mount lcd panel in case factory

Panel mount mostly used in kiosk , cabinet, inside wall with rough opening to drop the rear housing into recess area. The front bezel will be remain at outside for flat finishing.

In order for IP65/NEMA for panel PC, the front glass with be sealed with the front bezel and the rear side of the bezel will always come with gasket for providing waterproof between the bezel and kiosk.

The stud is come with front panel where you need to open holes at your kiosk for this stud to going through your cabinet. This is the best want to secure the panel mount lcd.

Before buying the Panel mount LCD ensure the the panel mount LCD bezel is larger than your rough opening, most vendor will provide you the cut out like this.

I saw a really cool video of a PC case called "Snowblind", that had a transparent LCD Screen as a side panel. I was amazed over how cool it was. The only problem was that it was really expensive. Therefore, I tried making my own! In this instructables I will go through how I made it, and how you could make your own. The best of all, since it was made from an old monitor that was thrown away, it was basically free! I just added some LED strips on the inside of the case to get better contrast on the screen. You could probably re-use the monitors backlight, but it"s safer and easier to just get some cheap LED strips.

The first step is to disassemble the monitor. The disassembly is pretty well documented in the video I made. I have also added some pictures so you can see the steps. The steps of disassembling the monitor will not be the same for every monitor, therefore I will not go into detail of every step.

PS: DO NOT DISASSEMBLE THE MONITOR UNLESS YOU KNOW WHAT YOU ARE DOING. THE PSU COULD STILL HAVE SOME CHARGE IN THE CAPACITORS THAT MIGHT ELECTROCUTE YOU.

You will have to reverse engineer the controller to find the power connections, and solder a new power connector on. This way, you can use the ATX power supply that powers your computer. I used a multimeter, where I had one probe to the ground plane (For example around the mounting screws), and used the other probe to search for 5V or 12V power on the pins coming from the power supply.

First, remove the frame of the panel. It is fixed with clips, so just bend the frame a little and lift the frame up. Next, separate the front LCD from the backlight. For the next step, you will have to be careful. This step involves removing the anti glare film. It is glued to the panel, and therefore it"s easy to break the LCD when trying to remove it.

To remove it place some paper towels on top, and then carefully pour water on it until the towels are soaked. Let it sit for around 24 hours. After 24 hours, try to start pealing the layer from the corner. If it sticks in some places, place a wet paper towel on that space and wait some more.

Then you are done modding the LCD! Now, you can hook it up to the panel and test it. Just be careful with the ribbon cables going from the LCD PCB to the panel.

The side panel of this case fits the LCD perfectly. Just line it up to the side facing the back, and to the top, and use some tape to tape it to the glass. Then, use some vinyl on the outside where the LCD is not covering the glass.

Next, use some double-sided tape to fix the LED strips to the inside of the frame. Then, solder them together in series. You can now solder on a wire and connect them to the 12V line of the Molex connector.

It"s really important to have lots of lights inside the case, to make it easier to see the LCD. Therefore, try to fill the case with even more LED strips.

You are now ready to assemble everything. In this case, the controller fit nicely in the hard drive compartment, so I glued it there and fed the ribbon cable through the hole in the inside of the case. That way it was pretty much hidden inside the case.

Now you can carefully mount the side panel back on the computer. You might have to drill a new hole for the thumb screw in the back to make it fit properly.

You can now power up the computer, open the screen settings and set it up for dual screens. You might have to flip the display 180 degrees too. When you have done that, open Wallpaper Engine and set a wallpaper of choice!

