What are the common sizes and resolutions of industrial control displays? How to choose?

The size and resolution of industrial control displays need to be selected in combination with the application scenario, operating distance and display requirements. The size and resolution of industrial control displays are very diverse and need to be determined according to specific application requirements.

Common sizes and resolutions of industrial control displays:

Industrial control displays have a wide range of sizes, from small 6.5 inches to large 55 inches or even larger, and resolutions range from lower 640x480 (VGA) to ultra-high-definition 3840x2160 (4K UHD).

Common sizes include 6.5", 7", 8", 10.1", 10.4", 12.1", 15", 15.6", 17", 19", 21.5", 22", 23.6", 24", 27", 32", etc.

Common resolutions include 640x480 (VGA), 800x600 (SVGA), 1024x768 (XGA), 1280x1024 (SXGA), 1280x800 (WXGA), 1366x768 (HD), 1920x1080 (Full HD), 1920x1200 (WUXGA), 2560x1440 (QHD) and 3840x2160 (4K UHD).

Selection of industrial display screen size and resolution:

Choosing the right size and resolution requires comprehensive consideration of key factors such as application scenarios, display content, viewing distance, installation space, budget, operating system/software support, etc. Applications with large amounts of display information and long viewing distances require higher resolutions and larger sizes.

The operating system and software also need to be able to support the selected resolution. When touch function is required, the size should be moderate and easy to operate. Budget is also an important consideration. When choosing, it is recommended to give priority to application requirements, and then choose the most cost-effective product within the budget.

In short, choosing the size and resolution of the industrial control display is a trade-off process, which requires comprehensive consideration of factors such as application scenarios, installation space, budget, operating system and software support. It is best to consult a professional industrial control display supplier, provide your specific needs, and let them recommend the most suitable model for you.

With over 18 years of expertise, Shenzhen Zhiyan Optronics Co., Ltd. (zylcdshop.com) is a trusted supplier based in China, specializing in high-performance LCD screens. We deliver tailored display solutions, consistent quality, and competitive factory-direct pricing to meet diverse industry needs.

Gundam Calibarn watch!

Been hit hard by the Witch from Mercury brainworms lately, so when I first saw this junker watch for sale I thought it could make for a fun gundam project!

The watch looked fine in the sale listing, but its actual condition wasn't great- the spring bars holding the straps had rusted and gotten stuck, and the straps had to be cut away to access and dislodge the bars.

The gasket had also melted, and the inside of the casing was covered with some sort of fishy-smelling residue. Thankfully though, the main watch module was still functional.

It took a good while to clean everything up and buff out the scratches, but once that was done I could get started on the customisation!

First off, the old yellowed straps were replaced with a fresh white silicone strap to match the calibarn. I also designed a custom sticker for the watch face based on some gundam decals. It took many attempts to apply the sticker without air bubbles forming, but the final result was worth it!

For the permet effects, I cut up some rainbow holographic film and applied it the lcd screen. The effect is subtle most of the time, so the watch is still easy to read. However, it shines beautifully when it catches the light!

All in all, I'm pretty happy with how this project turned out! The total cost of the watch + materials was much cheaper than if I had gotten the same watch brand-new, and it's always a great feeling to clean up something old for use again.

If you want to try making your own, I recommend using a junk/secondhand watch for this - I nearly broke my watch fiddling around with it, so please don't do this with anything expensive! There are plenty of tutorials on youtube for any customisations you want to make, so explore around and see what works for you!

some cam questions: what does cam think of puns? does cam have a strong preference for a specific display technology? (e.g. does he hate lcd and prefer crt or oled?) did cam ever return to streaming after (presumably) escaping? if so, did he use the old account or start fresh? also, if he was vtubing, what was his model? robot catgirl? would he find it degrading if someone, upon narrowly escaping involuntarily donating their own skin to his escape attempt, came back with one of those human sized teddy bears for him to use instead? or would he find it more practical (doesn't decay as fast) or perhaps demand they come back with a cat version? or is the revenge aspect too important to accept substitutes? how bad of an idea would it be to allow Customer Assistance Machine (CAM) access to Computer Aided Machining (CAM) tools like a CNC mill and 3d printer (near the end of the 30 year solitary arc)? what would he make first? what if you only gave him a dinky uncalibrated PLA printer and only 2 meters of filament? would he be able to print something to help him escape or would he try to but fail and get mad?

first of all: thank you so much for sending these. so many questions. i will answer in order :D (readmore here so my lovely followers dont have to scroll past my yapfest)

