lcd screen near me made in china

This website is using a security service to protect itself from online attacks. The action you just performed triggered the security solution. There are several actions that could trigger this block including submitting a certain word or phrase, a SQL command or malformed data.

This website is using a security service to protect itself from online attacks. The action you just performed triggered the security solution. There are several actions that could trigger this block including submitting a certain word or phrase, a SQL command or malformed data.

Our company specializes in developing solutions that arerenowned across the globe and meet expectations of the most demanding customers. Orient Display can boast incredibly fast order processing - usually it takes us only 4-5 weeks to produce LCD panels and we do our best to deliver your custom display modules, touch screens or TFT and IPS LCD displays within 5-8 weeks. Thanks to being in the business for such a noteworthy period of time, experts working at our display store have gained valuable experience in the automotive, appliances, industrial, marine, medical and consumer electronics industries. We’ve been able to create top-notch, specialized factories that allow us to manufacture quality custom display solutions at attractive prices. Our products comply with standards such as ISO 9001, ISO 14001, QC 080000, ISO/TS 16949 and PPM Process Control. All of this makes us the finest display manufacturer in the market.

Without a shadow of a doubt, Orient Display stands out from other custom display manufacturers. Why? Because we employ 3600 specialists, includingmore than 720 engineers that constantly research available solutions in order to refine strategies that allow us to keep up with the latest technologiesand manufacture the finest displays showing our innovative and creative approach. We continuously strive to improve our skills and stay up to date with the changing world of displays so that we can provide our customers with supreme, cutting-edge solutions that make their lives easier and more enjoyable.

Customer service is another element we are particularly proud of. To facilitate the pre-production and product development process, thousands of standard solutions are stored in our warehouses. This ensures efficient order realization which is a recipe to win the hearts of customers who chose Orient Display. We always go to great lengths to respond to any inquiries and questions in less than 24 hours which proves that we treat buyers with due respect.

Choosing services offered by Orient Display equals a fair, side-by-side cooperation between the customer and our specialists. In each and every project, we strive to develop the most appropriate concepts and prototypes that allow us to seamlessly deliver satisfactory end-products. Forget about irritating employee turnover - with us, you will always work with a prepared expert informed about your needs.

In a nutshell, Orient Display means 18% of global market share for automotive touch screen displays, emphasis on innovation, flexibility and customer satisfaction.Don"t wait and see for yourself that the game is worth the candle!

This website is using a security service to protect itself from online attacks. The action you just performed triggered the security solution. There are several actions that could trigger this block including submitting a certain word or phrase, a SQL command or malformed data.

Since the iPhone 7/7 Plus has been released for quite a long time, finally the China made iPhone 7/7 Plus screen replacementscame out in the market. we’ve got some iPhone 7 series LCD screen replacements samples and done some tests on them, now let’s take a closer look at these new iPhone 7 series LCD screen replacements!(TianmaandLGsources for testing)

After installing all the sample screens to the iPhone 7/7 Plus rear housing assembly, we found that all the China made iPhone 7 series screen replacements are fitting well just like the original ones - the home button fits well, the screen assembly and the rear housing also fits well.

From the picture below, we can see that there is no difference between the China made iPhone 7 series display and the original ones, however, back to the rear side, we can easily figure out which one is which, cause the original one has Apple logo on it while the China made screen has none.

By comparing these two iPhone 7 screens, we can find that the screen flex cables are much different, there are extra IC on the China-Made iPhone 7 screen while the original one has none. And the original iPhone 7 series screen flex cable is integrated together while on the China-Made iPhone 7 series screen the touch function flex cable is soldered to the display and 3D touch flex cable.

Another difference between the original and China made iPhone 7 screen replacements is the exposed IC on the after-market iPhone screen, just like other China-Made iPhone 5 or 6 series screen replacement, which has more potential risk of electrostatic damage and more likely to get damaged and this problem needs to be improved.

During our test, we found that the display color between our after-market iPhone 7 screen and original screen seems a little different although they are not effecting the touch function. And to be honest, there may have some black dots on the screen because of impurities within the screen module when laminating the LCD and backlight together, without any doubt, this can be solved with technical improvement.

The screen touch sensitivity is another big concern for all of us, luckily, during our test, almost all home button and touch functionality on both iPhone 7 and 7 Plus works well, except one piece of iPhone 7, the 3D touch function is not acting so well on the central part of the screen.

The China-Made iPhone 7 series LCD screen assembly replacement still remains to be improved in quality and performance compared to the original ones, the exposed IC, heavier screen flex cable ribbon, and the screen color difference, the touch function stability, although the price is attractive. However, the China made iPhone 7 series screen replacement is under the improvement, and sooner or later their quality and performance can be quite close to original ones and acceptable, if you"re going to stock up some non-original iPhone 7 series LCD screen replacement, pay more attention and we’ll keep you updated with further information about after-market iPhone 7 series screen replacement!

Asia has long dominated the display module TFT LCD manufacturers’ scene. After all, most major display module manufacturers can be found in countries like China, South Korea, Japan, and India.

However, the United States doesn’t fall short of its display module manufacturers. Most American module companies may not be as well-known as their Asian counterparts, but they still produce high-quality display products for both consumers and industrial clients.

In this post, we’ll list down 7 best display module TFT LCD manufacturers in the USA. We’ll see why these companies deserve recognition as top players in the American display module industry.

STONE Technologies is a leading display module TFT LCD manufacturer in the world. The company is based in Beijing, China, and has been in operations since 2010. STONE quickly grew to become one of the most trusted display module manufacturers in 14 years.

These products are all widely used in various industries such as in medicine, home security, automotive, energy field solar charging, and domestic equipment use.

Now, let’s move on to the list of the best display module manufacturers in the USA. These companies are your best picks if you need to find a display module TFT LCD manufacturer based in the United States:

Planar Systems is a digital display company headquartered in Hillsboro, Oregon. It specializes in providing digital display solutions such as LCD video walls and large format LCD displays.

