tft display repurpose brands
Lei C-N, Whang L-M, Chen P-C (2010) Biological treatment of thin-film transistor liquid crystal display (TFT-LCD) wastewater using aerobic and anoxic/oxic sequencing batch reactors. Chemosphere 81:57–64
Lin K-L, Chang W-K, Chang T-C, Lee C-W, Lin C-H (2009) Recycling thin film transistor liquid crystal display (TFT-LCD) waste glass produced as glass-ceramics. J Cleaner Prod 17:1499–1503
Liu WT, Li KC (2010) Application of reutilisation technology to waste from liquid crystal display (LCD) industry. J Environ Sci Health Part A 45:579–586
Lo S-F (2010) Global warming action of Taiwan’s semiconductor/TFT-LCD industries: how does voluntary agreement work in the IT industry? Technol Soc 32(3):249–254
Matharu AS, Wu Y (2008) Liquid crystal displays: from devices to recycling. In: Hester RE, Harrison RM (eds) Electronic waste management, issues in environmental science and technology. RSC Publishing, Cambridge
Wang HY (2011) The effect of the proportion of thin film transistor-liquid crystal display (TFT-LCD) optical waste glass as a partial substitute for cement in cement mortar. Construct Build Mater 25:791–797
You S-H, Tsai Y-T (2010) Using intermittent ozonation to remove fouling of ultrafiltration membrane in effluent recovery during TFT-LCD Manufacturing. J Taiwan Inst Chem Eng 41:98–104
Matharu AS, Wu Y (2008) Liquid crystal displays: from devices to recycling. In: Hester RE, Harrison RM (eds) Electronic waste management, issues in environmental science and technology. RSC Publishing, Cambridge UK
Lo S-F (2010) Global warming action of Taiwan’s semiconductor/TFT-LCD industries: how does voluntary agreement work in the IT industry? Technol Soc 32(3):249–254
Lei C-N, Whang L-M, Chen P-C (2010) Biological treatment of thin-film transistor liquid crystal display (TFT-LCD) wastewater using aerobic and anoxic/oxic sequencing batch reactors. Chemosphere 81:57–64
You S-H, Tsai Y-T (2010) Using intermittent ozonation to remove fouling of ultrafiltration membrane in effluent recovery during TFT-LCD manufacturing. J Taiwan Inst Chem Eng 41:98–104
Lin K-L, Chang W-K, Chang T-C, Lee C-W, Lin C-H (2009) Recycling thin film transistor liquid crystal display (TFT-LCD) waste glass produced as glass-ceramics. J Cleaner Prod 17:1499–1503
Wang HY (2011) The effect of the proportion of thin film transistor-liquid crystal display (TFT-LCD) optical waste glass as a partial substitute for cement in cement mortar. Constr Build Mater 25:791–797
Funnily enough, the amount of contributors actually isn"t relevant to chances of a project winning anything in Hackaday Prize, most projects I"ve seen win are one-man efforts. I"ve participated in previous Hackaday Prize challenges, and I"m pretty realistic about it - I"ve submitted this project to Hackaday Prize "displays" round, but nothing I do here is really "in the spirit" of projects that change the world, are commercializable easily or could benefit from a Design Lab residence. This page, realistically, has 0 chances of getting anywhere further than this round"s final (which is a $500 prize), and even this chance is pretty slim, considering that, IIRC last time I checked, there"s already 10 decent applications.
To put it explicitly, I"m treating this HaD prize round as more of "deadline for me to dump my brain and do as much research on laptop display stuff as possible + unlikely but plausible monetary reward for me to fund my crippling addiction to reusing laptop parts". Plus, there"s the "positive coverage" part of that, which I"ve learned to be one of the most important parts - actually letting people know that this is a thing will seriously impact usefulness of what I make. After over a year of working with laptop displays specifically (and multiple years of hoping I get to do that someday), I can"t help but feel like - now I owe it to people to tell every single thing I"ve learned. And, to be as frank and transparent as possible, the main competition here is between my lack of ability to finish projects I start and my desire to share what I"ve learned, as well as the desired ego boost of "I am doing a thing that people do really need" =)
One thing I do hope to be able to do, however, is eventually selling "making your display work" kits on Tindie which would cover usecases that Chinese sellers don"t cover. For instance, eDP displays from laptops can easily be adapted to full-size DisplayPort with a small PCB that"d connect to commonly available eDP-FPC cables with standardized pinout, providing both a DisplayPort input and a small circuit generating EN+ADJ signals for the panel"s builtin LED driver. Nobody is currently making these boards, but there"s a market for them, and I will be making them. And I"ll be linking to product pages for these boards from this project page, for sure - but that"s not the end goal, it"s merely "I can do this and it nets some extra income to fund my research" thing, especially given these boards will certainly be OSHW.
