut, RIGARD LED screens faithfully reproduce vibrant hues and subtle gradients, enriching the visual narrative of every concert with true-to-life colors. Furthermore, we offer unparalleled reliability, durability, and the ability to withstand the rigorous demands of concert tours and outdoor installations, ensuring uninterrupted performance in any environment.

With competitive pricing and comprehensive support services, the RIGARD P6.944 LED screen provides a rental option, making it a wise choice for concert organizers seeking quality and reliability without compromising their budget. Enhance the visual effects of concerts with RIGARD LED screens, unleash the full potential of performances, attract audiences with immersive visual experiences, and leave a lasting impression.

LED Screens: The Revolution in Studio Production

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Broadcast studios are the birthplace of various high-quality content and a crucial source of information for us. From their inception to the present, the ways in which studio content is produced and delivered have undergone significant changes with the advancement of technology. Despite this, in this multi-screen era integrating new technologies such as AI, cloud computing, and the Internet of Things, Broadcast studios still need to overcome key technological challenges to stand out in the fast-paced media and entertainment world. Undoubtedly, the new generative AI system Sora released by Open AI in February, which generates videos through text, has greatly promoted the significant development of new productivity in studios.

LED screens have long been prominent in the studio field, and in recent years, with the advancement of digital construction and small-pitch technology, they have become the main application background in studios. This has led to new trends in content production and dissemination, sparking new dynamics in media integration and accelerating the formation of new productivity. Therefore, to achieve a deeper and broader evolution in embracing the digital wave, studios need to leverage LED screens.

With the rise of LED display screens, broadcast studios can transform their sets and produce stunning visual effects and immersive environments that attract audiences from around the world. Furthermore, LED screens for studios offer unmatched flexibility and versatility compared to traditional display screens, making them a valuable tool for enhancing the overall production value of any broadcast.

So, as the digital wave arrives, how can LED screens drive the revolution in studio production?

Efficient Virtual Production by Replacing Green Screens

Currently, studios can be categorized into physical studios, green screen studios, LCD/LED large screen studios, and LED XR virtual production studios based on scene types. Virtual production which can be achieved through green screens and LED screens is an essential key technology for studios to achieve digital upgrades. With the development of XR virtual shooting technology, green screen studios will continue to be replaced by LED virtual production studios.

Compared to green screens, the most exciting aspect of LED screens in virtual production is how they change the way content is produced and delivered. Virtual backgrounds and environments can be directly displayed on LED screens to complete various challenging shots without the need for physical sets and props. On the other hand, virtual production relying on green screens requires consideration of post-production, environmental set design, and lighting costs and effects.

With LED display screens, studios can blur the line between actions on the screen and the real world, creating visual impacts and immersive environments that cannot be replicated in the real world. This helps broadcasting companies save production costs and allows them to create more dynamic and visually appealing scenes tailored to specific programs or events.

It is estimated that by 2025, the market potential for LED screens in XR virtual production studios will be around 15-20 billion. The demand under this extensive market coverage will drive LED screens to open up a whole new world full of creative possibilities, enabling studios to break through the boundaries of film and television content production.

Superior Image Quality Provided by Smaller Pixel Pitch

LED screens are made up of individual light-emitting diodes (LEDs) that create images and visual content on the screen by emitting light. These LEDs are clustered into groups called pixels, and the smaller the distance between them, the higher the pixel density and better image quality, as closer pixels create more detailed images.

Small pitch LED screens that can provide vibrant colors, clear details, and smooth motion are an inevitable trend in driving the transformation and development of studios. This is because high-resolution images and videos are crucial tools for studios to attract audience attention in an increasingly crowded media environment. From graphics on the screen to the facial expressions of presenters, small pixel pitch LED screens ensure lifelike visual effects, enhancing viewers’ experience.

Empowering the Cultural and Tourism Industry with Immersive Experiences

The application scenarios for studios are countless, but upon closer examination, it becomes apparent that almost all LED display screens can meet the development needs, whether it’s for television program production, stage performances, or immersive cultural and tourism projects. This is because as the most crucial visual medium, LED displays can transport visitors into the scene, enabling them to fully immerse themselves, engage emotionally, and experience a comprehensive new dimension within the exhibition space.

For example, the virtual reality immersive theater project The Wind Rises in Luoyang, created by iQIYI, combines live performances with VR interactive experiences, integrating immersive drama, role-playing, and live interpretation in virtual reality space to recreate the grandeur of Luoyang during the Tang Dynasty.

With its exquisite and vivid ultra-high-definition effects, LED displays can reconstruct the relationship between exhibition content and display space, becoming the mainstream choice for diverse immersive experiences. This has garnered favor in the cultural and tourism industry, revitalizing the somewhat fatigued LED display screens and uncovering new potential in this context.