The company started in 1983 as a corporate spin-off from the American oscilloscope company Tektronix. In 2015, Planar Systems became a subsidiary of the Chinese manufacturer Leyard Optoelectronics.

Planar’s manufacturing facilities are located in Finland, France, and North America. Specifically, large-format displays are manufactured and assembled in Albi, France.

Another thing that makes Planar successful is its relentless focus on its customers. The company listens to what each customer requires so that they can come up with effective display solutions to address these needs.

Microtips Technology is a global electronics manufacturer based in Orlando, Florida. The company was established in 1990 and has grown into a strong fixture in the LCD industry.

Taiwan and Mainland China are two Asian countries where Microtips set up their manufacturing plants. The factories boast of modern equipment, high-quality raw materials, and stringent quality control measures. Microtips even earned ISO9001 and ISO14001 certifications for excellent quality management.

What makes Microtips a great display module TFT LCD manufacturer in the USA lies in its close ties with all its customers. It does so by establishing a good rapport with its clients starting from the initial product discussions. Microtips manages to keep this exceptional rapport throughout the entire client relationship by:

Displaytech is an American display module TFT LCD manufacturer headquartered in Carlsbad, California. It was founded in 1989 and is part of several companies under the Seacomp group. The company specializes in manufacturing small to medium-sized LCD modules for various devices across all possible industries.

The company also manufactures embedded TFT devices, interface boards, and LCD development boards. Also, Displaytech offers design services for embedded products, display-based PCB assemblies, and turnkey products.

Displaytech makes it easy for clients to create their own customized LCD modules. There is a feature called Design Your Custom LCD Panel found on their site. Clients simply need to input their specifications such as their desired dimensions, LCD configuration, attributes, connector type, operating and storage temperature, and other pertinent information. Clients can then submit this form to Displaytech to get feedback, suggestions, and quotes.

Clients are assured of high-quality products from Displaytech. This is because of the numerous ISO certifications that the company holds for medical devices, automotive, and quality management. Displaytech also holds RoHS and REACH certifications.

A vast product range, good customization options, and responsive customer service – all these factors make Displaytech among the leading LCD manufacturers in the USA.

Products that Phoenix Display offers include standard, semi-custom, and fully-customized LCD modules. Specifically, these products comprise Phoenix Display’s offerings:

Clients flock to Phoenix Display because of their decades-long experience in the display manufacturing field. The company also combines its technical expertise with its competitive manufacturing capabilities to produce the best possible LCD products for its clients.

True Vision Displays is an American display module TFT LCD manufacturing company located at Cerritos, California. It specializes in LCD display solutions for special applications in modern industries. Most of their clients come from highly-demanding fields such as aerospace, defense, medical, and financial industries.

The company produces several types of TFT LCD products. Most of them are industrial-grade and comes in various resolution types such as VGA, QVGA, XGA, and SXGA. Clients may also select product enclosures for these modules.

All products feature high-bright LCD systems that come from the company’s proprietary low-power LED backlight technology. The modules and screens also come in ruggedized forms perfect for highly-demanding outdoor industrial use.

Slow but steady growth has always been True Vision Display’s business strategy. And the company continues to be known globally through its excellent quality display products, robust research and development team, top-of-the-line manufacturing facilities, and straightforward client communication.

LXD Incorporated is among the earliest LCD manufacturers in the world. The company was founded in 1968 by James Fergason under the name International Liquid Xtal Company (ILIXCO). Its first headquarters was in Kent, Ohio. At present, LXD is based in Raleigh, North Carolina.

All of their display modules can be customized to fit any kind of specifications their clients may require. Display modules also pass through a series of reliability tests before leaving the manufacturing line. As such, LXD’s products can withstand extreme outdoor environments and operates on a wide range of temperature conditions.

LXD has research centers and factories in both the United States and China. The US-based headquarters feature a massive 30,000 square feet of manufacturing and research development centers. Meanwhile, LXD’s Chinese facilities feature a large 5,000 square meters of cleanrooms for manufacturing modular and glass products.

Cystalfontz America is a leading supplier and manufacturer of HMI display solutions. The company is located in Spokane Valley, Washington. It has been in the display solutions business since 1998.

Crystalfontz takes pride in its ISO 9001 certification, meaning the company has effective quality control measures in place for all of its products. After all, providing high-quality products to all customers remains the company’s topmost priority. Hence, many clients from small hobbyists to large top-tier American companies partner with Crystalfontz for their display solution needs.

We’ve listed the top 7 display module TFT LCD manufacturers in the USA. All these companies may not be as well-known as other Asian manufacturers are, but they are equally competent and can deliver high-quality display products according to the client’s specifications. Contact any of them if you need a US-based manufacturer to service your display solutions needs.

We also briefly touched on STONE Technologies, another excellent LCD module manufacturer based in China. Consider partnering with STONE if you want top-of-the-line smart LCD products and you’re not necessarily looking for a US-based manufacturer. STONE will surely provide the right display solution for your needs anywhere you are on the globe.

Model numbers: A2651 (United States, Puerto Rico), A2893 (Canada, Guam, Japan, Mexico, Saudi Arabia, and U.S. Virgin Islands), A2896 (China mainland, Hong Kong, Macao), A2895 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2894 (other countries and regions)

Details: iPhone 14 Pro Max has a 6.7-inch1 all-screen Super Retina XDR display. The back is premium matte glass, and there"s a flat-edge stainless steel band around the frame. The side button is on the right side of the device. There are three cameras on the back: Ultra Wide, Main, and Telephoto. There"s a LiDAR Scanner on the back. There"s an LED True Tone flash on the back. In the United States, there is no SIM tray. In other countries or regions, there"s a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card.

Model numbers: A2659 (United States, Puerto Rico), A2889 (Canada, Guam, Japan, Mexico, Saudi Arabia, and U.S. Virgin Islands), A2892 (China mainland, Hong Kong, Macao), A2891 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2890 (other countries and regions)

Details: iPhone 14 Pro has a 6.1-inch1 all-screen Super Retina XDR display. The back is premium matte glass, and there"s a flat-edge stainless steel band around the frame. The side button is on the right side of the device. There are three cameras on the back: Ultra Wide, Main, and Telephoto. There"s a LiDAR Scanner on the back. There"s an LED True Tone flash on the back. In the United States, there is no SIM tray. In other countries or regions, there"s a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card.