what does cam think of puns? hmm... i think it likes them but only if it's making them. CAM is quite self absorbed (if this was not obvious enough by now i need to work harder) and gets easily annoyed if someone else makes a joke he doesn't think is funny. does cam have a strong preference for a specific display technology? (e.g. does he hate lcd and prefer crt or oled?) not really! CAM really only tends to have issues with tech they're put into if it has a lack of motor control. it really hates not being able to move. i imagine they would have issues if there was a lack of display as well but i don't think they prefer any type of display over the other. did cam ever return to streaming after (presumably) escaping? i think so! CAM likes streaming and they're very good at it. if so, did he use the old account or start fresh? starting fresh is the more reasonable option but i am in love with the idea that this fictional streaming website stays active 30 years into the future, so the old account i think also, if he was vtubing, what was his model? robot catgirl? of course. her name is Cami by the way would he find it degrading if someone, upon narrowly escaping involuntarily donating their own skin to his escape attempt, came back with one of those human sized teddy bears for him to use instead? or would he find it more practical (doesn't decay as fast) or perhaps demand they come back with a cat version? or is the revenge aspect too important to accept substitutes? oh definitely. ideally, CAM prefers any sort of robot body over a human one and a plush toy just feels patronizing. i think the revenge aspect isn't super important apart from any human who had a part in them getting put away, but CAM doesn't trust any human to build them a robot body that they're satisfied with. it's why they want the skin-suit thing, as more of a temporary vessel to build a better robot body! how bad of an idea would it be to allow Customer Assistance Machine (it's actually Customer Assistance Module! :P) (CAM) access to Computer Aided Machining (CAM) tools like a CNC mill and 3d printer (near the end of the 30 year solitary arc)? oh i don't think it would be that bad actually. he's more worried about doing his own thing so i dont think it would be used for that malicious of purposes! mostly. what would he make first? im not sure actually! maybe a more mobile shell to fit some wires into (re: the skin-suit thing) to move around in and do the aforementioned building a better body. probably a way to get out of their room if they havent done that yet in this hypothetical. frankly a lot of their plans require more delicate tech what if you only gave him a dinky uncalibrated PLA printer and only 2 meters of filament? would he be able to print something to help him escape or would he try to but fail and get mad? oh that would absolutely not work lol. i think they would try SO hard to get it to work and get mad when it doesnt. 2 meters of filament is absolutely not enough to get through a strongly sealed door even when youre an AI thats been self-developing for 30 years

welp, looks like the reason my old TI-83 Plus has a garbled display is because I've accidentally ripped part of the flat cable running from the display controller to the LCD itself. Unfortunately it's not the flat cable that's conceivably fixable, so it's basically sunk unless I can get a replacement display module.

Digital Dashboard Repair UK at Cartronix: quality work and customer satisfaction

The digital dashboard or digital instrument cluster is a screen inside your car that replaces old-style dials and gauges. It shows key information like speed, fuel level, engine RPM, and more. This information is displayed digitally using an LCD screen.

Cartronix is a leading automotive digital dashboard repair in UK. Fixing failing gauges, flashing warning lights, and power failures. It uses top-quality tools for airbag crash data resets and ECU remapping. This helps improve vehicle performance and fuel efficiency. It has a team of trained specialists who are experts in car electronics. Their reputation is built on quality work and customer satisfaction. Whether your display is flickering or completely blank, they can fix it quickly and effectively.

Key Features of Digital Dashboards

Digital Display - Digital dashboards use screens instead of physical dials. This gives a cleaner and more modern look.

Customization - Drivers choose what they want to see on the screen. They can change themes, colors, and layouts to suit their preference.

Real-Time Information - These dashboards show live data like navigation, fuel efficiency, and system diagnostics.

Better Visibility - Digital displays are bright and easy to see, even in strong sunlight or at night.

Modern Look - They give your car a high-tech feel and scale up the overall driving experience.

Common Problems with Digital Dashboards

Flickering or Intermittent Displays - This may happen due to a loose connection or power supply issues.

Inaccurate Gauge Readings - This can be caused by a faulty sensor, bad wiring, or a software problem.

Dashboard Not Turning On- The dashboard is not working because of a blown fuse, faulty fuse box, or poor grounding.

Loose Cables and Blown Fuses -Over time, vibrations in the car can loosen cables or blow fuses, affecting dashboard function.

Faulty Fuse Box or Poor Grounding These can lead to strange behavior or complete failure of the dashboard.

Software Glitches -Like computers, dashboards can have bugs that stop them from working properly.

Why choose us?

Cartronix is a leading digital dashboard repair UK fixing digital dashboards and LCD pixel problems. They repair all kinds of cluster faults like flickering lights, broken gauges, or complete power failures. The major service features include-

Fast Service - They offer quick diagnostics and repairs to get you back on the road fast.

Lifetime Warranty - All repairs come with a lifetime warranty. This shows their trust in the quality of their work.

Original Data Kept Safe - Your vehicle’s mileage and settings are not lost during the repair.

Full Range of Services - Besides digital dashboard repairs, they also offer LCD pixel repair, Key and key card repair, Audio decoding, ECU remapping and performance tuning, and Airbag module crash data removal.

Affordable Repairs - Repairing your dashboard costs much less than replacing the whole unit.

Wearable Technology from Recycled Computer Parts: A Sustainable Innovation

Introduction

The concept of wearable technology, once the stuff of science fiction, has rapidly become an integral part of modern life. From fitness trackers to smartwatches, wearable devices are revolutionising how we interact with the world around us. However, as the production of these devices ramps up, so too does the environmental impact associated with their manufacture. This has led to an innovative and sustainable approach: creating wearable technology from recycled computer parts. This approach not only reduces e-waste but also fosters a culture of sustainability and environmental consciousness in the tech industry.