Hey I have a little question, I also have a Dell 1905FP, but I think it"s an older model because I don"t have a ribbon cable but a normal cable with a plug. My problem is that I have peeled off one film but it still looks like there is a second film on the back because it is still a little blurry. But I"m afraid that if I try to pull them off, my LCD display will break. Maybe you have an idea. Thanks in advance

Stunning result ! Bought for 10€ a Dell 1907FPc which is fairly similar to yours. I have trouble identifying the pin layout to find the 5V pin. Did you plug in the power supply to your AC while checking with your multimetter ?0

Great tutorial and video! I"m trying my hand at replicating your process and I even got my hands on the exact monitor. I have reached the point where I"ve disassembled the panel and controllers, and discharged the capacitors from the PSU, but I am a little stuck at this point because I don"t know how to wire up the molex header. I watched your video and saw that you had two wires soldered to the power connector. Which connectors are they and where do they go on the molex cable? Thank you!

Really neat. I saw the same snowblind case and wanted it but too expensive. I also saw someone who made their own using a USB monitor. But I like your setup better.2

Terrific job! May I ask why you would need to remove the front polarizer? If my understanding is correct, both the front and back polarizers are needed in order for the LCD to work properly (i.e., the light gets polarized by the back polarizer first, and then passes through the front polarizer)? You comments will be appreciated!

Hey, great work on this project. I wanted to buy the snowbind case but couldn"t justify the cost. I have the same case and I ended up picking up the same monitor that you used in your project.

Is it possible that you post or send me photos of the inside of the case when you have this installed? I"m just a bit confused on how you wired up everything?

I tried taking some photos, but I have covered the screen PCB with a cover, so it was hard to see in the photos. I basically just laid it inside the case with a 90-degree angle. I tried drawing it here: (view from the front)0

I used "wallpaper engine" to just set the animations as wallpaper on that screen. I mentioned it in the last step, but I could probably make a own step about that, if you are interested in more details.2

I think you should have more pics and info about the re- mounting the LCD. After all if you don"t do it right all that work is for nothing. While I understand your wiring diagram, I think that it should be explained and a larger part of this Instructible...for example to get white lite your are powering all 3 lanes (red,green,blue) on the RGB tape.

Hello, Wonderfull project, I have the same case and I would love to do it (if I have time and the screen to the right size). Just a question, can you put a photo of the cable connection to see if it"s easy to open the case ? One little suggestion, instead of connecting the panel to the graphic card (which mean to run a cable outside, why don"t you use a USB to VGA or DVI converter (like this https://www.amazon.fr/Adaptateur-convertisseur-adaptateur-Affichage-multi-écrans/dp/B079L81FRD/ref=asc_df_B079L81FRD/?tag=googshopfr-21&linkCode=df0&hvadid=227894524041&hvpos=&hvnetw=g&hvrand=17927658121409960098&hvpone=&hvptwo=&hvqmt=&hvdev=c&hvdvcmdl=&hvlocint=&hvlocphy=9055710&hvtargid=pla-442905712462&psc=1) ?

Thanks! So I actually bought one of those adapters, as well as an internal USB 3.0 to USB A port and tried it that way, but I couldn"t get it to work reliably. You might have better luck than I have, but I found it simpler to just run the cable through the case. I just removed one of the PCIE slot covers, and ran it out through there, so opening and closing the case is not a problem.More CommentsPost Comment

Hi everybody! Bill Owen from Mnpctech. I hope you"re having a great day! Several people have asked if I could share the steps on how I do my Touchscreen LCD mod in PC Computer case bezels, and you’ve come to the right video!

I’ve been using this Amazon 5 Inch Capacitive Touch Screens for $52.99 delivered on Amazon Prime, I’ll posted a link in Video description. The kit comes a with Micro USB for power and HDMI video connector, but these cables are too short for these PC case mods. It includes M3 stand-offs, a Driver Disc and some Instructions. It’s a 5 point Capacitive Touch screen with a Resolution of 800 x 460, which is just fine for it’s 5” viewing screen In addition to the LCD touchscreen, I will buy the following cables for my Desktop Custom PC LCD Case Mod.

One 3ft “Right Angle” 270 degree HDMI cord, 6” 90 Degree Angle HDMI Extension Adapter, and 3ft USB Male to Micro B power connector. For Mounting the LCD Touchscreen Panel, I use 3/16” thick Black acrylic to make custom mounting brackets for the LCD touch screen.