Model numbers: A2632 (United States, Puerto Rico), A2885 (Canada, Guam, Japan, Mexico, Saudi Arabia, and U.S. Virgin Islands), A2888 (China mainland, Hong Kong, Macao), A2887 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2886 (other countries and regions)

Details: The iPhone 14 Plus has a 6.7 inch1 all-screen Super Retina XDR display. The back is glass, and there"s a flat-edged anodized aluminum band around the frame. The side button is on the right side of the device. There are two cameras on the back: Ultra Wide and Main. In the United States, there is no SIM tray. In other countries or regions, there"s a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card.

Model numbers: A2649 (United States, Puerto Rico), A2881 (Canada, Guam, Japan, Mexico, Saudi Arabia, and U.S. Virgin Islands), A2884 (China mainland, Hong Kong, Macao), A2883 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2882 (other countries and regions)

Details: The iPhone 14 has a 6.1 inch1 all-screen Super Retina XDR display. The back is glass, and there"s a flat-edged anodized aluminum band around the frame. The side button is on the right side of the device. There are two cameras on the back: Ultra Wide and Main. In the United States, there is no SIM tray. In other countries or regions, there"s a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card.

Model numbers: A2595 (United States, Canada, Puerto Rico, U.S. Virgin Islands, Guam, Mexico, Saudi Arabia), A2782 (Japan), A2784 (Russia, Armenia, Belarus, Kazakhstan, Kyrgyzstan), A2785 (China), A2783 (other countries and regions)

Details: The display is 4.7 inches (diagonal). The glass front is flat with curved edges. The back is glass, and there"s an anodized aluminum band around the frame. The side button is on the right side of the device. The device has a solid-state Home button with Touch ID. There"s a 12 MP Wide camera on the back. There"s an LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Model numbers: A2484 (United States), A2641 (Canada, Japan, Mexico, Saudi Arabia), A2644 (China mainland, Hong Kong, Macao), A2645 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2643 (other countries and regions)

Details: iPhone 13 Pro Max has a 6.7-inch1 all-screen Super Retina XDR display with ProMotion. The back is textured matte glass, and there"s a flat-edge stainless steel band around the frame. The side button is on the right side of the device. There are three 12 MP cameras on the back: Ultra Wide, Wide, and Telephoto. There"s a LiDAR Scanner on the back. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Model numbers: A2483 (United States), A2636 (Canada, Japan, Mexico, Saudi Arabia), A2639 (China mainland, Hong Kong, Macao), A2640 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2638 (other countries and regions)

Details: iPhone 13 Pro has a 6.1-inch1 all-screen Super Retina XDR display with ProMotion. The back is textured matte glass, and there"s a flat-edge stainless steel band around the frame. The side button is on the right side of the device. There are three 12 MP cameras on the back: Ultra Wide, Wide, and Telephoto. There"s a LiDAR Scanner on the back. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Model numbers: A2482 (United States), A2631 (Canada, Japan, Mexico, Saudi Arabia), A2634 (China mainland, Hong Kong, Macao), A2635 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2633 (other countires and regions)

Details: iPhone 13 has a 6.1-inch1 all-screen Super Retina XDR display. The back is glass, and there"s a flat-edged anodized aluminum band around the frame. The side button is on the right side of the device. There are two 12 MP cameras on the back: Ultra Wide and Wide. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Model numbers: A2481 (United States), A2626 (Canada, Japan, Mexico, Saudi Arabia), A2629 (China mainland), A2630 (Armenia, Belarus, Kazakhstan, Kyrgyzstan, Russia), A2628 (other countries and regions)

Details: iPhone 13 mini has a 5.4-inch1 all-screen Super Retina XDR display. The back is glass, and there"s a flat-edged anodized aluminum band around the frame. The side button is on the right side of the device. There are two 12 MP cameras on the back: Ultra Wide and Wide. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 12 Pro Max has a 6.7-inch1 all-screen Super Retina XDR display. The back is textured matte glass, and there"s a flat-edge stainless steel band around the frame. The side button is on the right side of the device. There are three 12 MP cameras on the back: Ultra Wide, Wide, and Telephoto. There"s a LiDAR Scanner on the back. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 12 Pro has a 6.1-inch1 all-screen Super Retina XDR display. The back is textured matte glass, and there"s a flat-edge stainless steel band around the frame. The side button is on the right side of the device. There are three 12 MP cameras on the back: Ultra Wide, Wide, and Telephoto. There"s a LiDAR Scanner on the back. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 12 has a 6.1-inch1 all-screen Super Retina XDR display. The back is glass, and there"s a flat-edged anodized aluminum band around the frame. The side button is on the right side of the device. There are two 12 MP cameras on the back: Ultra Wide and Wide. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 12 mini has a 5.4-inch1 all-screen Super Retina XDR display. The back is glass, and there"s a flat-edged anodized aluminum band around the frame. The side button is on the right side of the device. There are two 12 MP cameras on the back: Ultra Wide and Wide. There"s a Dual-LED True Tone flash on the back and a SIM tray on the left side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 4.7 inches (diagonal). The glass front is flat with curved edges. The back is glass, and there"s an anodized aluminum band around the frame. The side button is on the right side of the device. The device has a solid-state Home button with Touch ID. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 11 Pro has a 5.8-inch1 all-screen Super Retina XDR display. The back is textured matte glass, and there"s a stainless steel band around the frame. The side button is on the right side of the device. There are three 12 MP cameras on the back: Ultra Wide, Wide, and Telephoto. There"s a Dual-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 11 Pro Max has a 6.5-inch1 all-screen Super Retina XDR display. The back is textured matte glass, and there"s a stainless steel band around the frame. The side button is on the right side of the device. There are three 12 MP cameras on the back: Ultra Wide, Wide, and Telephoto. There"s a Dual-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone 11 has a 6.1-inch1 Liquid Retina display. The back is glass, and there"s an anodized aluminum band around the frame. The side button is on the right side of the device. There are two 12 MP cameras on the back: Ultra Wide and Wide. There"s a Dual-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone XS has a 5.8-inch1all-screen Super Retina display. The back is glass, and there"s a stainless steel band around the frame. The side button is on the right side of the device. There are 12 MP wide-angle and telephoto cameras on the back. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone XS Max has a 6.5-inch1all-screen Super Retina display. The back is glass, and there"s a stainless steel band around the frame. The side button is on the right side of the device. There are 12 MP wide-angle and telephoto cameras on the back. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card.