Integration into Any Studio Design

The flexibility and versatility of LED display screens are among the primary contributions to helping broadcast studios achieve digital transformation. Depending on the production material, LED displays can be transparent LED screens, curved LED screens, or flexible LED screens, easily customized to fit any size or shape, enabling broadcast companies to create unique and immersive scenes that captivate audiences. Whether it’s a curved display behind the anchor desk or a video wall showcasing dynamic graphics, LED display screens can seamlessly integrate into any studio design, enhancing the production value of the broadcasted content.

Real-Time Display of Dynamic Content

Another way LED screens are transforming broadcast studios is through the real-time display of dynamic content. By seamlessly integrating with video production software and hardware, LED displays screens enable broadcast companies to showcase live broadcasts, graphics, and interactive elements in their scenes. This real-time content helps keep the audience engaged and informed, whether it’s breaking news updates, on-site interviews, or interactive public opinion surveys.

Contribution to Sustainable Development

LED displays are not only cost-effective but also environmentally friendly, making them a sustainable choice for studios looking to reduce their carbon footprint and operational costs. Compared to traditional display options, LED technology consumes less power, reducing electricity bills and minimizing environmental impact. By investing in LED display screens, broadcasting companies can enhance the aesthetics of their studios while contributing to a more eco-friendly and sustainable future for the industry.

As the digital revolution continues to shape the media landscape, studios must adopt new technologies to stay relevant and competitive. LED screens provide powerful tools for studios aiming to transform production value and create engaging content that resonates with audiences.

Whether you aim to create stunning visual effects for set designs, enhance live broadcasts with real-time data and graphics, or push the boundaries of broadcast production, RIGARD LED displays can help you achieve your goals. RIGARD is a leading manufacturer of LED screens in the industry. Our team specializes in tailoring exclusive display solutions for you, offering LED display screens with outstanding image quality, flexibility, and versatility for studio applications, making them the perfect choice for you looking to leave a lasting impression in the digital age.

In conclusion

In conclusion, for studios seeking to enhance production value and undergo digital upgrades, LED displays are game-changers. Transform your broadcasting studio with advanced RIGARD LED displays and elevate your production to new heights.

What are the Requirements for LED Stadium Screens?

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LED display screens have now replaced traditional lighting and CRT displays, becoming the core equipment of modern sports venues around the world. As a dynamic and versatile display tool, LED stadium screens not only showcase live events, instant replays, game time, and scores in high resolution, providing the audience with stunning effects and immersive experiences, but also display sponsor advertisements and interactive content, making them a perfect combination of modern sports and commercial operations.

They are mainly distributed above the home courts of sports venues such as football fields, basketball courts, and badminton courts, as well as around the stadium or at the entrance of the sports arena. Therefore, stadium LED displays can be divided into LED Scoreboards and Perimeter LED Screens.

Requirements for LED Stadium Screens

From the professional perspective of sports events, LED stadium screens need to emphasize real-time, accurate, fast, and distortion-free dynamic information dissemination, such as live broadcasts and exciting replay shots. Therefore, large LED video screens rental for stadiums and arenas require a wide viewing angle, high grayscale, a refresh rate of no less than 3840Hz, and the integration of high-performance driving ICs to ensure stable static scanning, live broadcasting, shooting.

Undoubtedly, in recent years, stadium LED screens have played a crucial role in enhancing the overall fan experience and are changing the way fans interact with matches. As the core equipment of major international events, what requirements do LED stadium displays need to meet in order to satisfy the needs of today’s sports and entertainment industry?

Wide Viewing Angle

The LED display screens for sports arenas require a wider viewing angle to ensure that over 95% of the audience can clearly see the content on the screen, especially during live broadcasts featuring athlete profiles, scores, slow-motion replays, exciting moments, close-up shots, and more. Given that viewers watch the screen from different angles, stadium LED displays need to ensure their vertical and horizontal viewing angles fall between 120-140° to provide viewers with a better visual experience.

High Refresh Rate

Sports competitions are typically intense, and only LED displays with high refresh rates can accurately convey thrilling moments to the audience amidst athletes’ high-speed movements. Additionally, high-definition cameras are used for filming or live broadcasting at the venue. If the refresh rate of the LED display screens is insufficient, the captured images may exhibit ripples, significantly impacting the overall visual appeal. Therefore, large LED video screens rental for stadiums and arenas commonly employ high refresh rate driving ICs to ensure a refresh rate of over 3840Hz.

High Resolution

Another requirement for LED stadium screens is high resolution to ensure clear images visible from various angles and distances within the stadium. High resolution guarantees that fans can enjoy every detail of the game, whether they are seated in the front row or in the upper deck. Moreover, high resolution is crucial for accurately displaying text and graphics such as player stats, scores, and sponsor messages.