You can PAUSE the video on this page to record the measurements that I’ve made for cutting the acrylic. This PC Case Mod is very easy. "The reason I’m making brackets for my desktop PC LCD Monitor Mod?" I want the ability to easily install or remove the Touchscreen with thumbscrews. I’m using 1/8” drill bit for acrylic, and 6/32 thread tap, These Black thumbscrews from Mnpctech.com. I’ll use the 1/8” drill bit to increase the diameter of the holes in the LCD pcb frame.

I discovered these drill bits for plastic several years ago, Notice the bit isn’t splintering or cracking the acrylic as I make the holes. Mnpctech stocks a variety of these drills bits. My mod requires Twelve 6/32 washers, and links posted in description, “Why so many washers?” We want the Touchscreen to mount flush on the backside of the bezel, I also don’t want to apply any unnecessary pressure to the screen or the PCB, See how this sheet of paper easily slides under the screen Next stage is cutting the hole in the bezel, The best PC case for this mod is the ones without optical drive bays, which every popular case manufacturer now offers.

If you’re using an older case with 5.25 drive bays, you could attach a mounting plate with 5” opening that covers THREE 5.25 bays. That’s how we did this mod in the early days of PC Modding. Determine and measure out a location in the center of your bezel, you can also mount the LCD vertically if you prefer, and just change the screen orientation in Windows. Since the bezel is plastic, I’m using a Dremel with 1.5” reinforced cut off wheel, Don’t forget to always wear eye protection when using power tools. Oops, WTH? Hahaha After cutting our 5” diagonal square hole, I’ll hand file the edges so everything is precise and clean. You may have to remove sound insulation foam from backside of your bezel, I’m using E6000 adhesive to attach the two mounting brackets. This adhesive is very GOOEY at first, so consider masking off the screen, to prevent getting any of this on it. I like that it’s tacky for couple of minutes, so I have time to position the LCD in place, and then I’ll temporarily tape it in place while it cures overnight.

Mounting your Touchscreen LCD in the PC this way allows you to easily remove and re-install the LCD at any time. Especially if you ever need to replace it for some reason. Let’s get this LCD touchscreen connected to the PC, all of the cables are routed from the front to thee rear PCI slots. *3ft “Right Angle” 270 degree HDMI cord *6” 90 Degree Angle HDMI Extension Adapter cable, I plug this compact cable into the Touchscreen to save space. *3ft USB Male to Micro B power connector This mod is great if you want an extra screen for monitoring your hardware and temps. You can also display Weather or calendar or email notifications,

Check out http://www.Rainmeter.net this community offers several hundred custom mad graphic interfaces for FREE, and you can configure your screen to display a variety of updated information tasks Thanks for watching! And Again, all of the products used in this PC case mod are listed in the video description.

Industrial Display Systems provide a wide range of reliable displays from 5.7" to 55" including LCD displays, touch screen panels, outdoor displays and digital signage displays, and a series of industrial monitors including open frame monitors and panel mount monitors, which work perfectly with embedded boards and systems to fulfill various application needs.

First off, I had an issue unrelated to quality or the product in general. XYGStudy was able to get my issue solved quickly and had great communication.

In terms of the display, it is a very beautiful display. Personally I spray painted black the entire face of the unit to get rid of the grey bezel around it with no issues. I just wish the ribbon cable wasn"t on the bottom side of the display - but I was able to paint it black with no issues.

The case is nice, I just wish it covered the sides of the display a little more. But I really like how sturdy and clean the backplate is. It can protect the back of the PCB and the ribbons and ICs on it. Personally, I didn"t use the screws, but used the screws and double sided tape to adhere the two pieces together. After it was stuck on straight, I removed the screws.

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MOUNT PLEASANT, Wis. -Four years ago Monday, Oct. 4, Foxconn picked Mount Pleasant to house its estimated $10 billion project but plans never materialized to build flat LCD screens. Some residents say it"s been four years of broken promises, but the company is defending itself and its future in Racine County.