Details: iPhone XR has a 6.1-inch1 Liquid Retina display. The back is glass, and there"s an anodized aluminum band around the frame. The side button is on the right side of the device. There is a 12 MP wide-angle camera on the back. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: iPhone X has a 5.8-inch1all-screen Super Retina display. The back is glass, and there"s a stainless steel band around the frame. The side button is on the right side of the device. There are 12 MP wide-angle and telephoto cameras on the back. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 4.7 inches (diagonal). The glass front is flat with curved edges. The back is glass, and there"s an anodized aluminum band around the frame. The side button is on the right side of the device. The device has a solid-state Home button with Touch ID. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 5.5 inches (diagonal). The glass front is flat with curved edges. The back is glass, and there"s an anodized aluminum band around the frame. The side button is on the right side of the device. The device has a solid-state Home button with Touch ID. There are 12 MP wide-angle and telephoto cameras on the back. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 4.7 inches (diagonal). The glass front is flat with curved edges. The back is anodized aluminum. The Sleep/Wake button is on the right side of the device. The device has a solid-state Home button with Touch ID. There"s a Quad-LEDTrue Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 5.5 inches (diagonal). The glass front is flat with curved edges. The back is anodized aluminum. The Sleep/Wake button is on the right side of the device. The device has a solid-state Home button with Touch ID. There are dual 12 MP cameras on the back. There"s a Quad-LED True Tone flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 4 inches (diagonal). The glass front is flat. The back is anodized aluminum with matte chamfered edges and a stainless steel inset logo. The Sleep/Wake button is on the top of the device. The Home button has Touch ID. There"s a True Tone LED flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the back cover.

Details: The display is 4.7 inches (diagonal). The glass front is flat with curved edges. The back is anodized aluminum with a laser-etched "S". The Sleep/Wake button is on the right side of the device. The Home button has Touch ID. There"s a True Tone LED flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 5.5 inches (diagonal). The front is flat with curved edges and is made of glass. The back is anodized aluminum with a laser-etched "S". The Sleep/Wake button is on the right side of the device. The Home button has Touch ID. There"s a True Tone LED flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the SIM tray.

Details: The display is 4.7 inches (diagonal). The front is flat with curved edges and is made of glass. The back is anodized aluminum. The Sleep/Wake button is on the right side of the device. The Home button has Touch ID. There"s a True Tone LED flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the back cover.

Details: The display is 5.5 inches (diagonal). The front has curved edges and is made of glass. The back is anodized aluminum. The Sleep/Wake button is on the right side of the device. The Home button has Touch ID. There"s a True Tone LED flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the back cover.

Details: The front is flat and made of glass. The back is anodized aluminum. The Home button contains Touch ID. There"s a True Tone LED flash on the back and a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the back cover.

Details: The front is flat and made of glass. The back is hard-coated polycarbonate (plastic). There"s a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the back cover.

Details: The front is flat and made of glass. The back is anodized aluminum. There"s a SIM tray on the right side that holds a "fourth form factor" (4FF) nano-SIM card. The IMEI is etched on the back cover.

Details: The front and back are flat and made of glass, and there"s a stainless steel band around the edges. The volume up and down buttons are marked with a "+" and "-" sign. There"s a SIM tray on the right side that holds a "third form factor" (3FF) micro-SIM card.

Details: The front and back are flat and made of glass, and there"s a stainless steel band around the edges. The volume up and down buttons are marked with a "+" and "-" sign. There"s a SIM tray on the right side that holds a "third form factor" (3FF) micro-SIM card. The CDMA model has no SIM tray.

Details: The back housing is made of plastic. The imprint on the back case is the same bright and shiny silver as the Apple logo. There"s a SIM tray on the top side that holds a "second form factor" (2FF) mini-SIM. The serial number is printed on the SIM tray.

The display has rounded corners that follow a beautiful curved design, and these corners are within a standard rectangle. When measured as a standard rectangular shape, the screen is 5.42 inches (iPhone 12 mini), 5.85 inches (iPhone X, iPhone XS, and iPhone 11 Pro), 6.06 inches (iPhone 12 Pro, iPhone 12, iPhone 11, and iPhone XR), 6.46 inches (iPhone XS Max and iPhone 11 Pro Max), and 6.68 inches (iPhone 12 Pro Max) diagonally. Actual viewable area is less.

The J-20 emerged from the late-1990s J-XX program. In 2008, the PLAAF endorsed Chengdu Aerospace Corporation"s proposal, Project 718; Shenyang"s proposed aircraft was larger than the J-20.J-9, its first design and cancelled in the 1970s, and the J-10.

Several changes were made to the third J-20 prototype, numbered "2011", which made its maiden flight in March 2014.diverterless supersonic inlet (DSI) intakes, stealth coating, streamlined underwing fairings, and redesigned vertical stabilizers. Analysts noted new equipment and devices for multi-role operations such as integrated targeting pods for precision-guided munition, and six additional passive infrared sensors can also be spotted around the aircraft.

In October 2017, Chinese state media reported that the designs of the J-20 had been finalized, and is ready for mass production as well as being combat-ready.

In January 2019, Chinese media reported that a twin-seat variant of the J-20 is rumored to be in development for use in tactical bombing, electronic warfare and carrier strike roles.