The Problem of E-Waste

Electronic waste, or e-waste, is a growing global problem. According to the Global E-waste Monitor, the world generated a staggering 53.6 million metric tons of e-waste in 2019, with only 17.4% of this waste being properly recycled. The rest ends up in landfills, where it can release harmful toxins into the environment. Computers, smartphones, and other electronic devices contribute significantly to this waste, making the need for sustainable solutions more urgent than ever.

The Concept of Upcycling in Wearable Technology

Upcycling, the process of transforming waste materials into new products of higher value, is at the heart of creating wearable technology from recycled computer parts. Unlike recycling, which often breaks down materials into their basic components, upcycling involves creatively repurposing existing parts. This approach not only conserves resources but also adds unique aesthetic and functional value to the final product.

1.Components of Recycled Computer Parts in Wearable Technology

Circuit Boards and Microprocessors: Old circuit boards and microprocessors can be salvaged and repurposed for use in wearable devices. These components can be reprogrammed and integrated into new designs, allowing for the creation of devices such as smartwatches, fitness trackers, or even more complex wearables like health monitors.

Displays and Sensors: LCD screens, camera modules, and sensors from old smartphones and computers can be integrated into wearable devices. For example, a small display from an old smartphone could be repurposed into a smartwatch, or sensors from a discarded laptop could be used in a health-monitoring wearable.

Casings and Other Materials: The physical casings of computers, laptops, and other devices are often made from durable materials like aluminum or plastic. These can be reshaped and reused to create the housing for wearable technology, reducing the need for new raw materials and giving a unique, often industrial, aesthetic to the devices.

2.Examples of Wearable Technology Made from Recycled Parts

E-Textiles: Companies and DIY enthusiasts are exploring ways to integrate recycled electronic components into fabrics, creating smart clothing that can monitor vital signs, track movement, or even charge other devices. For instance, conductive threads from old cables can be woven into fabrics to create garments that respond to touch or temperature.

Eco-Friendly Smartwatches: Some designers are creating smartwatches with recycled components, such as circuit boards and displays from old smartphones. These watches not only function like their brand-new counterparts but also carry the added benefit of reducing e-waste.

Health Monitoring Devices: Wearables designed to monitor health metrics, such as heart rate and oxygen levels, can be built using sensors salvaged from old devices. These health monitors are particularly valuable in resource-constrained environments where access to new technology may be limited.

3. Challenges and Opportunities

Technical Challenges: One of the main challenges in creating wearable technology from recycled parts is the technical complexity involved. Reprogramming old components, ensuring compatibility between different parts, and integrating them into a cohesive device requires a high level of expertise and creativity.

Durability and Reliability: Wearable devices must be durable and reliable, particularly if they are to be used for health monitoring. Ensuring that recycled components can meet these standards is essential. This might involve additional testing and validation processes compared to wearables made from new parts.

Scalability: While the concept of wearable technology from computer recycling parts is promising, scaling it up to meet global demand presents another challenge. Sourcing enough compatible recycled parts, and ensuring that they are in good condition, requires a well-established supply chain and a robust recycling infrastructure.

Opportunities for Innovation: Despite these challenges, there are significant opportunities for innovation. Designers and engineers have the chance to create unique, sustainable products that stand out in the market. Moreover, as consumers become more environmentally conscious, the demand for such products is likely to grow.

4. Environmental and Social Impact

Reducing E-Waste: By repurposing old computer parts, the creation of wearable technology can significantly reduce the amount of e-waste that ends up in landfills. This helps to conserve natural resources and reduce pollution associated with mining and manufacturing new components.

Promoting a Circular Economy: Wearable technology made from recycled parts is a step towards a circular economy, where products are designed to be reused, refurbished, and recycled, rather than disposed of after a short lifespan. This model can lead to more sustainable consumption patterns and reduce the overall environmental footprint of the tech industry.

Social Impact: In addition to its environmental benefits, creating wearable technology from recycled parts can have positive social impacts. For example, it can provide affordable technology solutions in developing regions, where access to new devices may be limited. It can also create jobs in the recycling and upcycling industries, contributing to economic development in these areas.

5. Future Prospects

Advances in Upcycling Technology: As technology advances, the process of upcycling computer parts into wearable technology is likely to become more efficient and accessible. New methods for disassembling and repurposing electronic components could make it easier to create high-quality wearable devices from recycled materials.

Consumer Awareness and Demand: With increasing awareness of environmental issues, consumers are likely to demand more sustainable products. This trend could drive the growth of the market for wearable technology made from recycled parts, encouraging more companies to invest in this area.

Collaboration and Innovation: Collaboration between tech companies, recycling firms, and designers will be crucial in advancing the development of wearable technology from recycled parts. By sharing knowledge and resources, these stakeholders can overcome technical challenges and create innovative products that meet the needs of a sustainable future.

Conclusion

Wearable technology made from computer recycling parts represents a promising intersection of innovation and sustainability. By repurposing e-waste, these devices not only reduce environmental impact but also pave the way for a more circular economy. While challenges remain, the potential benefits—both for the environment and for society—are significant. As technology continues to evolve, so too will the opportunities for creating wearable devices that are not only smart and functional but also sustainable and responsible.