Foxconn makes parts for iPhones and is one of the world’s largest electronics manufacturers. The company says it"s already invested nearly $1 billion into Wisconsin. Recently, e-vehicle company Fiskercame to the Badger State to see if this could be the site to build their cars, in a partnership with Foxconn.

Instead, that plan stalled and Foxconn says it"s looking to Ohio. It announced its intent to buy an already-existing manufacturing plant in Lordstown, Ohio. The company added, "Foxconn"s assets in Wisconsin will continue to serve as a potential location for additional investment for Foxconn"s electric vehicle growth in the United States and continue to be the location for data infrastructure hardware and information and communication technology production."

The original deal– to create 13,000 jobs in Mount Pleasant in exchange for billions in tax breaks–was scrapped this year. In April, Foxconn renegotiated a six-year deal with Wisconsin – $80 million in taxpayer subsidies for more than 1,400 jobs.

"Originally, Foxconn said they were going to build large LCD screens," said Kelly Gallagher, Bettter Mount Pleasant. "Then it was small LCD screens. Then they were going to build an artificial intelligence hub. Then they were possibly going to create a facility to build medical equipment. Then they were going to do coffee kiosks. Then it was a home alarm systems. Then it was Google servers. In the effort to try to find anything to make or use the buildings around here for, Foxconn officials considered fish farming, boat storage and handbag exportation."

Foxconn says it is hiring to meet demands for data infrastructure hardware. The company says it has attracted the attention of other manufacturers and investors for future business development.

"They have promised us so many things over the years, and if it wasn’t so expensive and wasn’t so sad for us, it would almost be comical," said Gallagher.

FOX6 News requested interviews with all the members of the Mount Pleasant Village Board, the village"s administrator, the Racine County executive and the Racine County Economic Development Corporation. Even though the requests were done independently of the others, they responded in a joint statement:

"The village and county have experienced significant benefits from Foxconn"s development in our community - including the more than $750 million the company has already invested here. With the four buildings currently completed on the campus, Foxconn is already, by far, the largest taxpayer in Racine County. We continue to work closely with Foxconn to realize the vision in the local agreement and spur development, both at the Foxconn campus and throughout the Electronics and Information Technology Manufacturing (EITM) zone in Mount Pleasant. With new infrastructure installed in a key I-94 corridor between Milwaukee and Chicago, we’re poised for more growth and are working hard to continue our great progress."

Kim Mahoney, whose home is surrounded by the Foxconn development, criticized the statement. "The prepared statement is that Foxconn is the largest single taxpayer in Racine County. They are just gaslighting you because none of that money goes toward road repair, schools or government services - it all goes back to the TID (tax incremental district) to pay for all of the infrastructure that was ‘needed’ for Foxconn."

We develop, design, manufacture, and sell displays where it is necessary for the interface that deliver a lot of information at an instant and deliver it to the global market. We create interactive spaces that go beyond the expected, elevate everyday lives, and move people"s hearts. From bases in major cities in Asia, Europe, and North America, we build strong customer relationships by developing products that respond to market needs.

A few permanently bright or dark pixels are considered normal by industry standards. The exact number of pixels that are allowed varies depending on the monitor. Refer to Dell Monitor Quality and Pixel Policy for more details.

When the monitor is connected to a PC via HDMI and PBP mode is turned off, the monitor may display images at the lower resolution (2560 x 1440) rather than automatically switching to the native resolution (5120 x 1440).

When you close and then reopen the lid on a laptop, the Connecting and Configuring Displays (CCD) feature in Windows automatically reverts the display mode to the last active selection. This behavior is by design in Microsoft Windows.

When the monitor is turned-off and back on, the monitor may blink twice. This issue may occur if the PC is using a Nvidia Graphic NVS 310 card and graphics card resolution setting is 2560 x 1600.

To resolve the audio icon displaying, update the video or graphics (GPU) driver to the latest version. To learn how to download and update a device driver, refer to the Dell knowledge-base article How do I download and install a device driver?