Brightness and Contrast

Brightness and contrast are one of the most important requirements for stadium LED displays. Display screens that can produce vibrant colors and sharp contrast ensure optimal visibility under various lighting conditions, including bright sunlight or dimly lit stadiums. Due to the high brightness in outdoor settings, outdoor LED display screens need to have high brightness levels.

However, there is a balance between appropriate brightness, contrast, and energy efficiency. Excessive brightness may result in overly vivid colors that do not accurately represent the true colors. Hence, opting for energy-efficient stadium LED screens is crucial for creating an immersive viewing experience, capturing the excitement and vibrancy of live events, while ensuring stability and longevity.

Support for Diverse Input Interfaces

To maximize the impact of stadium LED screens, they must support diverse input interfaces for seamless integration with the venue’s audio and control systems. Integration of LED displays with audio systems enables synchronized playback of sound and video, creating a cohesive multimedia experience for the audience. Additionally, compatibility with control systems allows operators to efficiently manage content and monitor performance in real-time, such as switching live feeds, displaying real-time match timing, and scores.

Durability and Weather Resistance

During intense competitions, athletes inevitably collide with the perimeter LED displays around the field. It requires both outdoor and indoor LED screens to have anti-collision properties to protect athletes from injuries and extend the lifespan of the LED displays. Moreover, outdoor sports events often expose LED screens to various elements such as rain, wind, and extreme temperatures, necessitating stadium LED displays to have a high flame retardant rating, meet IP65 protection standards, use V0 flame retardant wires, and have built-in cooling fans.

Energy Efficiency and Low Maintenance

As sports venues strive to reduce their environmental impact and operational costs, energy efficiency and low maintenance are fundamental requirements for LED stadium screens. Energy-saving LED screens consume less power, reducing electricity bills and minimizing the stadium’s carbon footprint. Low maintenance screens require minimal upkeep and repairs, ensuring the longest possible operating time and lifespan without the need for frequent maintenance or replacements.

Scalability and Customization

Sports venues come in various shapes and sizes, requiring display screens to be scalable and customizable to meet the specific requirements. Whether creating large LED video walls for major sports arenas or installing multiple smaller or irregularly shaped displays throughout the venue, LED stadium screens should be flexible and highly adaptable. For instance, curved LED screens can create visually stunning display effects, enhancing the overall aesthetics of the venue.

Consideration of Viewing Distance

Stadium LED displays should choose the appropriate pixel pitch based on the viewing distance. For outdoor large sports venues, screens with larger pixel pitches like P6 or P8 are commonly considered. In contrast, indoor sports arenas with higher audience density and closer viewing distances often use narrow pixel LED displays with pixel pitches typically ranging from P2.5 to even smaller sizes like P2.

Compliance with Safety Standards

Last but certainly not least, LED stadium screens must comply with safety standards and regulations to ensure the health of fans, staff, and performers. Generally, the safety performance of LED display screens in sports venues must meet the requirements of section 5.4 in the SJ/T11141-2003 standard. LED module kits, fillers, PCB boards, and power line sheaths should be made of high-quality polymer materials with good flame retardant properties.

In term of the power design, it requires LED displays to be individually powered and comply with the requirements of section 5.8 in the SJ/T11141-2003 standard. Cable construction acceptance must meet the requirements of GB50168 and GB50171. Additionally, LED stadium screens must have smoke sensors, lightning protection, fire automatic alarms, and automatic screen shutdown functions. Distribution cabinets must have overload protection, leakage protection, and gradual power-up functions. Only stadium LED displays that meet safety standards can prevent potential hazards.

In competitive sports and entertainment industry, maintaining a leading position is crucial for sports venues looking to attract and retain fans. LED display screens have revolutionized this aspect, providing sports venues with a powerful tool to stand out and create a unique experience for the audience. By investing in LED screens, sports venues can enhance their brand, attract fans, and become industry leaders.

In conclusion

At RIGARD, we specialize in providing cutting-edge LED display solutions for venues of various sizes. Our expert team works closely with clients to design, install, and maintain custom stadium LED scoreboards, perimeter LED screens, tailored to meet their unique needs and exceed their expectations. We prioritize quality, innovation, and customer satisfaction, dedicated to helping sports venues enhance fan experience and achieve their business objectives.

Elevate your sports venue experience with RIGARD’s stadium LED screens. Let us help you take your venue to a new level and create truly unforgettable experiences for your fans. Contact us now to explore our customized stadium LED screen solutions for you.

small pitch LED screens

Small Pitch LED Screens in Conference Rooms

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With the constant development of display technology, LED screens are becoming more and more advanced in functionality and are being used more widely, making them one of the standard equipment in modern conference rooms. Among LED displays, small pitch LED screens have exploded in popularity due to their high definition, brightness, and color reproduction, gradually replacing projectors and becoming one of the most popular display devices in conference rooms. 

