can lcd displays be put on clothing for sale

The need for an up-to-date store layout has led to an increase of the use of digital displays. This shift towards the use of digital displays is due to the fact that they’re capable to replace any static item, from backgrounds, images of products, brands and logos. The digital displays and touch-screen devices are not used for the sole purpose of captivating customers while in the store, but also for their potential to determine customers search for similar items.

The in-store experience has to integrate the features of the digitized era, allowing clients to usespecific content in order to optimize the shopping experience in the well-known intention to counteract the emergence of online shopping.

Retailers’ issue now is to overcome this increase of technology that gathers almost every piece of information, human interaction and some activities on a single device. In order to grab their attention, the proliferation of e-commerce and omni-channel retailing might be seen as a way to adapt to the changing retail environment.

By using digital displays, along with props, signage or mannequins, with animated graphics that supplement the relative static overview of the (window) displays, the overall look is energized and diversified, rendering an up-to-date impression.

Digital displays are an effective sales tool, and are able to provide solutions that can add various levels of sophisticated technology to your retail space, captivating consumer’s interest. They represent a growing segment of the global economy, apparel stores proving open to implement advanced displays. It helps building a complex shopping experience by mixing technologies and strategies (classic and modern / advanced) and they can also help create the immersive environments that build a visible and appreciated brand that keeps customers coming back for more.

There are a few types of displays that keep being used (of course, with their constant process of upgrade): CRT (Cathode Ray Tubes), LCD (Liquid Crystal Display), Plasma, Projector, OLED (Organic Light Emitting Diodes). Digital displays can widely be used with multiple functions, as mentioned above, but also as digital signage solutions.

According to certain business needs, we may talk here about: indoor digital displays (provide the list of services and messages for customers), digital posters (maybe one of the most effective signage solutions, and also a cheap one; the only “inconvenient” is that the updates must be executed manually using a USB flash drive), outdoor dynamic digital signage solution (placed outside the store to ensure a first effective impact; it is a perfect way to promote your brand to customers that are not aware of your products / services and so on, especially when you’ve just start your business).

Digital products are designed for public venues and can effectively withstand the demands of store’s environment because the most important aspect that retailers are working on is providing the most interesting and captivating shopping experience. Digital displays or signage are designed to create unique backdrops or eye-catching focal points in retail design.

They provide an interactive experience for customers and staff as well, being used on the entire area of the store and also outdoor, for a better promotion. From small format displays for your staff to use for shopper check-out, to self-service kiosk displays, to larger-than-life multi-touch video walls, digital displays provide various solutions to create interactive experiences that will definitely boost sales and brand awareness.

Generally, digital displays are created so as to ensure an easier placement, installation and a less expensive maintenance. But this is not the only advantage that they have. Using them, you stand out from other apparel stores because you invested in turning your retail location into a destination for consumers, a destination that makes use of elements to ease their needs, like providing information easily and letting them know the specific of your store and products or other useful things.

Also, with the help of smartphone programs and applications, you can bring your store even closer to your customers, helping them extend the process of shopping to a more relaxed and pleasant activity.

A new kind of fabric can turn into a working keyboard, light up like a display, or even help send texts all while being bent, folded, and even washed like any other piece of clothing.

Researchers from China"s Fudan University built the material to withstand all the abuse we put other articles of clothing through while still serving as a useful piece of tech, according to The Independent. The tech, assuming it takes off and weaves its way into our clothing, could make for some useful new wearable gadgets — or, at the very least, lead to some great new hypebeast-style shirts with changing, billboard-like displays.

Most attempts to develop electronic textiles result in an unsurprisingly-fragile piece of cloth, but this new fabric display still worked, mostly, even after 100 washing and drying cycles, according to research published last week in the journal Nature.

That"s an important step toward building electronic clothing that actually makes it out of the lab and onto people"s bodies — a leap that has often proved insurmountable to other electronic textiles that remained in the proof-of-concept stage.

It"s not all fun and games, either. In the paper, the authors suggest that using a speech-to-text display that shows a message on their shirt could help people communicate in a new language or even help people with physical or cognitive impairments express their needs.

And in a purely aesthetic sense, the tech might open up a whole new world of clothing design as artists integrate electronic displays into outfits — hopefully even causing a revival of those cool light-up sneakers I never got to wear as a kid.