If the monitor is powered-off and powered-on when displaying the Blu-Ray video, the Blu-ray player may lose the data signal from the system to the monitor.

To learn more about how to set up and configure the Dell P2422H monitor with a Dell docking station. Refer to your System Requirements and Supported Configuration in the support site.

This is normal behavior of the monitor. Dell consumer monitors are inspected at 150-lux ambient lighting (similar to typical office lighting). Dell UltraSharp and Gaming monitors are inspected with a tighter criteria of 70-lux ambient lighting (dimly lit room but not dark).

Dell P2422H monitor uses a curved IPS panel, the corners of the screen may appear slight yellowish or pinkish, especially when viewing in dark room. This is normal IPS panel behavior and typically does not affect the overall viewing performance.

Dell P2422H monitor is factory default set at HDMI EDID with 3 Block (Detailed Timing Descriptor) to support 5120 x 1440 @ 60 Hz. To display a resolution of 3840 x 1080 @ 60 Hz or lower, you need to switch the monitor HDMI EDID from 3 Block to 2 Block.

Unwanted horizontal stripes appear on the video playback window when viewing online videos on YouTube using Microsoft Internet Explorer or Microsoft Edge browser. They are also seen while watching online videos using the Movies and TV app.

An ATX case. The motherboard (MicroATX) is in a horizontal position at the top, and the peripheral connectors go at the panel located at the rear of the case and USB ports at the top. The fans are also at the rear and front. The power supply is on the bottom rear.

A computer case, also known as a computer chassis, is the enclosure that contains most of the hardware of a personal computer. The components housed inside the case (such as the CPU, motherboard, memory, mass storage devices, power supply unit and various expansion cards) are referred as the internal hardware, while hardware outside the case (typically cable-linked or plug-and-play devices such as the display, speakers, keyboard, mouse and USB flash drives) are known as

Conventional computer cases are fully enclosed, with small holes (mostly in the back panel) that allow ventilation and cutout openings that provide access to plugs/sockets (back) and removable media drive bays (front). The structural frame (chassis) of a case is usually constructed from rigid metals such as steel (often SECC — steel, electrogalvanized, cold-rolled, coil) and aluminium alloy, with hardpoints for mounting internal hardware, case fans/coolers and for organizing cable management. The external case panels, at least one of which are removable, cover the chassis from the front, sides and top to shield the internal components from physical intrusion and dust collection, and are typically made from painted metallic and/or plastic material, while other materials such as mesh, tempered glass, acrylic, wood and even Lego bricks have appeared in many modern commercial or home-built cases. In recent years, open frame or open air cases that are only partly enclosed (with freer ventilation and thus theoretically better cooling) have become available in the premium gaming PC market.

Cases can come in many different sizes and shapes, which are usually determined by the form factor of the motherboard since it is physically the largest hardware component in most computers. Consequently, personal computer form factors typically specify only the internal dimensions and layout of the case. Form factors for rack-mounted and blade servers may include precise external dimensions as well since these cases must themselves fit in specific enclosures.

For example, a case designed for an ATX motherboard and power supply unit (PSU) may take on several external forms such as a vertical tower (designed to sit on the floor, height > width), a flat desktop (height < width) or monitor). Full-size tower cases are typically larger in volume than desktop cases, with more room for drive bays, expansion slots, and custom or all-in-one (AIO) water cooling solutions. Desktop cases—and mini-tower cases under about 46 cm (18 in) high—are popular in business environments where space is at a premium.