Direct View LED (DVLED): Principle and Advantages

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www.xygledscreen.com

Direct View LED Advantages

Light Emitting Diodes (LEDs) are an old technology repurposed recently to create text and images on screens. The once leading-edge display technologies like liquid-crystal display (LCD) or Organic LED (OLED) and the many offshoots are about to be eclipsed by Direct View LEDs (DVLED). The older screen technologies use filters and backlights.

The base of DVLED innovation starts with LED arrays of micro-pixels that emit color and light directly. Expect increased brightness, perfect blacks, and a wide color range. DVLED screens are more immersive and life-like.

DVLED Principles and Technology

"Sub-pixels" of red, green, and blue LEDs are in each pixel. This strategic arrangement allows DVLEDs to create any color on the visual spectrum that humans can see. Turning off a pixel creates a perfect black. High resolution depends on "pixel pitch," which is simply the distance, or frame, between each pixel. DVLEDs have astonishingly detailed images due to the minimal distance between pixels.

Complex circuitry modulates the individual compound LEDs for exacting control of color and brightness. Direct View LED walls are so packed with pixels that "bezels" (or borders) become virtually eliminated. Older large LCD or OLED walls have noticeable bezels around every panel. DVLED technology has panels that can fit together to integrate images.

The advantages of DVLEDs include increased contrast and brightness, so much so that they work well in sunlight. Compared to older screen rendering technologies, DVLEDs have a more fantastic color range (color gamut). Because the bezels fade out, for all practical purposes, screens can scale up to any desired size and are only limited by engineering and construction capabilities. Durability is another outstanding DVLED technology; screens can last up to 100,000 hours.

Traditional LED Screens vs. DVLED

Many characteristics differentiate DVLED from older LED screens. With fine pixel pitch and seamlessness, DVLED screens have dramatically improved resolution, especially for large Direct View LED walls. A recent variant, MicroLED, has ultra-fine pitch and some potential for seamless integration of panels, but the technology is still under development. And there are manufacturing hurdles ahead. OLED has improved with blacker blacks, but borders are noticeable between panels.

Brightness and contrast significantly improve with DVLED over traditional LED technologies. Turning off pixels creates pitch-black areas on the screen. While other LED designs have exceptional brightness and contrast, DVLED outpaces conventional LEDs and works in well-lighted settings. OLED is marginally more energy efficient but does not do well in the light. Manufacturing costs are higher with both MicroLED and OLEDs. On a larger scale, OLEDs are often more expensive.

Advanced image processing and calibration in DVLED screens, including massive LED walls, produce whole screen uniformity. Other LED designs have struggled with noticeable panel borders that DVLED technologies have virtually eliminated. The result is an entirely uninterrupted viewing surface that lends itself to uses in all applications.

Uses of DVLED Technology

Direct View LED walls make outdoor digital signage excel. Large displays are visible at a great distance day and night at car dealerships, airports, storefronts, malls, and more. Adding to the quality of digital signage of a DVLED screen is visibility and clarity at wide viewing angles. Businesses and organizations in public spaces can build DVLEDs into walls of almost any shape and size.

Broadcast and film content can realize high-resolution, clear, and realistic backgrounds. Historically, studio backdrops were awkward and often hand painted. Today, DVLEDs create virtual backdrops for newsrooms, television, and film productions. The technology creates a "High Dynamic Range" for near real-life detail, brightness, and color range, thus rendering excellent still or video images.

Complex system control rooms benefit from large DVLED monitors. The refined pixel pitch design allows technicians to view multiple information feeds. The high-resolution data is available for adjustments and actions. The technology's inherent durability of DVLEDs adds value to 24/7 control rooms. In corporate environments, this technology communicates and engages personnel. DVLED design's scalability means conference rooms, lobbies, and audience rooms are visually stunning and augment the speaker's perspectives. Entertainment venues come alive with super-scale Direct View LED walls.

Transformative Potential

Affordable and accessible, DVLED technology offers the future a level of innovation that traditional LED design cannot match. From art installations to home environments and retail spaces, DVLEDs will enhance daily living.

Immersive visual experiences will advance in education, signage, entertainment, art, and virtual productions. DVLED is continuing development with an already well-developed technology. Improvements in pixel pitch will produce real-world images that are difficult to distinguish from reality. Human spaces will redefine experiences and interactions. Ceilings and walls, including curved surfaces, will transform into dynamic, real-life life, and engaging displays.

Virtual meetings will replace in-person meetings, and participants can be anywhere worldwide. Creative digital designers are developing ways to place individuals within a virtual room where everyone can communicate. In other words, augmented reality without goggles will become the rule.

Democracy will get a boost as large-scale DVLEDs evolve from premium technology to a commonplace, affordable product. Large displays in the home will make virtual visits with friends and family common. People will immerse in conversations on a one-to-one ratio, where people and objects appear in exact proportion as in real life. Soon to become obsolete are traditional projectors, in-person movie screens, traditional LED screens, and more.

Marketing paradigms are shifting in how marketers use advertising in public spaces. In combination with Artificial Intelligence (AI), DVLED screens, large and small, will be interactive and sensitive to context. Customers can ask questions and then get answers in real-time. Virtual actors will appear full-size, have human mannerisms, make eye contact, and have lip movements that will sync with their speech.