There has been some confusion about what, exactly, a fur fabric display is. Philips Electronics filed a patent application with the simple title "Fabric Display," though some science blogs and magazines have referred to it as "furry television." At its most basic level, this fur fabric display relies on a very simple technology. Patches of fur cover an image, and when the fur moves, it reveals the image underneath. It"s a simple way to conceal and reveal designs.

The fabric display has three layers. The bottom layer is conductive, which means it can carry electricity from a power source -- like a small battery pack -- to the rest of the fabric to create an electrostatic field across the fur, which gives each strand of fur the same electrical charge.

The next layer in a fur fabric display is the fabric"s base color or design. This could be a company logo, a picture or just a particular color. The furry display doesn"t change the design on the cloth; it just hides or reveals portions of the design at a given time.

The third layer is the fur. It can be any color, but it must be short enough so that when the user turns on the electrostatic field, the strands stand on end and reveal the design or color of the fabric underneath. For example, in a simple fur fabric display, you could use red fur to cover a blue shirt. When you turn on the power for the conductive layer, the red fur would stand on end, revealing the blue shirt underneath. To a distant observer, it would appear that the shirt had just magically changed colors.

The patent application refers to each small, visible section of the base fabric as a "pixel," which may be why some articles refer to the display as furry television. While it might be possible to approximate primitive animation techniques by printing one image across the fur layer and a slightly adjusted image on the fabric underneath, it"s not quite the same as watching television on someone"s jacket.

To understand static electricity, we need to start all the way down at the atomic level. All matter is made up of atoms, which contain charged particles. Atoms have a nucleus consisting of neutrons and protons and a surrounding shell that is made up of electrons. Neutrons carry no charge, but protons have a positive charge and electrons have a negative charge. So, if an atom has more protons than electrons, its charge is positive, and if it has more electrons than protons, its charge is negative. Similar charges repel each other and opposite charges attract one another. An electrostatic field applied to fur creates a similar charge across the fur and the base of the material. Since similar charges repel one another, the fur moves as far away from the base of the material and other strands of fur as it possibly can, causing the strands to stand on end.

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If you want to add logos and other designs to clothing and other textiles, embroidery and screen printing are your two primary options. Both of these options can produce quality work, but they each have their advantages and disadvantages.

Embroidery is often viewed as the more long-lasting choice, and can deliver professional results for uniforms and more. Screen printing can sometimes be more cost-effective, especially when using local services, and is often a better choice for larger designs.

Before you decide whether embroidery or screen printing is right for your purposes, take a look at what each one could offer you for whatever purpose you need it for.

Cost is likely to be the biggest concern for any entrepreneur who wants to have garments or accessories customized. It already costs a little more to have something personalized than to simply buy it as its made, so you don’t want to overspend.

One thing to keep in mind is that neither option will always be cheaper. Which one is more cost-effective will depend on a number of factors, including the complexity of the design, where you have the work done, the size of the design and the quality of the garments that you use.

Most embroidery will allow you to have up to 15 colors at little to no extra cost. However, large logos and designs are likely to be cheaper with screen printing, and large orders can reduce the costs too.

Durability is another concern, and this is where embroidery is often the better choice. An embroidered design, which is stitched straight into the fabric, is much more likely to last for longer than a screen printed design, which is printed on top of the fabric.

One of the issues with screen printing is that the design can crack and fade as time goes on. This is especially likely if the garment isn’t cared for properly, which means washing it carefully. Embroidery, on the other hand, is less likely to fade or show any damage. With quality stitching, it can last for a long time.

A screen printed garment could be ruined in a flash if it’s put in the washing machine at the wrong temperature or ironed on the wrong side. Embroidered logos don’t present such problems, although the stitching can be snagged or damaged occasionally.

Embroidery creates a design with a nice amount of weight that looks sophisticated and should last for a long time. The design is in 3D, as opposed to the flat design of a screen printed logo, and the strong thread presents a shine that makes the logo eye catching too.

You also need to think about the most appropriate applications for both embroidery and screen printing. Each of them can be more suited to different types and qualities of garments. For example, embroidery is more suitable for heavier garments.

Thinner and lower quality garments aren’t necessarily the best choice for embroidery because thin material tends to pucker when embroidered. Embroidered logos are excellent for good quality uniforms that you want to last for a long time.

Polo shirts with logos and perhaps even names stitched onto one side are a classic choice. However, if a larger logo is required on the back of the shirt, screen printing can be a more suitable choice.

Screen printing can be the better option for T-shirts and other thin or stretchy garments. The printing doesn’t create the tension that embroidery does so it doesn’t cause the material to pucker up.