Here are several DIY projects to repurpose and reuse an old PC, laptop, screens, and other accessories. We"ve also thrown in some ways to trade in your old hardware or turn it into cash.
One of the most useful things you can do with an old PC is to move it into your living room and repurpose it as a media center. You can watch movies and TV, listen to music, and play games by installing and setting up Kodi or similar software on your machine.
Got that media center running, but still need an affordable way to turn it into a home theater? Find an old TFT screen, even one with a broken backlight, and use it to build your own geeky projector. You will also need a working overhead projector and that media center mentioned above to run the movies or whatever else you want to watch.
If you replaced a mostly functional laptop with a nice screen, you could turn it into a digital photo frame. If the Wi-Fi is still working, you could even make it display your Twitter feed or your Instagram photos.
Just because your components are outdated doesn"t mean they"re not useful any more. Working but old hardware is ideal for using in experimental and unusual projects. Or the hardware can be repurposed in a more practical way and turned into a server.
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.
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.
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.
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:
Phoenix Display also integrates the display design to all existing peripheral components, thereby lowering manufacturing costs, improving overall system reliability, and removes unnecessary interconnects.
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.
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.
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.
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.
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Poland, Bytom -- November the 2nd, 2016 -- Digital Core Design, an IP Core provider and a System-on-Chip design house from Poland, has introduced the newest IP Core. The DBLCD32 IP Core is a fully configurable, universal LCD/TFT display controller, which supports a wide range of resolutions. Moreover, it enables both, horizontal and vertical parameters’ synchronization setup.
The DBLCD32 IP Core is a fully configurable, universal LCD/TFT display controller. It supports a wide range of resolutions and enables both, horizontal and vertical synchronization parameters setup. The display’s pixel clock can be generated by an internal pixel clock divider based on the bus clock, or delivered to the core by a dedicated pin.
Data fetched by the DMA interface can be translated to 24-bits RGB signals, depending on the selected color mode. There are three standard color modes supported: 24-bits True Color, 16-bits(5-6-5) High Color and 8-bits index color mode. Additionally, a 32-bit True Color is also supported, but the MSB byte of each four byte word is ignored. In case of the Indexed Color Mode, the DBLCD32 is equipped with pixel palette RAM, which is used to translate each byte from the display buffer into 24-bit RGB output. There are two different formats of color palettes available. The core supports the page flipping mechanism, which enables the usage of multiple buffering without the tearing effect. The DBLCD32 incorporates also a set of programmable interrupts available related to both display synchronization and DMA status signals. The core is capable to work on both little and big endian systems. To increase the system performance and flexibility of usage, the DLBLCD32 can be configured in two possible optimization levels, to find a proper balance between a gate count and a critical path length.
The LCD controller board is often called the Analog/Digital (A/D) board. As a type of hardware processor, it allows for various video source inputs to be connected, selected, and displayed on the LCD screen. It does this by converting the different video input signals into a format manageable by the LCD panel.
In conjunction with the LCD controller, the LCD driver is a form of software that is the interface of and dependent on the controller piece. Combined, the two form an LCD controller driver board. As the controller connects the computer to the operating system (OS), the driver facilitates that communication. Though there is typically just one display controller per LCD, there can be added drivers to extend the reach of the drive to further segments of the LCD.
In most LCD controller/driver boards, there are two other input/output systems. Both these systems, however, are two-way pathways. One involves controlling and monitoring options, such as controls for brightness, image, and color using the on-screen display (OSD) control panel. The other is for communication via connections like Ethernet, Bluetooth, or IP.
To delve deeper into the details, consider the previously mentioned input signals. There are a variety of signals that LCD technology processes, such as VGA, HDMI, DVI, and DisplayPort. These computer display standards vary in format and characteristics like aspect ratio, display size, display resolution, color depth, and refresh rate. One of the biggest differences between these standards is their usage of analog signals or digital signals.
The HDMI is a combination of digital audio and digital video transmission. There are many HDMI connectors, such as the standard, dual-link, and micro. These connectors are what the input signal travels through to reach the LCD controller and to direct what to display.
And last from the list of examples of input signals is the DisplayPort. It is similar to HDMI in its purpose to replace outdated VGA and DVI as well as its transmission of audio and video through its interface. The DisplayPort does not have as much variation in cables and connectors as the HDMI, with only one cable and two types of connectors. From the DisplayPort, there is a growing technology called the embedded DisplayPort interface, or eDP interface. LCD manufacturers have begun to gravitate towards this interface due to its fewer connections, smaller size, and ability to quickly transmit high quality displays.