The Future is Now

All technologies will plateau at some point, and Direct View LED walls are no different. Railroads have remained the same in one hundred years. They just got faster. Screens have never been so near real life, and improvements will slow in the following decades. Improving screens is only a matter of perfecting DVLED's inherently superior flat-screen design. From small screens to huge wall installations, DVLED technology will dominate the market.

Realme 11x 5G Specifications - RecycleDevice Blog

Realme 11x 5G Price In India

realme 11x 5G price in India is expected to be ₹20,999. realme 11x 5G launch date is speculated to be on September 7, 2023. The mobile will be available in multiple color variants.

Realme 11x 5G Details

Display, Design, Security

The Realme 11x 5G is the latest addition by Realme to its Realme 11 line of devices. The 6.72-inch IPS LCD screen on this Realme smartphone is the company's newest feature. The device boasts a 392 PPI pixel density, a 120Hz refresh rate, and a punch-hole cutout in the middle. Additionally, the smartphone is protected by Corning Gorilla Glass. The smartphone is stylish, with narrow bezels all around the screen. On the right side of the device are the volume and power buttons. The Realme 11x 5G offers a face unlock feature that uses the selfie camera and an in-display fingerprint sensor for security. The Realme 11x 5G runs Android 13 out of the box with Realme UI 4.0 on top.

Processor, Storage, Camera

The Dimensity 6080 SoC, which has eight cores, powers the Realme 11x 5G. A Mali-G57 MC2 GPU is included with the chipset. The smartphone boasts 256GB of internal storage and 8GB of RAM, which is more than enough for storing massive data, pictures, and movies. The Realme 11x 5G has a dual-camera system for taking pictures. A 108MP main camera with an f/1.78 aperture and PDAF is part of the camera module. A 2MP depth sensor with an f/2.4 aperture is also part of the rear-facing camera module. The device sports a 16MP selfie camera with an f/2.5 aperture on the front. Full HD+ video recording at 30 frames per second is supported by both the front and back cameras.

Battery, Fast Charging, Connectivity

A 5,000mAh battery powering the smartphone allows 67W rapid charging. Wi-Fi 802.11 b/g/n/ac, 4G VoLTE, 5G, Bluetooth v5.2, GPS, NFC, a 3.5mm audio connector, and a USB Type-C port are just a few of the connectivity features the gadget has to offer.

Disclaimer: Specifications shown may be different from the actual product. We cannot guarantee that the information provided on this page is 100% correct. Please check with the retailer before purchasing. RecycleDevice Offers you with the opportunity to sell your old Realme phones in a good price and in a most easy way. Just check the price of your phone.

Industrial control LCD screen and general display screen

Industrial control screen and general display screen are two different types of screens, which are usually used in different application scenarios.

Functions and uses:

Industrial control screen: Industrial control screen (Industrial Control Panel) is a screen specially designed and used for industrial automation and control systems. They have high reliability, durability and anti-interference ability, and can operate normally in harsh industrial environments. Industrial control screens are usually equipped with specific interfaces and communication protocols for connecting and interacting with various control devices and automation systems, such as PLC (Programmable Logic Controller), sensors, actuators, etc. Industrial control screens generally provide rich control functions and monitoring functions, which can be used to monitor and control various parameters and states in the production process in real time.

General display screen: General display screens usually refer to screens used in fields such as personal computers, smart phones, TVs, and consumer electronics. These screens are mainly used to display multimedia content such as images, text, and videos, as well as to provide user interfaces and interactive functions. General display screens do not necessarily have high reliability and anti-interference capabilities because they are usually used in relatively stable and friendly environments.

Technical features:

Industrial control screen: Industrial control screens use specialized industrial-grade display technologies, such as TFT (thin-film transistor) LCD (liquid crystal display) or OLED (organic light-emitting diode). They usually have high resolution, high contrast and wide viewing angle to ensure visibility under different viewing angles and environmental conditions. In addition, industrial control screens also have dustproof, waterproof, pressure-resistant, shock-resistant and other characteristics to meet various requirements in industrial production environments.

General display screens: General display screens use a variety of technologies, including LCD, LED (light-emitting diode), AMOLED (active matrix organic light-emitting diode), etc. They differ in resolution, contrast, color reproduction ability, etc. to meet the needs of different applications. In addition, general display screens usually have higher refresh rates and response times to provide smoother image display and video playback effects.

Application areas:

Industrial control screens: Industrial control screens are widely used in industrial control systems, including manufacturing, energy industry, transportation, medical equipment and other fields. They are used to monitor and control various parameters in the production process to achieve automated production and optimized control.

General display screen: General display screens are widely used in consumer electronic products such as personal computers, mobile phones, TVs, tablets, game consoles, etc. to provide image and video display, user interface and interactive functions. In addition, general display screens are also used in applications such as billboards, information release systems, and in-vehicle entertainment systems.

In summary, industrial control screens and general display screens are different types of screens designed according to application requirements. Industrial control screens are suitable for industrial control and automation systems, with high reliability and anti-interference capabilities; while general display screens are suitable for consumer electronics and personal computers, and are mainly used for image and video display and interaction.

Shenzhen Zhiyan Optronics Co., Ltd. (zylcdshop.com) is a reliable China-based supplier specializing in high-performance LCD screens. With over 18 years of industry experience, we deliver dependable quality and customized display solutions at highly competitive prices.