This article will explore the application of small pitch LED screens in conference rooms, including their technical characteristics, advantages, and future development trends.

small pitch LED screens

What is the Small Pitch LED Screen?

Small pitch LED screens refer to LED displays with smaller pixel pitch, usually below 1.0mm. With the continuous advancement of LED technology, small pitch LED screens have achieved different pixel pitches from P2.5, P1.9 to P1.2, P1.0, providing higher resolution and clearer display effects. The smaller the pixel pitch, the richer the displayed details and the clearer the image.

The development of high-definition small pitch LED screens is mainly due to continuous innovation in LED chips, driver chips, surface mount packaging technology, and other aspects. The small pitch LED screen with vivid colors, high saturation, and clear picture quality can dynamically monitor various display needs through integrated computer systems, multi-screen processing technology, signal switching technology, network technology, etc.

Technological innovation has greatly improved the brightness, color reproduction, viewing angle, stability, and other aspects of narrow pixel pitch LED displays. Among them, multi-screen display of signals and real-time transmission of various signals from computers, cameras, DVD videos, networks, and other sources can meet large-scale display, sharing, and aggregation needs for various information.

Because of these unstoppable features, high-definition small pitch LED screens are now widely used in commercial advertising, conference rooms, TV walls, stage backgrounds, and other fields.

high-definition small pitch LED screens

Technical Requirements for Small Pitch LED Screens in Conference Rooms

The use of small pitch LED screens in conference rooms requires meeting a series of technical requirements to ensure display quality and stability. Firstly, high resolution and seamless integration are among the most critical requirements. Additionally, color reproduction capability is also crucial as LED screens need to accurately reproduce colors to ensure vivid and true-to-life display content. Furthermore, high brightness, wide viewing angles, high refresh rates, stable display performance, and long lifespan are all important technical requirements for using small pitch LED screens in conference rooms.

  1. High Resolution: Small pitch LED displays used in conference rooms need to have high resolution to ensure clear and detailed display content. This is important because conference rooms may need to showcase detailed documents, charts, or video content, and high resolution can provide a better visual experience. RIGARD’s small pitch LED displays use COB packaging technology, leading the industry standard with a pixel pitch of 0.9mm, and a single LED module resolution of 640*340, providing a rich and detailed display solution with 1,137,777 pixels per square meter.
  2. Seamless Integration: Large LED screens in conference rooms are composed of multiple LED modules, so it is essential, especially for small pitch LED displays used in news topics or video conferences, to ensure seamless integration between modules. Small pitch LED displays that achieve seamless integration can ensure that characters and images are not cut off when displaying WORD, EXCEL, PPT, and other content due to gaps.
  3. Intelligent Brightness Adjustment: LED displays with intelligent brightness adjustment can adapt to changes in the conference room environment, making the screen’s visuals more comfortable and the image details more perfect.
  1. Color Temperature Adjustment Support: Small pitch LED displays that support color temperature adjustment can accurately reproduce colors, ensuring vivid and true-to-life display content for specialized color requirements in conference display applications such as studios, virtual simulations, video conferences, and medical displays. Our small pitch LED displays support color temperature adjustment within a wide color gamut of 10,000 ± 500k, meeting different application requirements for colors and providing better visual effects.

COB packaging technology

  1. Wide Viewing Angles: Small pitch LED displays used in conference rooms need to have wide viewing angles to ensure clear visibility of display content from different positions. In meetings, there may be multiple attendees sitting in different positions, and wide viewing angles can ensure that everyone can clearly see the display content. RIGARD’s small pitch LED displays support horizontal 170°, vertical 160° viewing angles, better meeting the needs of large conference room environments and tiered meeting room environments.
  2. High Refresh Rate: Small pitch LED displays used in conference rooms need to have a high refresh rate to ensure smooth display content without flickering or ghosting. During meetings, dynamic video content may need to be played, and a high refresh rate can provide better visual effects. Our small pitch LED displays have a refresh rate of up to 3840Hz, achieving faster response times to meet the display needs of high-speed motion.
  1. Ultra-Thin Design: Conference rooms typically have limited space, so the cabinets of small pitch LED displays used in modern conference rooms should be as thin as possible to save space. Our small pitch LED display cabinets have achieved an ultra-thin design of 88mm. Compared to DLP splicing and projection fusion, they can save a significant amount of floor space in your conference room.

small pitch LED screens

  1. Efficient Heat Dissipation: High-definition small pitch LED displays used in conference rooms should have efficient heat dissipation and zero noise to provide users with a perfect and quiet meeting environment. Additionally, LED display screens need to have energy-saving and environmentally friendly features to reduce energy consumption and minimize environmental impact.
  2. Long Lifespan: High-definition small pitch LED displays used in conference rooms should have an ultra-long lifespan to reduce maintenance and replacement costs, saving on overall operational expenses for businesses. Furthermore, easy installation and maintenance of small pitch LED displays are also crucial factors. RIGARD’s small pitch LED displays can achieve a lifespan of 100,000 hours, support 24/7 continuous operation, and do not require bulb or light source replacement during their lifecycle, saving you on maintenance costs.

