boe lcd display free sample

Since the Company’s inception by a team of enterprising academics at the University of Hong Kong in 1978, Varitronix have grown to become one of the leading manufacturers of Liquid Crystal Displays through years of innovation in research, design, production scalability, and technology advancement.

Through the following years of finding local success, Varitronix envisioned a much larger scale operation for the ever-increasing demand for displays. The trajectory plan eventually led the Company to be officially listed on the Hong Kong Stock Exchange in 1991 (HKSE code: 710), continuing its influence and strong presence to serve customers at the local, national, and global levels.

In 2016, BOE, an IoT company providing intelligent interface products and services for information interaction and human health, sought interest and became a major shareholder of Varitronix, which fueled the Company into the next great leap forward. BOE Varitronix, as the Company is now called, reflects purely on our integration leading to sustainable development in business, innovation technology, capital, and resource utilization.

Nearly half a century later, BOE Varitronix continues its time-honored tradition in providing the one stop shop for the latest display technologies, backed up by solid research and commitment to quality, customized to the individual needs, and delivered economically and efficiently.

At Electronica 2018 in Munich (13-16 November) Digital View will be exhibiting a number of new LCD controller products together with examples of connectivity for some of the currently trending display products such as bar type displays. For example here is a BOE 1280 x 92 pixel LCD panel together with the Digital View DD-1920-HDMI controller.

We have some updates from one of the smaller LCD panel manufacturers BOE about their panel development plans. This is BOE as a panel manufacturer, as opposed to any specific monitor/display manufacturer, but it gives an indication of where monitors are likely to go in the future by looking ahead at the panel production plans. Please keep in mind that the production dates are not set in stone and may change, and there is then also a lag of several months before a panel is produced, then used in a display and launched to market. We have updated our panel parts database with all the new information we have as well as best we can.

A lot of the information we have focused on technology improvements in general, and there is less specific information about actual panels and their specs than we have from other manufacturers. We will try and summarise as best we can. BOE are focusing their panel development and investment on several key themes:

If you read our LG.Display update you will be familiar with “IPS Black”, their new technology for offering improved black depth, contrast ratio and off-angle viewing of dark content. LG.Display aren’t the only ones investing in development to improve the contrast ratio of IPS panels. BOE are also doing something similar with their ADS technology (IPS-type) and aim to offer contrast ratios of 2000:1 later this year through their so-called “True Black” technology.

There were plans to produce samples of new panels in 23.8″ and 27″ size with 2560 x 1440 resolutions during Q2 2022 which means these would hopefully be available for display manufacturers to explore for their monitors now. Then later on around Q3 2022 there would be 27″ and 31.5″ models with 3840 x 2160 “4K” resolutions. Finally, around Q4 2022 there are plans to produce a sample of a 34″ 3440 x 1440 resolution panel. It will be very interesting to see what improvement this new technology might bring.

One area BOE are developing is the use of a new “OQD” film (we believe this stands for Oxide Quantum Dot). They report that this has a few advantages over traditional QD coatings including being toxic element-free (QD contains Cd/Se apparently), has an improved light efficiency (~90% vs ~70%), no edge degradation and offers the same kind of benefits with wide colour gamut boosting it up to around 170% sRGB.

BOE should already have the first generation 1 panel in production now offering 99.5% coverage of DCI-P3 and Adobe RGB spaces, as well as 83% BT.2020. There is a 27″ sized panels (panel tech not listed but we expect this to be their ADS technology, IPS-type) with 3840 x 2160 “4K” resolution which features this OQD coating and the above mentioned colour space coverage. It has a 300 cd/m2 brightness and has been in mass production since Sept 2020.

BOE also aim to boost this colour gamut a little further with generation 3, with coverage up to 90% BT.2020. They are planning a 31.5″ sized panel (tech not listed but again expected to be IPS-type) with 3840 x 2160 “4K” resolution and 500 cd/m2 brightness (SDR), and HDR 600 support. Production is now listed for Q2 2023.

BOE are also focusing on increasing the resolution of their monitor panels in line with what we see happening in video recording, streaming services and mobile/tablet devices. There are plans for several new panels.

BOE are also focusing on developing new panel options with more local dimming zones for improved HDR experiences in the desktop monitor space. There will be panels produced from 27″ all the way up to 44.5″ with local dimming zones startingfrom 1,152 and will all support HDR 1000. Unless otherwise stated, these are all IPS-type panels.

BOE are also focusing on new technologies to enhance the HDR experience further than Mini LED backlights, with even more finite control of the dimming zones and in an effort to compete with the ever-popular OLED technology in this space. One such development is in their BD Cell technology which they say will help work towards pixel-level dimming, has fast operating latency and will help reduce or eliminate halos and blooming on content.