If you want to customize T-shirts, hoodies and similar items, or you want to print larger logos, screen printing is likely to be the most suitable option.

However, for other garments, including polo shirts, outerwear and caps, embroidery is the most durable and sophisticated option for your logos. It looks smart and will last a long time, plus it’s suitable for a wide range of garments and other items.

Embroidery has been around for centuries, making it an ancient method of applying decorative touches to garments. With that in mind, here are some of the most interesting facts about embroidery:

An archaeological excavation dug up the remains of a Cro-Magnon with clothing items decorated with embroidery. The Cro-Magnon were believed to be around in 30,000BC – this shows how old embroidery is!

Machine embroidery was first introduced in 1828 by a man called Josue Heilmann. This sparked the trend of being able to produce embroidery on a mass scale.

Despite what you might think, screen printing was around as far back as 960 CE during the Song Dynasty in China. Back then, it was used as a way of printing money.

Screen printing can be applied to glass, metal, gold, wood, electronics – the list goes on! So, it’s more versatile than expected, with uses extending beyond t-shirts and clothing.

The first example of a promotional t-shirt using screen-printing was when The Wizard of Oz came out. After that, many other movie producers used screen printing to promote their upcoming films.

Both screen printing and embroidery have their advantages, but you need to consider a few factors before deciding which one is best. Take into account the size of your logo design, your budget, the items you want to customize and the size of your order before deciding which one is best.

LCD display screens are everywhere. You probably own one or more devices with an LCD display screen at home and at work. This includes your TV, computer monitor, watches, clocks, smartphones, and even calculators.

But have you ever wondered about how your LCD display screen works, its lifespan, components, and how it holds up to other emerging display technologies today?

Knowing all these things about your LCD display lets you appreciate your screen all the more. Caring for your device becomes easier when you’re armed with this knowledge.

LCD display screens make use of Liquid Crystal Display technology. The screen is embedded with liquid crystals, a substance that has properties in between a conventional liquid and a solid crystal. Liquid crystals can flow, but their molecules carry a crystal-like solid orientation.

Liquid crystals are responsible for producing an image flashed onto the LCD screen. They don’t emit light, though. Backlights are used to illuminate these crystals.

A display screen is made up of several tiny color blocks called pixels. The term is a portmanteau of “picture” and “element”, denoting pixels as little elements making up an entire screen picture. A screen is typically made up of millions of pixels.

Every pixel on the display screen is made up of red, blue, and green light. These lights can be quickly turned on or off to create an overall moving picture or image.

Now, in LCD displays, pixels are regulated by using liquid crystals for rotating polarized light. Polarized light denotes light waves with vibrations occurring in a single plane. In LCDs, this is achieved by using polarized layers.

Each pixel has polarizing filters on both its front and back. Tiny nematic (twisted) liquid crystals are placed in between these filters. The liquid crystals can be switched on or off electronically through tiny electronic transistors.

When the liquid crystal is turned off, electricity controlled by the transistor stops flowing. The pixel is then turned on, brightening up due to the 90-degree twisting of the nematic liquid crystal. This allows light to pass through both polarizing filters on the pixel, illuminating the pixel by letting light pass through.

When the liquid crystal is turned on, electricity flows through the nematic liquid crystals. They completely straighten out from their twisted state. The polarizing filter in front of the liquid crystal blocks out the light, resulting in the pixel turning off and becoming dark.

A single LCD contains millions of pixels, nematic liquid crystals, polarizing filters, and transistors. They all work together to create images on the screen.

Most LCD monitors have a lifespan ranging from 30,000 to 60,000 hours. That’s equivalent to 5-7 years using the monitor for 24 hours per day. It could also translate to 10-20 years with running the monitor for 8 hours a day, 5 days a week.

The backlight’s life expectancy is the biggest factor in determining the LCD display lifespan. It’s because liquid crystals do not give off light from themselves. The liquid crystals depend on the backlight for illuminating them. Hence, the LCD screen wears off when the backlights dim as it reaches its maximum lifespan.

The backlight serves as the illuminator of the entire LCD display device. Without a backlight, the LCD device remains darkened and hard to use. Backlights are installed directly behind the LCD panel to lighten up the display.

Simple devices such as pocket calculators don’t use a backlight for their LCD screens. Users rely on natural light to see the numbers displayed on such calculators. However, the majority of modern LCD screens such as televisions, computer monitors, smartphones, aviation screen panels, outdoor signages, and medical monitoring devices use backlights as their internal light source.