Currently, the most popular form factor for desktop computers is ATX,small form factors have also become very popular for a variety of uses. In the high-end segment, the unofficial and loosely defined XL-ATX specification appeared around 2009. It extends the length of the mainboard to accommodate four graphics cards with dual-slot coolers. Some XL-ATX mainboards increase the mainboard"s width as well, to allow more space for the CPU, Memory PWM, and in some cases, a second CPU socket. While the market share of these exotic high-end mainboards is very low, almost all high-end cases and many mainstream cases support XL-ATX (10 expansion slots). As of 2018, no major motherboard manufacturer has made an XL-ATX board for several years. E-ATX is similar to XL-ATX in that it is larger than ATX and is also loosely defined. Unlike XL-ATX, E-ATX motherboards and cases are still in production (as of 2020), and support quad-channel memory across 8 slots of ram, up to 4 PCI-e expansion slots for up to 4 double slot graphics cards and a single CPU such as the AMD Ryzen Threadripper 3990X.In Win Development, Shuttle Inc. and AOpen originally popularized small cases, for which FlexATX was the most commonMini ITX has widely replaced FlexATX as the most common small form factor mainboard standard. The latest mini ITX mainboards from Asus, Gigabyte, MSI, ASRock, Zotac and Foxconn offer the same feature set as full size mainboards. High-end mini ITX mainboards support standard desktop CPUs, use standard memory DIMM sockets, and mostly feature a full-size PCI-E 16× slot with support for the fastest graphics cards, although some instead use a PCI, or PCIe slot of fewer than 16 lanes. This allows customers to build a fully-fledged high-end computer in a significantly smaller case. Apple Inc. has also produced the Mac Mini computer, which is similar in size to a standard CD-ROM drive, and many manufacturers offer mini-ITX cases of similar size for low-wattage CPUs with integrated graphics.

Tower cases are often categorized as mini-tower, midi-tower, mid-tower, or full-tower. The terms are subjective and inconsistently defined by different manufacturers.

Full tower cases are typically 56 cm (22 in) or more in height and intended to stand on the floor. They can have anywhere from six to ten externally accessible drive bays. The full tower case was originally developed to house file servers which would typically be tasked with serving data from expensive CD-ROM databases that held more data than the hard drives commonly available at the time. Hence, many full tower cases include locking doors and other physical security features to prevent theft of the discs. However, as computing technology moves from floppy disks and CD-ROMs to large capacity hard drives, USB flash drives, and network-based solutions, more recent full tower cases typically only have none, one, or two external bays for CD drives, with the internal bays moved elsewhere in the case to improve airflow. Today, full tower cases are commonly used by enthusiasts as showpiece display cases with custom water cooling, lighting, and tempered glass (replacing acrylic).

The marketing term midi-tower sometimes refers to cases smaller than mid-tower but larger than mini-tower, typically with two to three external bays.mid-tower.

Computer cases usually include sheet metal enclosures for a power supply unit and drive bays, as well as a rear panel that can accommodate peripheral connectors protruding from the motherboard and expansion slots. Most cases also have a power button or switch, a reset button, and LEDs to indicate power, hard drive activity, and network activity in some models. Some cases include built-in I/O ports (such as USB and headphone ports) on the front of the case. Such a case will also (normally) include the wires needed to connect these ports, switches, and indicators to the motherboard.

The motherboard is usually screwed to the case along its largest face, which could be the bottom or the side of the case depending on the form factor and orientation.

Form factors such as ATX provide a back panel with cut-out holes to expose I/O ports provided by integrated peripherals, as well as expansion slots which may optionally expose additional ports provided by expansion cards. Many larger ATX cases can also be used with motherboards of other form factors.

The power supply unit mounting point differs from case to case, but the most commonly used locations (both at the rear of the case) and their advantages/disadvantages are:

The top of the case, usually allowing the PSU"s built-in fan to act as an auxiliary exhaust fan but causes the PSU to be fed air heated by the internal components of the case, thus causing PSU efficiency and lifespan degradation.

Most cases include drive bays on the front of the case; a typical ATX case includes 5.25", 3.5" and 2.5" bays. In modern computers, the 5.25" bays are used for optical drives, the 3.5" bays are used for hard drives and card readers, and the 2.5" bays are used for solid-state drives.

Buttons and LEDs are typically located on the front of the case; some cases include additional I/O ports, temperature, and processor speed monitors in the same area.