While quite old now, the following comes from a May 2020 BOE press release talking about BD Cell usage for their 65″ panel which win a SID 2020 Display Industry award, telling us more about what this technology can offer:

As a breakthrough in thin-film transistor (TFT)-LCD technology, BOE’s dual-cell panel—referred to as “BD Cell” for short—offers several important technical advancements that conventional LCD screens don’t. The display uses pixel-level ultra-fine backlight control technology and a brand-new integrated circuit (IC) driving technology to make the million-level contrast ratio rate and 12 bits’ color depth come true, accurately displaying more natural and true-to-life colors. The contrast ratio of a conventional LCD screen is 3,000:1 with 0.2 nits as the lowest brightness. The BD Cell’s screen can raise the contrast ratio up to 150,000:1 and decreasing brightness to 0.003 nit. In terms of combining LED local dimming with BD Cell technology, the contrast ratio can be as high as 2,000,000:1. Moreover, while a conventional LCD screen’s color depth is 8 bit, BD Cell is capable of boosting the color depth as high as 12 bit with an enhanced IC driving algorithm. On the other hand, BD Cell incorporates advantages of an LCD screen’s stableness and technological maturity, with no image sticking.

BOE also have a focus on improving their panel options for gaming screens with their ADS (IPS-type) technology. Already in mass production are a range of panels in sizes of 23.8″, 27″, 31.5″, 29″ and 34″ with a range of high refresh rates up to 240Hz available.

BOE are also expanding their range of VA-type technology panels, with options planned from 23.8″ all the way up to 44.5″ in size. The models in development or in planning are:

Aimed at improving productivity for general and office work, BOE are planning a new 28.2″ sized panel which has an unusual 3:2 aspect ratio. Designed to replace 2x 19.5″ sized panels, this has a 3840 x 2560 resolution. It also has a wide colour gamut with 98% DCI-P3 and 400 nits brightness. It should be in mass production now apparently.

There’s still a portion of the market who prefer 16:10 aspect ratio screens to common 16:9 offerings. This has commonly been in the 24″ space with 1920 x 1200 resolutions in 16:10 format offering a bit of a vertical boost compared with the common 1920 x 1080 resolutions of the 16:9 format. BOE are still investing in this area but there’s been a change in direction since our last update and rather than focusing on another 24″ panel, they are instead developing a 25.9″ sized panel with a 2560 x 1600 resolution (16:10 aspect ratio). This will offer 15.6% more screen area than a 24″ panel and still a decent 117 PPI. There is a 10-bit colour depth and wide 95% DCI-P3 / 99% Adobe RGB colour gamut listed too. No production dates are listed for this one.

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AV080WSM-NW0is a color active matrix TFT LCD module using amorphous silicon TFT" s (Thin Film Transistors) as anactive switching devices. It is a transmissive type displayoperating in the normal black. The TFT-LCD has a 8.0 inch diagonally measured active area with WSVGA resolutions (1024 horizontal by 600 vertical pixel arrays). Each pixel is divided into RED, GREEN, BLUE dots which are arranged in vertical stripe and this panel can display 16.7M colors. The TFT-LCD panel used for this module is adapted for a low reflection and higher Luminance type.

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Different displays have different characteristics, just tell Panox Display your application, and operating environment, Panox Display will suggest a suitable display for you.

But Panox Display is not a school, if customers don`t know the basic knowledge to design circuit board, we suggest using our controller board to drive the display.

First, you need to check whether this display has On-cell or In-cell touch panel, if has, it only needs to add a cover glass on it. If not, it needs an external touch panel.

If you don`t know or don`t want to write a display program on Raspberry Pi, it`s better to get an HDMI controller board from us, and Panox Display will send a config.txt file for reference.

Different displays have different characteristics, just tell Panox Display your application, and operating environment, Panox Display will suggest a suitable display for you.

But Panox Display is not a school, if customers don`t know the basic knowledge to design circuit board, we suggest using our controller board to drive the display.

First, you need to check whether this display has On-cell or In-cell touch panel, if has, it only needs to add a cover glass on it. If not, it needs an external touch panel.

If you don`t know or don`t want to write a display program on Raspberry Pi, it`s better to get an HDMI controller board from us, and Panox Display will send a config.txt file for reference.

Monitor Display Panel BOE monitor display panels cover a full range of products from 18.5 inches to 43 inches, with high image quality, wide viewing angles, high refresh rate, low power consumption, a borderless design, and other features. Resolution of up to 8K can be achieved. The products are widely used in entertainment, office, professional design, and other fields.

1.What advantages do you have?A. Fast delivery time, can support sample services, products are in stock, can be supplied at any time, 24 hours online service, products have passed strict certification, and the buyer has good results.2.Q: How can I get the samples?A: Send inquiry → Offer quotation →Confirm quotation & pay tooling charge → Provide drawing → confirm drawing → make tooling & samples → Samples finished → Delivery via freight or sea collect.3.Q: How long can I expect to get the sample?A: Contour drawing: 2-4 days Sample time: 7-15 days.4.Q: Can you design the lcd in acccordance with our demand?A: Sure.We will give you the best tooling charge.5.Q: How to place orders ?A: If you confirm samples ok, Please send us your purchase order by Email or Fax , Then we will send you an Invoice for deposit payment. We need to know the following information of your order.