This type of backlight is the most popular and widely-used light source for LCDs today. Light-emitting diodes are semiconductors that emit light once electric current flows into it. Particles carrying the electric current are called electrons holes. These combine with electrons in the semiconductor, releasing photons (light particles).

Band separations called bandgaps determine the photons’ energy. Furthermore, the photon’s energy dictates which color the LED emits, depending on the emitted light’s wavelength. Various kinds of semiconductors and their corresponding varying bandgaps create different light colors.

Edge-Lit White LED (EL-WLED)– One or more LED rows are placed on the screen’s edge. A special light diffuser is used to scatter the light evenly across the entire display screen. Computer monitors, laptops, notebooks, and even HDTVs are now lit in this way.

White LED (WLED)– The LCD panel’s rear side is lit up with several white-colored LEDs. A diffuser is set in front of the LEDs to help evenly smooth out the light throughout the screen. Some computer monitors and large-screen LCD TVs use this LED technology.

Red-Green-Blue LED (RGB LED)– This technology works like WLED. The difference is that it uses red, green, and blue LED combination lights instead of white lights. Better picture quality and higher color gamut are its advantages over WLED and EL-WLED.

ELP uses electroluminescent materials such as colored phosphors instead of heat to create light. This material is placed in between two conductor layers. The material emits light as a result of an electric current flowing through it. ELPs are mostly used in small LCD screens.

CCFL backlight uses a cold cathode fluorescent lamp as its main light source. This lamp consists of a cathode that isn’t heated electrically by a filament, hence the connotation “cold”.  A diffuser is placed in front of the CCFL lamp to evenly distribute light across the entire screen.

The cathodes used in CCFL produce light by creating a non-heated thermionic emission of electrons. This is accomplished by using discharges in mercury vapor to create an ultraviolet light. This light, in turn, creates a fluorescent coating inside the lamp, resulting in visible light.

Computer monitors and TV screens predominantly used CCFLs for backlights. However, modern manufacturers opt for LED technology instead of CCFL for their devices’ backlights.

HCFL backlights have filaments that need to be heated to excite mercury atoms, cause the current to flow, and ultimately emit light. HCFLs are often used in LCD equipment such as medical devices, custom task-oriented lamps, scanners, and outdoor LCD signs.

Liquid crystals are the heart of an LCD display. This unique substance flows like a liquid but retains many characteristics of solid crystals. They have long and cylindrical-shaped molecules that can twist when changes in molecular orientation happen.

Different liquid crystal families are used in LCD displays. One requirement of such liquids is to exhibit mutual attraction. Also, the molecules in the liquid crystal need to be anisotropic. This means that the liquid crystal molecules have that average structural order along a molecular axis.

Liquid crystals are often sandwiched in between the color filters and the polarizers. They twist and straighten in response to electrical currents applied to them. The movement of liquid crystals controls whether polarized light will pass through the filters or not.

The nematic phase is characterized by the crystal molecules freely moving around the liquid. However, these molecules point themselves to one direction only, making it unique from pure liquid molecules. Nematic liquid crystals are the most common liquid used in LCD screens.

In the smectic phase, the liquid crystals keep their similar orientation and direction. But the molecules are now lining themselves into layers. The smectic layers have restricted movement, creating a solid-like state in the liquid crystals.

Also known as the chiral nematic phase, the cholesteric phase happens when the liquid crystal molecules align themselves at a slight angle to each other. The molecules become stacked in very thin layers as well. The cholesteric phase also allows molecules to change color from exposure to different temperatures.

Now, molecules in liquid crystals move as a reaction to an electric field. Their arrangement changes as a voltage are applied to them. This allows liquid crystals to control polarized light, which, in turn, defines which pixels on a screen will be illuminated or not.

Color filters are found in between the liquid crystals. These filters determine whether the pixel shows red, green, or blue colors when activated. The filters work by independently controlling the pixel’s red, green, and blue sub-pixels. With this, the LCD screen can reproduce all possible colors found in the color space.

The color filters aren’t active elements, though. It’s the liquid crystal molecules that control the light passing through the filters. The color filters simply determine the color the pixel shows based on how much light is passing through them, as determined by the applied electric voltage and the movement of the liquid crystal molecules.

An LCD cell is made up of two polarizing filters. They enclose the LCD display and color filters. One polarizing filter is located in front of the backlight and is horizontal in orientation. The other one is found just beneath the pixel in front and is vertical in orientation. Polarizing filters are typically made of transparent crystals or glass substrates.