Advantages of Small Pitch LED Displays in Conference Rooms

Small pitch LED displays offer numerous advantages in conference rooms. Firstly, their high definition, brightness, and color reproduction capabilities provide clear and lifelike display effects, enhancing the visual and auditory experience for attendees when presenting documents, charts, or playing video content. Secondly, small pitch LED displays have wide viewing angles, ensuring that attendees can clearly see the display content from any position in the conference room. Additionally, small pitch LED displays also boast energy efficiency, long lifespan, and ease of installation and maintenance, providing convenience for the use and management of conference rooms.

Undoubtedly, the most prominent contribution of small pitch LED displays to modern meetings is their ability to facilitate remote real-time communication and collaboration. Whether for remote education, video conferences between branch offices and headquarters, or nationwide training and educational activities organized by headquarters, LED display screens make communication during meetings easier and smoother.

The Future of Small Pitch LED Displays

With the continuous advancement of display technology, the future application prospects of small pitch LED displays in conference rooms are vast. As LED technology continues to innovate and mature, small pitch LED displays will see further improvements in resolution, color reproduction, brightness, and energy efficiency, better meeting the requirements of conference rooms for display devices. 

Moreover, the global shift towards digitalization and smart meeting solutions has become a reality. With the development of smart and internet-based technologies, small pitch LED displays are also expected to integrate with 4K LED TVs in conference rooms, offering more possibilities for information display and interactive communication.

Small Pitch LED Displays

Conclusion

Small pitch LED displays have significant application value in conference rooms, not only encompassing the main advantages of LED displays but also providing value-added features such as internet connectivity and user interaction experiences. They are increasingly favored by business leaders and have become an indispensable part of modern conference rooms. RIGARD’s small pitch LED displays integrate intelligent display solutions, providing unparalleled visual effects and real-time information synchronization, making them the optimal choice for empowering all types of conference rooms.

 

Small Pixel Pitch LED Displays

11 Moisture-proof Tips for Small Pixel Pitch LED Displays

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With the popularity of small pixel pitch LED displays, their daily operation and maintenance need to be given more attention, as this not only ensures work efficiency but also extends their lifespan.

LED display screens are electronic devices that are extremely sensitive to moisture and are more prone to damage due to humidity in daily use. Therefore, keeping fine pixel pitch LED screens from humidity is an important part of LED screen maintenance.

Why Should You Keep Small Pixel Pitch LED Displays from Humidity?

Dehumidification and moisture prevention for LED displays refer to preventing water vapor from entering the internal components of the LED screens and preventing the LED screens from operating in a humid environment.

  1. Prevent Condensation

The components of LED display screens are mainly encapsulated with plastic materials such as epoxy resin, which are polymer materials with large gaps between molecules. Therefore, gaseous water molecules can penetrate the LED casing and infiltrate the moisture-sensitive components through these gaps. When the indoor humidity level is high, condensation water can form on the LED screens, causing water stains and moisture to penetrate the internal casing, resulting in screen malfunctions. Keeping small pixel-pitch LED displays helps prevent condensation.

  1. Maintain Image Quality

Operating LED displays in high-humidity environments can affect the image quality, resulting in pixel blur or distortion, reducing overall clarity and sharpness. By dehumidifying and maintaining the LED display screen, the expected image quality can be maintained, ensuring that viewers can fully appreciate the high-resolution visual effects.

  1. Extend Lifespan

Moisture is one of the common causes of small pitch LED screen failures. When halogen-containing water vapor infiltrates the internal components of the LED display, the halogens can undergo electrochemical reactions with the metals inside the device when powered on, causing leakage, short circuits, corrosion, and other damage. Dehumidifying and maintaining the LED screens helps prevent these issues, prolonging the lifespan of the screens and reducing costly repair or replacement expenses.

  1. Reduce Downtime

If the small pitch LED display is damaged due to moisture, it may require repairs or replacement, resulting in downtime. This is particularly problematic for businesses that rely on LED displays for advertising, information dissemination, or entertainment. Regular maintenance and dehumidification of the LED screens can minimize the risk of downtime and ensure uninterrupted operation. Over time, this can save costs and achieve a higher return on investment.