In November 2019, a J-20 painted in yellow primer coating was spotted during its flight testing by defense observers at the Chengdu Aerospace Corporation manufacturing facility. The aircraft is equipped with a new variant of WS-10 Taihang engines with serrated afterburner nozzles to enhance stealth.

Chinese media reported that a new variant of the J-20, the J-20B, was unveiled on July 8, 2020, and entered mass production the same day. The only change mentioned was that the J-20B was to be equipped with thrust vectoring control.WS-10, which he called the WS-10C. This engine has improved thrust, stealthier serrated afterburner nozzles, and higher reliability, but it is not designed for thrust vectoring, unlike the WS-10 TVC demonstrated on a J-10 in 2018 China International Aviation & Aerospace Exhibition.Zhuhai Airshow.

The development of a twin-seater variant was hinted by J-20"s chief designer in 2019.Aviation Industry Corporation of China released computer renderings of the twin-seat variant of the J-20 fighter in celebration of the 10th anniversary of the jet"s maiden flight.stealth fighter.unmanned combat aerial vehicles (UCAVs) linked via "loyal wingman" systems and sensors. The advantage of a second operator includes the potential for better interpreting and exploiting the enormous sensory data that could overload the limited cognitive and processing capacity for a single human, especially in a contested air combat environment.

The J-20 has a long and blended fuselage, with a chiseled nose section and a frameless canopy. Immediately behind the cockpit are low-observable diverterless supersonic inlet (DSI) intakes. All-moving canard surfaces with pronounced dihedral are placed behind the intakes, followed by leading edge extensions merging into the delta wing with forward-swept trailing edges. The aft section has twin outward canted all-moving fins, short but deep ventral strakes, and conventional or low-observable engine exhausts.

Leading edge extensions and body lift are incorporated to enhance performance in a canard layout. This combination is said by the designer to generate 1.2 times the lift of an ordinary canard delta, and 1.8 times more lift than an equivalent-sized pure delta configuration. The designer claims such a combination allows the use of a smaller wing, reducing supersonic drag without compromising transonic lift-to-drag characteristics that are crucial to the aircraft"s turn performance.

The use of a bubble canopy, extensive flight-control surfaces, and canard configuration for angle-of-attack control indicates J-20"s intention to operate in air-superiority missions and within-visual-range engagements. Chief test pilot Li Gang describes the J-20 as having comparable maneuverability to the Chengdu J-10 while being significantly better at low-observable (LO) performance. The J-20 is a multirole air superiority fighter, with the interceptor role being just one of the options.

The J-20 avionics aim to obtain situational awareness through advanced sensor fusion while denying situational awareness to the adversary through stealth and electronic warfare. The J-20 features an integrated avionic suite consisting of multi-spectral sensors capable of providing omnidirectional coverage.radar that J-20s use has not yet been released publicly. Some analysts believed that J-20s used Type 1475 (KLJ-5) active electronically scanned array (AESA) radar with 1856 transmit/receive modules,transmit/receive module surface in the J-16"s AESA radar system, J-20s likely contain 2000–2200 transmit/receive modules.

Prototypes after application "2011" and production models feature a revised nose section with an electro-optical/infra-red targeting system and an advanced communications suite on top of the aircraft, enabling it to datalink with other friendly platforms in service, such as airborne early-warning drones. Six electro-optic sensors called the Distributed Aperture SystemEODAS) can provide omnidirectional coverage for the pilot with a sensor fusion system combining the radar signal with the IR image to provide better situational awareness.Lockheed Martin F-35"s avionic suite.

The aircraft features a fully-digital glass cockpit with one primary large color liquid-crystal display (LCD) touchscreen, three smaller auxiliary displays, and a wide-angle holographic heads-up display (HUD).redundancy.helmet-mounted display (HMD) system, which displays combat information inside the pilots" helmet visor and facilities firing missiles at high off-boresight angle.

The main weapon bay is capable of housing both long-range air-to-air missiles (AAM; PL-12, PL-15 – PL-21) and precision-guided munitions (PGM; LS-6/50, LS-6/100),PL-10). These side bays allow closure of the bay doors prior to firing the missile, enhancing stealth and allowing the missile to be fired in the shortest possible time.autocannon or rotary cannon, suggesting the aircraft is not intended for use in short-range dogfight engagements with other aircraft but to engage from long standoff ranges with missiles such as the PL-15 and PL-21.air-to-air missiles to engage in air superiority combat with other aircraft and to destroy high-value airborne assets. Supplemental missions may include launching anti-radiation missiles and air-to-ground munitions for precision-strike missions.

While the fighter typically carries weapons internally, the wings include four hardpoints for auxiliary fuel tanks to extend the ferrying range.F-22, the J-20 is unlikely to carry fuel tanks on combat missions due to its vulnerability in such a configuration; the value of this configuration is relevant to such peacetime operations as transiting between airbases.

Analysts noted that the J-20"s airframe employs a holistic approach to reduce its radar cross-section (RCS), uniquely combining canard wings with leading edge root extensions (LERX).radome, and electroconductive canopyF-22.serpentine inlets (S-ducts) can obscure the reflective surface of the engine from radar detection. DSI intakes save weight, reduce complexity, and minimize radar signature. Additional low-observable features include a flat fuselage bottom holding an internal weapons bay, sawtooth edges on compartment doors, mesh coverings on cooling ports at the base of the vertical tails, embedded antennas, and radar-absorbent coating materials.PAK-FA.jagged-edge nozzles and tiles for greater stealth.WS-10C engine is also capable of mitigating negative effects on rear-aspect stealth.

Others have raised doubts about the use of canards on a low-observable design, stating that canards would guarantee radar detection and compromise stealth.Northrop Grumman"s proposal for the U.S. Navy"s Advanced Tactical Fighter (ATF) incorporated canards on a stealthy airframe.Joint Advanced Strike Technology (JAST) program during early development before dropping them due to complications with aircraft carrier recovery.X-36 featured canards and was considered to be extremely stealthy.Radar cross-section can be further reduced by controlling canard deflection through flight-control software, as on the Eurofighter.