As Apple has its contract manufacturers like Foxconn and Pegatron building the new 2022 iPhone 14 series that will be unveiled in under four weeks, there have been some issues. The company has had to deal with the chip shortage, a shortage of workers, and problems with the coating on the cameras of some units reportedly cracking. Now, you can add power rationing to the list since it is affecting production at display supplier BOE at its factory in Sichuan, a province in China.

Reuters reports that BOE says it will have to "make adjustments" and it expects that there will be "no major impact on its overall operating performance." BOE has four assembly lines turning out displays in its Sichuan factory. Two produce LCD screens while the other two churn out AMOLED displays. TF International"s reliable Apple analyst Ming-Chi Kuo points out that the company makes a small number of displays for the iPhone 13 series and older models.

BOE could also end up supplying Apple with some screens for the iPhone 14 series. If so, it means that Apple is desperate enough to find suppliers for its iPhone 14 screens that it dismissed BOE"s unilateral decision to widen the width of the thin film transistors (TFT) used on its OLED panels for the iPhone 13 models without informing Apple. For some reason, BOE was delusional enough to believe that Apple wouldn"t notice.

Apparently, BOE"s displays were failing quality-control tests and as a result, it decided to make things easier for it by widening the width of the transistors being used by the screens. Yes, BOE"s little cheat did manage to hike its yields, but it almost cost the company its hard-earned relationship with Apple when the latter figured out the scheme. Lucky for BOE, Apple did decide to give it another chance although as we said, the suits in Cupertino might have begun to feel the sweat beads of desperation first.

Apple is expected to introduce four new models next month. We should see the 6.1-inch iPhone 14, the 6.7-inch iPhone 14 Max, the 6.1-inch iPhone 14 Pro, and the 6.7-inch iPhone Pro Max. Apple is expected to use a better quality display on the Pro models than on the non-Pro models.

And there are also the usual differences in the camera department, and of course, the Pro models will have the ProMotion display that offers a variable refresh rate that redraws the display up to 120 times each second. And of course, you can expect a difference in pricing between the Pro and non-Pro iPhone 14 models.

Startup Rohinni teamed up with Beijing-based display giant BOE to develop LCD displays and video walls. The new joint venture, BOE Pixey, in the works since 2017, leverages Rohinni’s miniLED and microLED technology and BOE’s leadership in the display market to bring micron-scale LEDs to the mass market. This is the Coeur d’Alene, Idaho-based company’s third joint venture in three years.

BOE Pixey will focus on designing and building LCD display backlights, direct-emission displays, and display-related sensors for high-performance televisions, video walls, and other large-format end products. The joint venture will integrate Rohinni’s high-speed and high-accuracy miniLED and microLED manufacturing process with BOE’s design, development, and manufacturing capabilities to create ultra-thin, high-performance displays.

Direct-emission displays, including video walls, are made by precisely placing hundreds of thousands of miniLEDs or microLEDs directly on a substrate using BOE Pixey’s approach, and offer a significantly better viewing experience than currently available video walls built from packaged LEDs, said Rohinni’s CEO Matthew Gerber.

But this changed with the development of Rohinni’s miniLED and microLED manufacturing process that enables high-speed and high-accuracy die placement. The company has more than 90 patents either granted or in progress for its direct-transfer placement process and related production processes as well as products such as displays, keyboards, logos, and diffusers.

“From a brightness standpoint because we have so many more LEDs in the backlight layer, we can achieve four to five times brighter displays than existing high-end TVs,” he continued. “And depending on how many LEDs are in the backlight, we can get significantly better or similar orders of magnitude improvements in contrast ratios.

The third joint venture, BOE Pixey, in partnership with China-based BOE, was announced in December 2019. Based in China, this joint venture focuses on building LCD display backlights, direct-emission displays, and high-performance televisions, video walls, and other large-format end products.

“You hit on the core strategic decision that’s in front of us in about six to nine months after we get this BOE joint venture up and running. We probably have room to do another two or three over the next few years,” said Gerber.

For LCD TV displays and video walls, benefits fall into three categories – manufacturing production, picture quality, and functionality. Benefits range from reducing production time and improving yields to achieving a better picture quality, enabling larger size modules, and opening up new features and functionality such as embedded sensors.

Gerber said LCDs using miniLED backlights outperform other LCD technologies in a range of parameters, including thickness, contrast ratio, brightness, and consistency.

The new company expects consumer devices using the BOE Pixey miniLED and microLED-based displays to be available in the second half of 2020. Rohinni will demo its high-performance display products at the Consumer Electronics Show (CES) in January 2020.

As BOE Pixey ramps up its production capabilities, Rohinni will continue to develop faster miniLED placement processes, new substrate materials, and new form factors.

“As a company, we are not going to stand still. Our end of the partnership with this joint venture [BOE Pixey] is to continue to deliver improvements to our existing process,” said Gerber. “We want to get speeds faster and move to larger form factors.”

“Because BOE Pixey will be a standalone company we also want to make sure that we enable the joint venture to create and protect its own IP,” he added.

The company also is developing smaller sized microLEDs in its labs, which will allow the company to build smaller direct emissions displays. “ The goal is to move out of the lab and into commercial operation in 2020,” said Gerber.