Vents are often found on the front, back, top, left side panel, and sometimes on the right-side panel of the case. Regardless of their placement, their purpose is either to let cool air into the case or to let hot air out. Larger vents usually allow cooling fans to be mounted via surrounding threaded screw holes. Newer cases include mountings for larger 120mm or 140mm cooling fans for quieter operation than the 80mm fans formerly common.

An I/O template, or I/O plate, fits around the motherboard"s back panel of external ports. Sometimes provided by the case manufacturer, it is often replaced by the one that comes with the motherboard.

Accessing the interior components of a modern ATX tower case is done by removing the side panels. Looking front-to-back, accessing the motherboard, PSU, drive bays, and most case fan installation points are done by removing the left side panel.

Removing the right-side panel is done less often to access the space behind the motherboard mounting plate. This space is devoted to cable management, as cables routed in front of the motherboard may disrupt the flow of air within the case causing increased temperatures.BTX, an uncontemporary standard, has the main side panel on the right side as opposed to the left. Some upside-down designed ATX cases are also accessed by removing the right-side panel door.

To prevent the buildup of performance-degrading dust within the case, many models feature dust filters in front of the air intake fans. While the exact method of accessing the front filters depends on the case model, it usually requires the removal of the entire front panel. Removal of the front panel itself may or may not require the removal of one or both of the side panels. If there is any doubt, consult the user"s manual if possible.

Traditionally, most computer cases required computer case screws to hold components and panels in place (i.e. motherboard, PSU, drives, and expansion cards). From the early 2000s onwards there is a trend towards tool-less cases, in which components are held together with snap-in plastic rails, thumbscrews, and other methods that do not require tools; this facilitates quick assembly and modification of computer hardware and is also cheaper to manufacture.

Throughout the 1990s, most computer cases had simple rectangular shapes, and were often painted beige or white with little attention given to the visual design. Beige box designs are still found on a large number of budget computers assembled from generic components. This class of machines is still known as white box computers. More modern computer cases include a much wider range of variation in shape, color, form factor, and materials, such as brushed aluminium and/or tempered glass which are offered with more expensive cases.

Case modding is the artistic styling of computer cases, often to draw attention to the use of advanced or unusual components. Since the early 2000s, some cases have included clear side panels or acrylic windows so that users can look inside while it is operating. Modded cases may also include colored internal lighting, custom paint, or liquid cooling systems. Some hobbyists build custom cases from raw materials like aluminum, steel, styrofoam, acrylic, or wood.

Some computer cases include a biased switch (push-button) which connects to the motherboard. When the case is opened, the switch position changes, and the system records this change. The system"s firmware or BIOS may be configured to report this event the next time it is powered on.

This physical intrusion detection system may help computer owners detect tampering with their computers. However, most such systems are quite simple in construction; a knowledgeable intruder can open the case or modify its contents without triggering the switch.

In the past, many tower cases intended to house file servers featured a locking door covering the external drive bays. This was a security feature intended to prevent the theft of the CD-ROM discs the drives would be holding. At the time, CD-ROM capacity was larger than the hard disks available, and many business-critical databases were distributed on this media. These databases were often very expensive or held proprietary data, and hence would be likely targets for casual theft.

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a line of extreme and ultra-narrow bezel LCD displays that provides a video wall solution for demanding requirements of 24x7 mission-critical applications and high ambient light environments

Since 1983, Planar display solutions have benefitted countless organizations in every application. Planar displays are usually front and center, dutifully delivering the visual experiences and critical information customers need, with proven technology that is built to withstand the rigors of constant use.

Winmate Rear Mount Industrial LCD Monitor is a high brightness industrial monitor which supports a 10.4" 800x600 high brightness TFT LCD screen, IP65 aluminum front bezel, and wide operating temperature. Winmate Rear Mount Industrial LCD Monitor with high brightness industrial monitor is suitable for a wide range of outdoor industrial and commercial applications in the market, such as POS, Kiosk, and building automation systems. Liquid crystal displays are flat panel monitors which modify a white backlight by creating a barrier of millions of liquid crystals which can adjust which color is ultimately displayed to the end user. They have all but replaced the old CRT technology because of the significantly lower power usage and size reduction that they provide.