In May 2018, Indian Air Chief Marshal B.S. Dhanoa claimed at a press conference that the radars on India"s Su-30MKI fighters were "good enough" and could detect a J-20 from "several kilometers away" while answering a question on whether the J-20 posed a threat to India.Royal United Services Institute noted that Chinese were possibly flying the J-20 with radar reflectors during peacetime for safety and training purposes due to the potential for accidents and identification from other aircraft or ground installations.Su-57

On 11 January 2011, the first J-20 prototype (numbered "2001") made its first flight, lasting about 15 minutes, with a Chengdu J-10B serving as the chase aircraft.Yang Wei and General Li Andong, Deputy-Director of General Armaments.

On 10 May 2012, the second prototype (numbered "2002") underwent high-speed taxiing tests, and flight testing that began later that month.pitot tube emerged,

By the end of 2014, three more pre-serial prototypes were flown, each with incremental improvements to the design. The fourth prototype "2012" was tested on 26 July 2014, sharing many similarities with the "2011". This pair of aircraft was reportedly powered by AL-31FM2 engines.

On 13 September 2015, a new prototype, marked "2016", began testing. It had noticeable improvements, such as apparently modified DSI bumps on the intakes. The DSI changes suggested the possibility of more powerful engines being used than its predecessors, likely to be an advanced 14-ton thrust derivative of the Russian AL-31 or Chinese Shenyang WS-10 turbofan engines. By 2020, the J-20 is scheduled to use the 18–19 ton WS-15 engine, enabling the jet to supercruise without using afterburners. The trapezoidal flight booms around the engines were further enlarged, possibly to accommodate rearwards-facing radars, electronic countermeasures, and jamming equipment. The fuselage was extended to the engine"s exhaust nozzles. Compared to its "2014" and "2015" predecessors, the engine"s surface area is further embedded inside the stealthy coating, providing greater rear-facing stealth against enemy detection.

In March 2017, Chinese media reported that the fighter entered service. But it still faced a series of technical challenges that needed to be tackled, including the reliability of its WS-15 engines, the aircraft"s flight control system, stealth coatings, hull materials, and infrared sensor.

In September 2018, it was reported that issues with the development of the WS-15 engine, particularly the reliability of the turbine blades overheating at top speeds were fixed.COVID-19 pandemic imposed further delays.

In October 2017, Chinese media reported that CAC initiated the serial production for the J-20 and is on a path towards achieving full operational capability with the People"s Liberation Army Air Force (PLAAF). State media described the CAC"s production rate as "stable", meaning achieving a regular production rate for minimal economies of scale. The production rate was expected to be three aircraft per month.

In November 2022, high-resolution photos revealed over 200 J-20 fighters had been manufactured. According to analyst Andreas Rupprecht, a total of four batches of J-20 have been delivered with 18, 46, 56, and 70 airframes for each shipment based on his conservative estimate. The new pictures also indicated significantly improved manufacturing tolerance and quality control.Chengdu Aircraft Corporation accelerated the manufacturing and delivery of the J-20 fighter due to the implementation of pulse assembly line. Chinese military analysts believed the initiative aimed to rebalance the increasing numbers of F-35 fighters deployed by the United States in Asia.

In April 2022, the J-20 is confirmed to be engaged in regular maritime portals in the East China Sea and the South China Sea for routine training missions, in a statement released by the Chengdu Aircraft Corporation.

On 12 December 2016, at least six J-20s were observed in PLAAF air bases, with tail numbers 78271-78276 identified.fifth-generation stealth aircraft.Chinese National Defense Ministry confirmed the service status in September 2017.monopoly on operational stealth aircraft.

On 27 August 2019, the Central Military Commission of the People"s Liberation Army approved the J-20 as the PLAN"s future primary fighter, beating out the Shenyang FC-31. Arguments for the J-20 state that the plane is far more advanced, longer-ranged, and carries a heavier payload than the FC-31, while those supporting the FC-31 argued that it is cheaper, lighter, and far more maneuverable than the J-20. The J-20 would likely be commissioned upon the Type 003 aircraft carrier under construction, however, the length of the J-20 means that it has to be shortened to be considered operable on an aircraft carrier.

On 26 June 2021, Chinese state media reported that J-20 fighters were deployed to PLAAF units monitoring East China Sea and Taiwan Strait. Analysts suggested that the Chinese Air Force aimed to equip at least one to two brigades in each of the five theater commands before 2026.

In March 2022, the United States Air Force (USAF) general Kenneth Wilsbach confirmed that USAF F-35s have encountered J-20s deployed over the East China Sea.

The twin-seat design allows the possibility for the second operator to conduct airborne early warning and control (AEW&C) missions, which J-20 would leverage its avionics and networking capability to provide battlespace surveillance, battle management, and intelligence analysis. The stealth fighter could act as a more survivable and distributed alternative to traditional airborne warning and command post aircraft.unmanned combat aerial vehicles (UCAVs) linked via "loyal wingman" systems and sensors.AVIC Dark Sword.strike missions.

The first test flight coincided with a visit by United States Secretary of Defense Robert Gates to China, and was initially interpreted by the Pentagon as a possible signal to the visiting US delegation. Speaking to reporters in Beijing, secretary Gates said, "I asked President Hu about it directly, and he said that the test had absolutely nothing to do with my visit and there had been a pre-planned test."Michael Swaine, an expert on the PLA and United States–China military relations, explained that senior officials are not involved in the day-to-day management of aircraft development and were unaware of the test.

Robert Gates downplayed the significance of the aircraft by questioning how stealthy the J-20 may be, but stated the J-20 would "put some of our capabilities at risk, and we have to pay attention to them, we have to respond appropriately with our own programs."James R. Clapper testified that the United States knew about the program for a long time and that the test flight was not a surprise.

In 2011, Loren B. Thompson (Lexington Institute), echoed by a 2015 RAND Corporation report, felt that J-20"s combination of forward stealth and long-range puts America"s surface assets at risk, and that a long-range maritime strike capability may cause the United States more concern than a short-range air-superiority fighter like the F-22.