Bringing the subject back to LCD controllers, with the various types of computer display standards, the video signal inputs can be a challenge to accommodate and translate for the LCD panel, but with the help of adapters and the growth of these standard types, displays continue to become faster and develop with greater resolutions.
Since 1993 we offer LCDs and LCD system solutions. We are always up to date with the latest technology and are looking for the best products for our customers. Our TFT display range includes high-quality displays:
10 Awesome Ways to Upcycle Old Devices With a Raspberry Pi MUO 10 Awesome Ways to Upcycle Old Devices With a Raspberry Pi Looking for a new way to use your Raspberry Pi? Here are several ways you can use a Raspberry Pi to upcycle old devices. Compact, wireless, and with a GPIO interface that allows you to hack pretty much any existing hardware, the Raspberry Pi is amazing. But it"s not the only amazing technology of the past 50 years. Home arcade games, color TVs, stereo systems, video players: at their time, these were also much loved pieces of technology. Perhaps you"ve got some kicking around in your loft, garage, or basement, waiting for its time to come again? That time is now. You already know your Raspberry Pi is awesome, so why not use it to turn your old tech into awesome tech? That"s the beauty of upcycling, and in this article, we"ll show you how a Raspberry Pi can be used in this way. 1 Retro Hitachi Info-TV We"re going to start with one of the most awesome Raspberry Pi builds you"ve ever seen. Built my Martin Mander, this is a 1975 Hitachi I-89-311 portable TV that has been repurposed as an information center. Content is displayed in full-screen Chrome tabs, with the tuning dial set up to switch between pages, rather than channels. Along with adapting the volume slider to scroll up and down the page, the TV also features a PIR motion sensor, switching off the screen when you"re done viewing. Inside is a Raspberry Pi 3, some custom switches that facilitate the original TV controls, and a 4:3
technology? In the video above, YouTuber 240SF demonstrates how to connect a Raspberry Pi 3 to a Nissan 240sx s14. The resulting digital dashboard displays live speed, RPMs, and coolant temperature. Using the Chromium browser, the dash is basically a , which has the Pi mounted behind it, along with a 3A car power supply/switch, complete with USB ports. This project requires a vehicle equipped with a Consult port---sadly, there"s no (easy) method to enhance analog-era cars in this way. 7 Raspberry Pi Cassette Player Streams Spotify Lovers of retro music players and mixtapes will be particularly interested in this build. With cassettes hiding NFC tags that are linked to Spotify playlists, this player contains a Raspberry Pi, an NFC reader, an amplifier, and a custom PCB to connect the physical buttons of the cassette player to the GPIO. The end result is remarkable. Using the MusicBox app, the Raspberry Pi connects to Spotify and loads playlists into memory, waiting for the prompt to play one. Each NFC tag is associated with a particular playlist, and pressing play on the tape deck will begin the song. 8 Thermal Paper-Printing Polaroid Anyone who has owned a Polaroid camera, new or old, knows that they can be very expensive to run. Spotting a solution to this, DIYer Tim Alex Jacobs took a 1980s Polaroid Sonar Autofocus 5000, and fitted a $3 thermal printer into the photo dispenser. Along with this, the upcycled device features a Raspberry Pi Zero and . Although some components were gutted, Jacobs
retained some. For instance, the upgraded camera still relies on the same shutter button. Having spent some months on this build, Jacobs has managed to reduce boot time to just 2 seconds. We recommend you for details on building your own. 9 Teddy Ruxpin Digital Assistant With Alexa YouTuber Tinkernut demonstrates how he converted an old Teddy Ruxpin into an Alexa-powered smart teddy bear. Inside is a Raspberry Pi, a Raspberry Pi Camera Module, and a battery pack, as well as some audio hardware. This is complemented by a digital-to-audio converter, which syncs the movement of Teddy Ruxpin"s mouth to the audio. The end result is a Teddy Ruxpin that responds to commands, Alexa-style. Which should mean that like the original Teddy Ruxpin, it should tell stories. Alexa is capable of telling stories when commanded, but you should also be able to listen to Audible talking books, too! 10 Turn a CRT TV Into a Retro Games Console Perhaps the ultimate hack of all time is the one that repurposes a CRT TV as a retro gaming console with a Raspberry Pi. Not just any Pi, however: a Raspberry Pi Zero, small enough to actually fit inside the TV itself. Obviously, this project comes with a warning. Cathode ray tubes are dangerous for the untrained. There is a very real danger of fatal electric shock from one of these, so we would only recommend this project if you have full electronic knowledge. Once complete, however, you have a great retro gaming machine, with all of the games already built in! The project uses
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