Anyway, protecting fine pixel pitch LED displays from humidity is crucial for maintaining image quality, extending display lifespan, reducing downtime, and maximizing return on investment.

Small Pixel Pitch LED Displays

11 Tips for Protecting Small Pixel Pitch LED Displays from Humidity

Transportation and Storage of LED Components

  1. When transporting and storing LED components, take precautions to prevent water from coming into direct contact with the LED display screen, which may include padding them with objects or isolating them with waterproof materials.
  2. The storage environment for LED components is equally important. Invest in a humidity monitor to regularly track the humidity levels in the room. Ideally, humidity should be maintained between 40-60%. The optimal storage environment for fine pixel pitch LED displays is: temperature <30°C, humidity <60% RH. In addition, it is necessary to check daily if the environmental temperature meets the working conditions.
  3. During the transportation and storage of LED screens and their components, desiccants can be added to absorb moisture in the air.

Small Pixel Pitch LED Displays

Packaging of LED Components

  1. Vacuum packaging or sealing of LED modules, HUBs, receiver cards, and other components and placing desiccants inside the packaging.
  2. Consider using a professional LED display manufacturer for packaging and installation, as they are experts in this field and can provide you with the perfect solution for small pixel pitch LED displays.

RIGARD is an expert in narrow pixel pitch LED displays and takes pride in our indoor and outdoor LED displays with an IP65 protection rating and excellent waterproof and dustproof design. RIGARD has developed comprehensive moisture-proof solutions in the stages of production, transportation, and installation, ensuring that the LED screens can continuously provide captivating visual experiences, making them the ideal choice for advertisers and event organizers.

Packaging of LED Components

Dehumidification of LED Displays in Use

  1. After the installation of the narrow pixel pitch LED display, it should be regularly powered on and used. It is recommended to use the LED screen and its supporting equipment at least twice a week for 2 hours each time.
  2. If the LED display is not used for a long time (usually 5-10 days), it should be dehumidified before use. Gradually increasing the brightness and slowly warming up the screen will help remove accumulated moisture inside the display.
  3. Consider applying a waterproof coating or sealant on the LED screen to provide additional moisture protection. This can help prevent water stains and extend the lifespan of the LED display. However, be cautious when using disinfectants containing chlorine and bromine directly on the LED display screen, as they may cause corrosion to the screen and LED chips.
  4. Regularly clean the LED screens to remove any accumulated dust or debris, which will help prevent moisture buildup and potential damage.

Indoor Dehumidification

  1. Achieve physical dehumidification by placing a specific amount of desiccants indoors to absorb moisture from the air.
  2. Ensure to open windows for ventilation when the weather is clear to accelerate the evaporation of indoor water vapor, thereby reducing the relative humidity of the indoor environment. Also, make sure that the LED display screen is installed in a well-ventilated area, which will help prevent moisture accumulation in the surrounding environment of the screen.
  3. During humid and rainy seasons, air conditioning and dedicated dehumidifiers can be used to dehumidify the LED display and the indoor area, preventing the formation of condensation on the screen.Indoor DehumidificationWith the maturity and widespread application of high-definition display technology, small pixel pitch LED displays are gradually replacing DLP, LCD splicing, and projectors. They are widely used in commercial display scenarios such as conference rooms, education, shopping malls, and cinemas. To maximize your return on investment and ensure the best display quality, it‘s critical to follow these tips to protect small pixel pitch LED displays from moisture.
cob led technology

COB LED Technology Powers LED Screens Toward Smaller Pixel Pitch

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LED display screens are undoubtedly the best solution for commercial displays today. A large number of LED beads are mounted in a dense arrangement on the panel to produce images by emitting light. And the distance between each tiny LED bead on the panel is called pixel pitch. As we all know, the smaller the pixel pitch of LED display screens, the higher the resolution and the higher the picture quality presented.

The demand for ultra-high definition displays (UHD) rises in recent years due to the rich image detail and immersive viewing experience they provide, especially when viewed at close range. For enterprises, UHD displays exert great influence in the clear and distinctive presentation of the corporate image and product details, which plays a positive role in business development. There is no doubt why Micro LED and Mini LED, the display terminals that provide UHD images, are the wind vane of future display technology.

COB LED displays

Small pitch LED displays are starting to surpass the maximum resolution of UHD panels in the LED display industry. LED display screens with pixel pitches below 1 mm are gradually making their way from the high-end market to the mid-to-high-end market thanks to ongoing advancements in LED packaging technology, significant improvements in packaging efficiency, and a development trend of rapidly decreasing LED chip cost.

At the annual conference for Integrated Systems Europe (ISE) 2023, the P0.3 LED display screen made its debut. Due to the extremely small pixel pitch, the P0.3 LED display can reach a resolution of 6,547,622 dots per square meter and still have a high brightness of 1200 nits. 