After the deployment announcement, several analysts noted that the experience that the PLAAF will gain with the J-20 would give China a significant edge over India, Japan, and South Korea, which have struggled to design and produce their own fifth-generation fighters on schedule.F-35A, negating this potential technological disparity.Savannah/Hilton Head International Airport in Georgia. The United States Marine Corps later confirmed that the aircraft was built for training.

By 2019, aviation researchers believed that the progress of J-20 signified that China had surpassed Russia in the application of contemporary aviation technologies such as composite materials, advanced avionics, and long-range weapons systems.Royal United Services Institute, the J-20 is one of the examples of how China has transitioned from the dependency of Russian technology to developing indigenous sensors and weapons that are superior to those of Russia; and how China is beginning to build a clear lead over Russia in most aspects of combat aircraft development in the 2020s.

In March 2022, the United States Air Force (USAF) general Kenneth Wilsbach described J-20s were flying professionally and he is "relatively impressed" with the Chinese command and control structure and AEW&C capabilities after confirming two nations had an encounter in South China Sea.E-3 Sentry AEW&C aircraft is insufficient for timely detection of the J-20s.sixth-generation fighter technologies to "not lose sleep".

Western sources contribute the idea that J-20 is optimized for anti-access/area denial (A2/AD) engagements, while Chinese sources universally describe J-20 as an air-superiority fighter meant to engage other fighters.Air University, believes J-20 is intended to be primarily used for destroying high-value airborne assets, which is an alternative way of establishing air superiority. Supplemental missions may include launching anti-radiation missiles and air-to-ground munitions. Rod Lee believes J-20 has the maneuverability to engage in air superiority combat with other aircraft, but PLAAF has de-emphasized the traditional attrition warfare while advocating the "systems destruction" approach because they believe it is more effective.Aviation Week noted the ill-informed assumptions that existed in defense circles and argued that the United States has not adequately addressed threats posed by the increasing Chinese airpower.

The visual, physical configuration and stealth shaping have been claimed to be influenced by foreign aircraft, including the F-22, F-35, F-117, Mig 1.44, Mig-31, Rafale, and Eurofighter Typhoon, according to an opinion piece published in Chengdu J-9 - particularly the "twin tail, side intake, canard delta" J-9V-II - from the 1960s and 1970s, and the Chengdu J-10 Furthermore, Joe said that stealth shaping is a much more universal and consistent trait that leaves limited room for variety, and that future international designs will likely reflect this.

Some sources claimed the aircraft with open compartment doors was a new prototype, however, this is likely a confusion caused by repainted numbers or doctored photos.

Kopp, Carlo and Peter A. Goon. "Chengdu J-XX (J-20) Stealth Fighter Prototype; A Preliminary Assessment." ausairpower.net Technical Report APA-TR-2011-0101, January 2011.

China is the leader in producing LCD display panels, with a forecast capacity share of 56 percent in 2020. China"s share is expected to increase in the coming years, stabilizing at 69 percent from 2023 onwards.Read moreLCD panel production capacity share from 2016 to 2025, by countryCharacteristicChinaJapanSouth KoreaTaiwan-----

DSCC. (June 8, 2020). LCD panel production capacity share from 2016 to 2025, by country [Graph]. In Statista. Retrieved December 23, 2022, from https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC. "LCD panel production capacity share from 2016 to 2025, by country." Chart. June 8, 2020. Statista. Accessed December 23, 2022. https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC. (2020). LCD panel production capacity share from 2016 to 2025, by country. Statista. Statista Inc.. Accessed: December 23, 2022. https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC. "Lcd Panel Production Capacity Share from 2016 to 2025, by Country." Statista, Statista Inc., 8 Jun 2020, https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/

DSCC, LCD panel production capacity share from 2016 to 2025, by country Statista, https://www.statista.com/statistics/1056470/lcd-panel-production-capacity-country/ (last visited December 23, 2022)

Samsung Display will stop producing LCD panels by the end of the year. The display maker currently runs two LCD production lines in South Korea and two in China, according to Reuters. Samsung tells The Verge that the decision will accelerate the company’s move towards quantum dot displays, while ZDNetreports that its future quantum dot TVs will use OLED rather than LCD panels.

The decision comes as LCD panel prices are said to be falling worldwide. Last year, Nikkei reported that Chinese competitors are ramping up production of LCD screens, even as demand for TVs weakens globally. Samsung Display isn’t the only manufacturer to have closed down LCD production lines. LG Display announced it would be ending LCD production in South Korea by the end of the 2020 as well.

Last October Samsung Display announced a five-year 13.1 trillion won (around $10.7 billion) investment in quantum dot technology for its upcoming TVs, as it shifts production away from LCDs. However, Samsung’s existing quantum dot or QLED TVs still use LCD panels behind their quantum dot layer. Samsung is also working on developing self-emissive quantum-dot diodes, which would remove the need for a separate layer.

Samsung’s investment in OLED TVs has also been reported by The Elec. The company is no stranger to OLED technology for handhelds, but it exited the large OLED panel market half a decade ago, allowing rival LG Display to dominate ever since.

Although Samsung Display says that it will be able to continue supplying its existing LCD orders through the end of the year, there are questions about what Samsung Electronics, the largest TV manufacturer in the world, will use in its LCD TVs going forward. Samsung told The Vergethat it does not expect the shutdown to affect its LCD-based QLED TV lineup. So for the near-term, nothing changes.

One alternative is that Samsung buys its LCD panels from suppliers like TCL-owned CSOT and AUO, which already supply panels for Samsung TVs. Last year The Elec reported that Samsung could close all its South Korean LCD production lines, and make up the difference with panels bought from Chinese manufacturers like CSOT, which Samsung Display has invested in.

Samsung has also been showing off its MicroLED display technology at recent trade shows, which uses self-emissive LED diodes to produce its pixels. However, in 2019 Samsung predicted that the technology was two or three years away from being viable for use in a consumer product.