The Winmate Rear Mount LCD monitors are polarized devices, meaning there is a screen in place that only allows the EM waves of light to pass at one angle only. This can be seen when you attempt to view a computer screen with polarized sunglasses. The purpose of this polarization is to allow the orientation of the liquid crystal molecules to determine if light passes through them or not, which forms the basic structure of the monitor. Each Winmate Rear Mount LCD monitor has a system of pixels, and within those pixels is a sub-pixel structure that consists of three color filters—red, green, and blue. By passing light through these colors in either on or off states, the appearance of every color the human eye can process can be created. The on-off states are controlled by applied voltages through selector transistors in the display. These are TFT transistors, which actually are not transparent, but they are small enough that it does not significantly affect the light available for the monitor and are not noticeable to the human eye.

Winmate is listed in the “Top 10 Display Technology Solution Provider 2019” by Enterprise Technology Review, a leading United States-based print magazine providing insightful articles on the latest trends in enterprise technology. The Enterprise Technology Review selected the top 10 based on each company’s unique perspectives of technology and innovation that make them stand at the forefront of providing Display Tech solutions and impacting the marketplace.

As a display provider building rugged monitors that can quickly and efficiently integrate with almost any system and function in any severe and harsh environments, Winmate is equipped with a modular design to produce HMIs in various form factors that can satisfy different clients’ demands. One more thing that makes us outshine the market is that we optimize user experience with top-notch technologies. For instance, anti-glare (AG) or anti-reflective (AR) treatments are integrated with our displays for enhanced durability and reduction of reflections. Meanwhile, to achieve the ultimate performance, the color calibration process for electronic chart display and information systems complies with International Maritime Organization (IMO). Besides, Winmate’s position as a leading HMI solution provider is consolidated through collaboration with various organizations. The latest success case is that an energy service company was looking for an explosion-proof Panel PC solution that meets the tough oil & gas standards to act as a system controller and an HMI for their new high-tech, automation-based land drilling rigs.

EK®, the Slovenia-based premium PC liquid cooling gear manufacturer, launches its first external screen for PC enthusiasts – EK-Quantum Lumen 7″ LCD. This Quantum series 7-inch screen is a stylish and functional addition to any liquid cooling setup. The display is recognized as an additional desktop by your OS, offering a handy way of displaying any content your want or monitoring the computer’s vital parameters like component and coolant temperatures, fan RPM, core frequency, and more.

This is a high-quality IPS screen designed to be mounted inside the PC case or to be used as an external monitor for temperature, hardware load, and other information. It has a wide SVGA resolution of 1024 x 600 pixels. Its diagonal is 7 inches long, with the IPS panel type for superior viewing angles and vivid colors. It connects to the PC through HDMI 2.0 cable that is included in the package and an internal Type-A USB 2.0 port. Another USB Type-C cable is also included for using Lumen as an external display.

Just like all other EK Quantum products, this one also boasts a sophisticated design with the screen frame machined from a single piece of aluminum which is then plated for three material finish options – nickel, black, and silver.

Groves and notches are strategically placed on the back side of the screen to hide the cables and ease the cable management, thus creating its sleek look and feel. The frame of Lumen is CNC-machined out of a single large chunk of 20mm-thick aluminum that is 195mm long and 115mm wide.

The sturdy aluminum frame offers three mounting positions with hole spacing aligned with 120mm fans. This allows the screen to be moved up and down or centered, depending on your preference, while ensuring a high degree of compatibility with most modern cases. EK-Quantum Lumen can also be mounted on EK-Loop Angled Bracket 120mm to allow 90-degree rotation and additional positioning options.

With a width of 192mm and a height of 112mm, it has the perfect size not to outshine the rest of your PC and still adds a pretty big surface for relevant data or special aesthetic effects. There are three versions available, relating to the color of the aluminum frame.

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