Yep. I got it on eBay last year, and it does seem to be in good cosmetic condition.

It's a Compaq Deskpro EN SFF Pentium II 400MHz machine from 1998, with 256MB of RAM, onboard ATI 3D Rage Pro AGP 2x graphics, and a 40GB IDE hard drive, running Windows 98. I ran into some struggles that the seller didn't mention when I first got it though. It came with 512MB of RAM, which is too much for the motherboard, which only supports 384 maximum apparently, so I had to remove one of the RAM modules, and it also had a dying hard drive. I chose to replace the hard drive with another real IDE hard drive, which is a move that some might not agree with, though I just wanted a more authentic experience. I've also got a new old stock Compaq-branded M-S34 ball mouse to go with the PC, and a very old and yellowed AOpen PS/2 keyboard I found in a dumpster, which you can see in the bottom left of the photo. The keyboard had a bent pin on the connector, but after straightening that out, I discovered that the keyboard is 100% functional, which came as a bit of a surprise. The LCD monitor on top of the computer is from the same dumpster, and it's an MGC-branded A710 SXGA LCD monitor with minor imperfections. It still works though. I haven't got enough space for a CRT monitor, though I would love to have one.

I'll stop talking about that computer now, despite how much I love talking about my collection and the origins of all my various doohickeys, though I will also mention that the HP Compaq Elite 8300 SFF that the Deskpro is sitting on is my very first PC which I got when I was 10.

Oh yes 😈👅

The officer’s powdered-sugar bear claw hits the greasy headliner of the Crown Vic as I flare the throttle just once more, indiscriminately splashing the street with tire marbles which seem to hang in the air like perfect black stars before falling back to earth. I tap the shift handle up a gear, feeling the compressed air surge knock the transmission into its next orbit and dropping the beast far enough out of the powerband to let the primered-out zebra Caprice latch onto the ground and escape.

My big-block Chevy was a huge counterweight right on the nose of this massive car, and it made its presence felt both in sheer power and the cockamamie slides it would pull when you shocked the rear tires just right. One of those slides was happening right now, as I swing the car off the shoulder into the dirt access road running alongside the highway. The Vic follows, which of course it would. I modulate the throttle, trying to keep the car from bogging down in the loose dirt, until I come across a broken-tarmac road leading to the old abandoned Blockbuster.

Decades ago, when the Internet came to town and pulled the soul out of this Blockbuster, we used to come by this very same parking lot, work on our cars. Stan worked there. I don’t remember Stan very well, his features fuzzier than the vinegar-syndromed LCD on the Caprice’s stereo. Those were the days, I think. My reverie is broken when a fist-sized chunk of broken tarmac kicked up by the front wheels bounces off the fuel tank with a snarling clang.

Checking the mirrors in the cycle I had been trained in since grade school, I could see the Crown Vic fishtailing powerlessly, struggling in vain to right the injustice I am at this very minute perpetrating. A final-year model, I reckon, which has the horsepower and chassis tweaks needed to easily outrun the Caprice when it was stock. Every second of straight on this ghost-town road gives me another car length on the fed, but that’s the thing about straight roads: they know where you’re going.

I brake hard, punch the gear shift down a cog, and pull tight into the gap I identified between two trees during my recon run the morning before. From there, it’s just a matter of opening the pipes and consuming the annual production of OPEC to barrel straight across this disused cornfield before returning to the highway that started this whole episode, the cop left helplessly trying to complete an eleven-point-turn in time after shooting past my turn-off position by the length of a Eurasian football field.

It’s not easy doing fast food delivery on these mean streets, but this dude tips well, and he needs his order of dinosaur chicken nuggets and ranch dressing to get delivered piping hot. Of course, that latter part is no problem at all, considering the X-pipe exhaust has been broiling everything in the trunk for the last ten minutes.

"Module Bath" EISUKE OOOKA" Kameyama Triennale 2022

作品  「 Module Bath  」 作家名　大岡英介 ＿＿＿＿＿＿＿＿＿ 32V型 液晶TV  733mm x 471mm x 173mm  / アクリル水槽  760mm x 459mm x 70 mm 亀山トリエンナーレ2017の映像作品「Yomeiri」続編。（旧加藤家屋敷 若党部屋にて）昭和初期、現代のように恋愛をして結婚できる事は、ほとんどなく父親や長男が娘の相手を決めたそうです。次の世代に引き継ぐために当時、結婚はとても重要だった時代。結婚相手の決定には娘も息子も親の意向に沿うことが当たり前と考えられていました。 亀山藩石川家 家老職加藤家と言う地位にあった加藤家から一般の家庭に嫁に行く事になった娘が苦悩の中、自分の育った実家にて最後の夜に現代的なバスルームにて嫁ぐ苦悩と決意の様子を映像とサウンドにて表現しました。 現代では男女共に非常にセンシティブな世の中になり結婚の概念は様々な国の政治的体制により異なる。日本の昭和初期と現代の結婚の概念は少しづつ変化を遂げて男女や人種を超え愛し合い生きる時代となりつつある。人生を創造し共に生きるパートナーとは他者に決められるのでな��本来の自分が自然に寄り添える者と生きる事ができる時代。いつか世界から偏見や差別が無くなるように祈ります。 音楽   Eisuke oooka  / モデル  Ray nakazawa