After two theory-loaded blog posts about handling data array-like in strings (Strings, arrays, and the less known sp(lit)str(ing) function and Strings & arrays - continued) which you are highly recommended to read before continuing here, if you haven"t already, it"s big time to see how things work in practice! We"ll use a string variable as a lookup lookup table containing data of one single wave period and add this repeatedly to a waveform component until it"s full.A few weeks ago, I wrote this article about using a text variable as an array, either an array of strings or an array of numbers, using the covx conversion function in addition for the latter, to extract single elements with the help of the spstr function. It"s a convenient and almost a "one fits all" solution for most use cases and many of the demo projects or the sample code attached to the Nextion Sunday Blog articles made use of it, sometimes even without mentioning it explicitly since it"s almost self-explaining. Then, I got a message from a reader, writing: "... Why then didn"t you use it for the combined sine / cosine lookup table in the flicker free turbo gauge project?"105 editions of the Nextion Sunday blog in a little over two years - time to look back and forth at the same time. Was all the stuff I wrote about interesting for my readers? Is it possible at all to satisfy everybody - hobbyists, makers, and professionals - at the same time? Are people (re-)using the many many HMI demo projects and code snippets? Is anybody interested in the explanation of all the underlying basics like the algorithms for calculating square roots and trigonometric functions with Nextion"s purely integer based language? Are optimized code snippets which allow to save a few milliseconds here and there helpful to other developers?Looking through the different Nextion user groups on social networks, the Nextion user forum and a few not so official but Nextion related forums can be surprising. Sometimes, Nextion newbies ask questions or have issues although the required function is well (in a condensed manner for the experienced developer, I admit) documented on the Nextion Instruction Set page, accessible through the menu of this website. On top of that, there is for sure one of my more than 100 Sunday blog articles which deals not only with that function, but goes often even beyond the usual usage of it. Apparently, I should sometimes move away from always trying to push the limits and listen to the "back to the roots!" calls by my potential readers...Do you remember the (almost) full screen sized flicker free and ultra rapid gauge we designed in June? And this without using the built-in Gauge component? If not, it"s time to read this article first, to understand today"s improvements. The June 2022 version does its job perfectly, the needle movement is quick and smooth, and other components can be added close to the outer circle without flickering since there is no background which needs constantly to be redrawn. But there was a minor and only esthetic weak point: The needle was a 1px thin line, sometimes difficult to see. Thus, already a short time after publishing, some readers contacted me and asked if there were a way to make the needle thicker, at least 2 pixels.Recently, when playing with a ESP32 based NodeMCU 32S and especially with its WiFi configuration, I did as (I guess) everybody does: I loaded an example sketch to learn more about the Wifi library. When you set up the ESP32 as an access point, creating its own wireless network, everything is pretty straightforward. You can easily hard code the Wifi name (SSID) and the password. But what about the client mode ? Perhaps one needs to use it in different environments. And then, a hard coded network name and password are definitively not the best solution. Thus, I thought, why not use a Nextion HMI for a dynamic WiFi setup functionality?

Announced at a White House ceremony in 2017, the 20-million square foot campus marked the largest greenfield investment by a foreign-based company in U.S. history and was praised by President Donald Trump as proof of his ability to revive American manufacturing.

Foxconn, which received controversial state and local incentives for the project, initially planned to manufacture advanced large screen displays for TVs and other consumer and professional products at the facility, which is under construction. It later said it would build smaller LCD screens instead.

Now, those plans may be scaled back or even shelved, Louis Woo, special assistant to Foxconn Chief Executive Terry Gou, told Reuters. He said the company was still evaluating options for Wisconsin, but cited the steep cost of making advanced TV screens in the United States, where labor expenses are comparatively high.

When it comes to manufacturing advanced screens for TVs, he added: “If a certain size of display has more supply, whether from China or Japan or Taiwan, we have to change, too.”

Rather than a focus on LCD manufacturing, Foxconn wants to create a “technology hub” in Wisconsin that would largely consist of research facilities along with packaging and assembly operations, Woo said. It would also produce specialized tech products for industrial, healthcare, and professional applications, he added.

Rather than manufacturing LCD panels in the United States, Woo said it would be more profitable to make them in greater China and Japan, ship them to Mexico for final assembly, and import the finished product to the United States.

He said that would represent a supply chain that fits with Foxconn’s current “fluid, good business model.”FILE PHOTO: A shovel and FoxConn logo are seen before the arrival of U.S. President Donald Trump as he participates in the Foxconn Technology Group groundbreaking ceremony for its LCD manufacturing campus, in Mount Pleasant, Wisconsin, U.S., June 28, 2018. REUTERS/Darren Hauck

Heavily criticized in some quarters, the Foxconn project was championed by former Wisconsin Governor Scott Walker, a Republican who helped secure around $4 billion in tax breaks and other incentives before leaving office. Critics of the deal, including a number of Democrats, called it a corporate giveaway that would never result in the promised manufacturing jobs and posed serious environmental risks.

“Every step of the way Foxconn has overpromised and under-delivered,” Democrat Gordon Hintz, the minority party leader in the state assembly, said in a Wednesday statement. “This news is devastating for the taxpayers of Wisconsin.”

The company’s own growth projections and employment goals suggest the taxpayer investment would take at least 25 years to recoup, according to budget think tank the Wisconsin Budget Project.

Foxconn CEO Gou plans to meet with Wisconsin’s new Democratic governor, Tony Evers, a past critic of the deal, later this year to discuss modifications of the agreement, according to the source familiar with the company’s thinking.

The Office of the Governor said in a Wednesday statement it has been in contact with senior leadership at Foxconn since the Reuters story was published. Evers’ aide Joel Brennan said the team was “surprised” by the development.

Currently, to qualify for the tax credits Foxconn must meet certain hiring and capital investment goals. It fell short of the employment goal in 2018 - hiring 178 full-time jobs rather than the 260 targeted - failing to earn a tax credit of up to $9.5 million.

The company may be prepared to walk away from futur