The debut of the P0.3 LED display screen demonstrates both the advancement of fine-pitch LED display technology and the inevitable trend toward Mini LED or Micro LED as carriers for ultra-high definition displays.

The COB LED packaging technology, which has steered the LED display industry in the direction of ultra-high resolution displays and is a crucial element in obtaining decreasing pixel pitches in LED displays, is credited as one of the reasons for the successful debut of P0.3 LED screens. 

So, what is COB LED, and how can COB LED technology reduce the pixel pitch in LED displays?

COB (chip-on-board), is a new LED packaging technology that mounts LED chips rather than LED beads directly on the Printed circuit board (PCB).

application of COB LED displays

 

  • High-density array of LED chips

 

Because each LED chip is exposed, i.e., there are no lead frames, phosphor coatings, or lenses, they can be arranged and mounted very closely on a single COB LED module. Such a high-density array allows COB LEDs to produce more light output and greater light uniformity from the same area that a standard LED module might occupy. 

For example, COB LED technology can produce 38 times more LEDs on a 10mm x 10mm square PCB compared to DIP LED technology, and 8.5 times more LEDs compared to SMD LED technology. With COB LED technology, P1.2mm, P0.9mm, P0.6mm, P0.5mm, and even P0.3mm LED display screens can be achieved.

 

  • Fewer components 

 

The reduction in the number of parts required to operate the LED chips is another significant benefit of employing COB LED technology. Instead of the lens and other standard components of an LED package, COB LEDs power the multiple diode chips they house using a single circuit with only two connections. Each LED chip in this case produces less heat and has a lower failure rate thanks to the fewer components and removal of the conventional LED chip structure packaging.

 

  • Lower failure rate

 

The ability to limit the pixel failure rate to 1-9 pixels within 1 million display pixels is another feature of COB LED technology’s low failure rate. The current standard SMD LED technology in the display industry can only control the pixel failure ratio to one in 10,000, which is far from being able to meet the requirements of small-pitch LED display screens for ultra-high definition display.

We are all aware of the benefits of COB LED displays, including their extremely high contrast ratio, increased brightness, and wider color spectrum. Long-term improvements in COB LED display efficiency, current density, and lamp bead stability are possible thanks to the prospect of smaller pixel pitches, a more straightforward packaging technique, and good heat dissipation performance. This will encourage the ongoing development of Micro LED display screens.

In addition to assisting the display industry in its transition to the UHD age of p0.Xmm, COB LED technology also creates a new environment for creative, forward-thinking uses of LED display screens. Future XR and meta-universe applications will be continuously and thoroughly integrated with COB LED display technology. It keeps tightening up its specifications for the unit display area resolution level and other information-carrying capacity indications. Future high-end display applications for COB LED technology will be built on the cutting edge of ultra-micro pitch technology.

RIGARD small pitch LED screens

 

The secret to unlocking the enormous potential for future UHD display development is the specialized market for narrow-pitch display technology. You can consult for RIGARD narrow pixel pitch LEDs if you are looking for Mini LED screens or even Micro LED screens. We have a sizable market share in many different kinds of small-pitch LED displays thanks to our mastery of COB technology. Moreover, RIGARD fine pitch LED displays can offer you excellent image quality, and consistent and accurate color performance with refresh rates up to 3840 Hz, and brightness levels of 4000 nits. 

Want to learn more about COB LED technology and small-pitch LED display screens? RIGARD will be pleased to assist you if you contact us right away!

Outdoor LED Display Solution: P1.5 and P1.8 LED Display

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As the pandemic begins to wane, more and more outdoor activities are being done one after another, which is causing the outdoor display industry to once again see a resurgence. Since fine pixel pitch LED display is the current display technology, outdoor LED displays are gradually progressing toward ultra-high definition and multi-value added features.

The pixel pitch, or how closely the tiny light-emitting pixels can be arranged on the LED display, has become a major topic of discussion in recent years when it comes to high-definition displays for outdoor LED screens.

What is Pixel Pitch?

Pixel pitch describes the density of each tiny LED pixel on an LED display and is the vertical and horizontal distance between the center points of each LED pixel. Pixel pitch is sometimes referred to as pitch or dot pitch, abbreviated as “P” and measured in millimeters. Thus a P1.0 LED display denotes an LED display with an LED pixel pitch of 1 mm.

The fixed-size circuit boards and backplanes sequentially mounted with LED beads are called LED modules. These LED modules are seamlessly stitched and stacked together to form a large indoor or outdoor LED wall.

Pixel pitch is important because it affects the visual quality of the outdoor display. Since pixel pitch represents the amount of space between two pixels, a smaller pixel pitch indicates less white space between pixels, which equates to higher pixel density and higher screen resolution.