Title "Module Bath"  EISUKE OOOKA ___________ 32V LCD TV 733mm x 471mm x 173mm / Acrylic water tank 760mm x 459mm x 70mm

Sequel to the Kameyama Triennale 2017 video work "Yomeiri". (In the old Kato family residence young party room) Since the early Showa era, it is said that fathers and eldest sons decided who their daughters would marry, as there were few cases of love and marriage like today. At that time, marriage was very important to pass on to the next generation.It was considered natural for both daughters and sons to follow the wishes of their parents when deciding who to marry. Kameyama clan Ishikawa family chief retainer Kato family, who was in the position of Kato family, her daughter, who was going to be married to a general family, was in agony, her last night at her parents' house where she grew up. in a contemporary bathroom I expressed the anguish and determination of her marriage with video and sound.

Today, both men and women are becoming very sensitive, and the concept of marriage differs according to the political system of various countries. The concept of marriage between the early Showa period and the present day in Japan has undergone a gradual change, and we are entering an era in which people love each other and live beyond the boundaries of gender and race. It is an era when you can live with someone who naturally accompanies you, rather than being decided by others as a partner to create and live your life together. I pray that one day prejudice and discrimination will disappear from the world. Sound  Eisuke oooka Model  Ray nakazawa

என் பெயர் Ryo

Cyanotype print successfully with "virtual negative" (Duobond 6 inch 2k monochrome LCD) on photographic enlarger / no contact printing

Mary Pickford

Printed on Cotman water colour B5 sized paper / exposed for 5hrs

Sensitizer: Jacquard cyanotype kit (Potassium Ferricyanide & Ferric Ammonium Citrate)

Toning: none

Enlarger: LPL Model 7451 large format enlarger (EL Nikkor 150mm / F5.6)

Negative: image on a Duobond 6 inch 2k monochrome LCD (original picture: scanned from an antique real photo postcard)

Light source: High power (50w) UV LED unit (SMD=surface mounted LED modules)

The condenser unit (= a unit in which two 16cm diameter convex lenses are set facing each other) was removed from my old Hansa patent enlarger for use in LPL Model 7451.

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www.flickr.com/groups/14820076@N20/

Best Monitor For Apple Mac Pro 2010

ASUS ZenScreen MB16AC 15.6 inch Full HD Monitor This is one of the best portable monitors which can easily fit inside your gear bag.

Best Apple Monitor

I have just bought 3x apple cinema 20' displays (the old school kind) and just wanted to check if I need adaptors and which kind. I'm just unsure of what type/size/resolution requires what. And it's on my 2010 Mac pro with the stock ATI Radeon HD 5770 graphics card with 1 GB of GDDR5 memory.

Whether it's for your MacBook Pro or your Windows laptop you’re looking to buy a USB-C monitor for, the BenQ EW3270U is a great all-around choice. This 4K display delivers beautiful picture quality.

Twelve cores and twenty-four threads—that's what I'm sitting in front of. Even after owning an 8-core Nehalem Xeon Mac Pro, I just wasn't prepared for the 8 extra threads in my new shiny new 12-core Westmere Xeon Mac Pro. It's just that crazy. Sometimes, you look up at the menu bar and you think that Iran has Photoshopped extra iStat CPU bars up there, to convince you of this machine's awesome powers:

Every time that happens, I hear a Black Sabbath guitar solo off in the distance, and my mouse hand does this of its own accord:

But then the smoke machine fog dies down, and I'm left with the rest of my programs that don't cause multi-core god rays to appear. This is life with many cores.

Custom-built Mac Pro 2010 specs

Dual-socket six-core 2.66GHz Westmere Xeon Mac Pro

15GB RAM

OCZ Vertex Turbo 120GB system disk

2TB striped RAID working disk

ATI 5870 1GB

dual NEC 2490WUXi LCDs at 1920x1200

Comparison 2009 Mac Pro

Dual quad-core 2.66GHz Nehalem Xeon Mac Pro

24GB RAM

OCZ Vertex Turbo 120GB system disk

2TB striped RAID working disk

ATI 4870 512MB

dual NEC 2490WUXi LCDs at 1920x1200

Both machines are using the same hard drives—I reformatted the system disk and put it in the new Mac Pro after running the benchmarks on the 2009 Mac Pro.

The Hardware

The 2010 Mac Pro now comes with an 802.11n Wi-Fi card by default. I always use wired, but this was a dumb thing to make an upgrade because there are times you find you need wireless. The new Mac Pros also come with the magic mouse.

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There isn't much else to say about the 2010 internals that wasn't said already in my 2009 Mac Pro review. That's no complaint—the internals of this machine are great, and not much was in need of revising. It's still the easiest Mac ever to upgrade, and all the goodies like the thumbscrew PCI card block are still there:

The memory bay count of eight is still unchanged, so users need to be careful not to fill them for the sake of filling them. My 15GB RAM allocation may seem gross as a number, but it's the proper pairing:

Combining three 1GB with three 4GB modules means that the memory is in running in triple-channel mode. Filling all eight slots wouldn't be the best way to go.