Images can have smoother edges and better detail thanks to higher pixel density and screen resolution. It allows the viewers to get closer to the screen and yet enjoy a high definition image without the distraction of identifying individual split pixels.

Development of Outdoor LED Display

In Past years, the development of LED screens accelerated. At the moment, LED inline lights hold the top spot in the market for outdoor LED displays. The special nature of the straight plug itself determines the large point spacing between the LED lights, typically 4 mm, 5 mm or even larger.

The first outdoor LED displays to hit the market were for huge billboards in shopping malls and on highways. The visuals on the screens looked fantastic from hundreds of feet away, but when you approached close, the text and photos looked horrible.

People are increasingly expecting to see the image of a direct-view LED display up close as outdoor LED screens are used more frequently. The demand for high-definition viewing effects has led to the trend of pixel pitch of outdoor LED displays downsizing. Therefore, the space is getting smaller and smaller as LED technology develops and manufacturing techniques improve.

The pixel pitch of outdoor LED screens, LED advertising screens, and outdoor LED signs has gradually decreased from P10 to P3, P2.5, and is now capable of P1.8 and P1.5.

● P1.5 LED Display

P1.5 LED display refers to the LED module in the LED pixel pitch of 1.5mm, pixel density of up to 444,444 per square meters and the minimum viewing distance of 1.5 meters.

● P1.8 LED Display

P1.8 LED display refers to the LED module in the LED pixel pitch of 1.8mm, pixel density of 288,906 per square meters, and the minimum viewing distance of 1.8 meters.

P1.5 LED displays and P1.8 LED displays provide more pixels to form an image on the display for spectacular high definition image quality when compared to P20 and P16 LED displays. P1.5 LED displays feature a closer ideal viewing distance and greater resolution as a result.

Additionally, the narrow pixel pitch LED display technology, represented by P1.8 and P1.5 LED displays, is renowned for its great brightness, energy efficiency, and extended life. Wider viewing angles are also made possible by this technology, allowing images to be clearly seen from farther away or from a variety of angles. Narrow pixel pitch LED display screen also provides a larger color range and higher brightness.

Fine pixel outdoor LED displays are now widely used in applications where people can see the screen up close, such as advertising in airports and rail terminals, seamless LED video wall centers in control and operations rooms, and in parking lots of public and private buildings.

RIGARD Narrow Pixel Outdoor LED Displays

RIGARD has overcome the technological barrier and achieved a reduced pixel pitch of P1.8 and P1.5 for outdoor LED display, while the pixel pitch of the majority of present outdoor LED screens can only accomplish P2.5.

1. Superior Image Quality

As more and more businesses turn to outdoor LED displays to enhance the customer experience, RIGARD’s P1.5 LED displays and P1.8 LED displays offer the ideal combination of superior image quality and intuitive ease of use. We use video processing technology combined with high dynamic range (HDR) image optimization to add clarity and detail to the presentation of featured content, providing your audiences with more realistic and memorable content.

2. High Definition Image Display

RIGARD’s P1.5 LED displays and P1.8 LED displays feature refresh rates up to 3840 Hz and brightness levels up to 4000 nits. By using custom algorithms to analyze and optimize brightness levels in each content scene, our narrow pixel outdoor LED display screens provide you with bright and high-definition image displays.

3. Accurate Color Representation

Low grayscale levels on conventional LED displays make it difficult to represent red, green, and blue colors properly and without artifacts. RIGARD, however, overcomes these difficulties with the outstanding outdoor LED display technology, which boosts image color fidelity by keeping constant R/G/B levels. As a result, even in low-light settings like outdoor stage LED displays at night, our P1.5 LED displays and P1.8 LED displays can display content in the best quality with consistent and accurate color performance.

4. Flexible Installation

RIGARD’s outdoor display screens have a compact design with a 45° angle for high-precision stitching for more installation freedom. With no need for aisle space, our P1.5 and P1.8 LED displays provide full frontal access to important signage components, while complementing back access makes maintenance simpler and quicker.

5. Durable Performance

Outdoor LED displays are subject to stricter environmental adaptation standards than indoor displays. The P1.5 and P1.8 LED displays from RIGARD include high-performance silicone lamp faces that are waterproof on both sides. It can withstand moisture and salt spray even in hostile environments, extending the service life. To further guarantee that the narrow pixel pitch outdoor LED screens can function correctly in all usage circumstances, we will conduct extensive high and low temperature tests as well as salt spray tests before they are sent out for display applications in unique geographic regions.

There are more chances than ever for high-definition LED displays to offer an engaging visual experience when people are outdoors, whether it be LED scoreboards and stage backdrops or LED advertising billboards and traffic signs. And RIGARD narrow pixel pitch outdoor LED display solutions are made to suit your requirements.