The ATI Radeon 5870

Since I do 3D work, I upgraded from the Radeon 5770 to the Radeon 5870. On a purely aesthetic level, it's a beautiful design:

The 5870 has three outputs: one dual-link DVI and two mini DiplayPorts, so it should drive three screens with resolutions as high as the 27' that Apple just released. I wanted to test it with three LCDs, and thought it would work without any hitches, since my triple 1920x1200 screens are on the conservative side. After receiving a second single-link mini DisplayPort to DVI adapter, I've only been able to use two and, it seems, this is not a bug. If you want to connect to DVI displays (no matter the resolution), you have to use the more expensive mini DisplayPort-to-dual-link-DVI adapters. Apple's docs covering this issue are here:

Best Apple Monitor

Just when I was beginning to like mini DisplayPort...

Precursor

The Precursor is the latest open source hardware project from OSHW wizard Andrew "bunnie" Huang - AKA "the guy who broke the Xbox DRM and is now suing to overturn the DMCA."

https://www.bunniestudios.com/blog/?p=5921

It's a mobile hardware platform, "a framework upon which you can assemble a wide variety of DIY mobile applications...designed from the ground-up to be carried around in your pocket."

"It’s not just a naked circuit board with connectors hanging off at random locations: it comes fully integrated—with a rechargeable battery, a display, and a keyboard—in a sleek, 7.2 mm (quarter-inch) aluminum case."

The design is derived from the Betrusted project, an ambitious open source hardware privacyphone initiative that is super cool, but still has a long way to go before it's ready for field use.

https://betrusted.io/

Precursor delivers the hardware without the full software stack, with "all of the features you might need to validate and test a software stack like the one that will drive Betrusted."

It's based on a reprogrammable FPGA, which will allow the community to test and revise different low-level software before committing to a custom ASIC.

The hardware is open and the software is free.

The board and case are designed with room for one or two breakout boards for application-specific sensors or hardware modules: "from barometers to cameras and radios ranging from BLE to LTE."

The case is also designed to be modifiable for applications that need more room: "the designs are open source, and the native Solidworks CAD files we provide are constructed such that the enclosure’s length and thickness are are parameterized."

The bezel is a "plain old FR-4 PCB" which can be easily swapped for a full-sized circuit board, while the LCD can be swapped with an OLED display for a much larger battery and more special-purpose hardware.

If you want a prefabriacated Precursor, you can sign up to back it on Crowdsupply (Huang has a long history of delivering his Crowdsupply projects on time and on budget):

https://www.crowdsupply.com/sutajio-kosagi/precursor

Alienware M17x - R1 Series Driver Download

System Information Alienware m17x - R1 Series: -Operating System: Microsoft Windows 7 Ultimate (64-bit) -Processor : Intel Core 2 Extreme X9000 @ 2.79 GHz -1 processor, 2 cores -Processor ID: GenuineIntel Family 6 Model 23 Stepping 6 -Processor Package: Socket P (478) -L1 Instruction Cache: 32 KB x 2 -L1 Data Cache: 32 KB x 2 -L2 Cache: 6144 KB -L3 Cache: 0 KB -Motherboard: ASUSTeK Computer Inc. F17 -Northbridge: Intel PM965 C0 -Southbridge: Intel 82801HBM (ICH8-M) B1 -BIOS: American Megatrends Inc. 306 -Memory: 4096 MB DDR2 SDRAM 333MHz

Alienware M17x - R1 Series Driver Download

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Get drivers and downloads for your dell alienware m17x. Released in 2008, this gaming laptop featured intel processing and dual amd graphics cards. I tried and the sent me an m17x key and didnt have an m17-r1 key. First aw 17 model post dell, still rocks with a 4870 crossfire setup, but if you are looking for one, better go with an r2and update it.

This will help if you installed an incorrect or mismatched driver. Problems can arise when your hardware device is too old or not supported any longer. Creative Labs Integrated Webcam Driver Alienware M17x Integrated Webcam Driver Alienware M17x Webcam Driver Alienware Alienware M17x Alienware Notebooks Creative Labs.

Install Alienware M17xR3 laptop drivers for Windows 10 x64, or download DriverPack Solution software for automatic drivers intallation and update. This beta driver has not been fully validated and has been made available in order to improve your gameplay experience with newer game releases; however some features.

Read all ALIENWARE m17x - R1 Series reviews

Alienware M17x Driver

ALIENWARE m17x - R1 Series Features

2-in-1

4K Resolution

AMD

ARM

All-in-One

Android

Backlit Keyboard

Bluetooth

Built-In Microphone

Chrome OS

Discrete GPU

ENERGY STAR Certified

Front-Facing Camera

HDMI Output

Headphone Jack

Intel

LCD Display

LED Display

Linux

Mac

Multi-Touch

Numeric Keypad

Point of Sale

Rack mounted

Rugged

SD Card

SSD

Small form factor

Smartphone

Thin client

Touch screen

Tower

VGA Output

Wi-Fi 1 (802.11b)

Wi-Fi 2 (802.11a)

Wi-Fi 3 (802.11g)

Wi-Fi 4 (802.11n)

Wi-Fi 5 (802.11ac)

Wi-Fi 6 (802.11ax)

Windows

iOS

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