The role of polarizing filters is to control which light patterns can pass through the LCD screen. Without these filters, visual images generated by the LCD panel will have a poor contrast ratio and an inferior quality image.

Now, light emitted by your panel’s backlight source enters the first horizontal polarizing filter. It then passes through the liquid crystals. The polarized light vibrates vertically if the liquid crystals are in a twisted state. Hence, these light waves can then pass through the second vertical polarizing filter. The pixel on the screen turns on and is illuminated properly.

Meanwhile, if the LCD display is arranged in a straightened way, the horizontal light waves that came from the first polarizing filter will be blocked from entering the vertical polarizing filter. The pixel is then turned off and no light illuminates it.

The two polarizing filters need to be vertical and horizontal in orientation, respectively. If the filters are oriented in the same way (ie; both horizontal or both vertical) will block all the light passing through, displaying nothing on the screen.

TFTs are responsible for providing electrical voltage to the LCD display. Each screen pixel has a corresponding transistor, enabling the pixels to easily be controlled in unison through changes in electrical current.

Using TFTs requires less charge and less power to operate the LCD display screen successfully. TFT use also leads to sharper images because each pixel has its own transistor controlling it. The charge given to a certain pixel can be actively maintained even if the screen is refreshed to display another image.

That’s all the basic information you need to know about LCD display screens. Now, you know how an LCD screen works, its possible lifespan, its components, and how it compares to other display technologies.

Armed with this information, you can better appreciate and take care of your LCD display devices. And in case you’re planning to add display devices to your business, the information you’ve learned will help you make educated choices regarding the display technologies you’ll utilize.

If you are currently staring at an old LCD monitor and a pair of discarded spectacles, and are wondering if there"s something you can do with them in the next couple of hours, then good news! We have just the project for you. So go grab yourself a coffee, some paint thinners and an X-acto knife (do not mix these together) and I"ll finish writing this post.

The project is this rather excellent "privacy" monitor, a display which can only be seen by you when wearing a pair of magic glasses, as built by Instructables member Dimovi.

The theory is simple: Remove the polarized film from the monitor so that you only see a white backlit screen. Then take this film, cut to fit your spare specs and you can see the screen only when you wear them.

The practice isn"t much more complicated. Once you have removed the monitor"s bezel, you slice the film like an art thief would slice an etching from its frame. Use the thinners (which you hopefully still haven"t mixed with the coffee) to remove any glue still stuck to the glass screen and reassemble.

Now, using the old glasses lenses as templates, cut yourself some new polarized lenses and pop them into the frames. You"re done. This is, of course, completely impractical for everyday use, but for secure computer use, or just watching porn whilst sitting comfortably amongst your coworkers, it"s ideal.

If you are a fan of building or prototyping your own electronics, you already know how hard it can be to find the exact type of components you need. Your builds can really benefit from more advanced components, including LCD displays. If you are an Arduino user, there are many Arduino LCD displays, repurposed LCD screens that are compatible, and shields to add the display output to your creations. The LCD display modules you find from the trusted sellers on eBay come in many different sizes, starting with screens that shows 2 rows of 16 characters, 4 rows of 20 characters, and low resolution graphical displays with dimensions of 240 by 128 or 128 by 64. If you need to replace screens for your devices, such as Android tablets, you can also find digitizer 7-inch LCD displays for your model. These LCD displays can be found from the list of sellers, many of whom offer convenient shipping options, so you can get your screens at a time that is good for you.

Your smartphone"s screen is the part of the phone that lets you see everything and interact with the device. If it gets a crack or receives some other damage, you might not be able to use it as intended. You can browse through eBay"s huge selection of inexpensive cell phone screen repair tools to find a kit that will help you fix mobile phone screens.

Cell phone screen repair kits are available from eBay in a variety of types. Some types have a general mix of tools, and others are made with a specific purpose in mind. You can use the helpful categories on eBay to sort through the hundreds of cell phone screen repair options you"ll find there. Some common types that are available to you include:

Screwdrivers - Many phones use proprietary or very small screws to keep the frames together. A phone repair screwdriver kit can help you take the phone apart.

Many cell phones have screens that come in two parts. The LCD display is the part you see in the first layer. It shows you images, videos, and texts that are on the screen. A second layer over the first has sensors that allow you to interact with the screen using your fingertips. During cell phone screen repair, it is sometimes necessary to use an LCD separator to take apart the two layers of the device. You may need to replace one or both of them to repair your phone.

You can find all-in-one cell phone repair kits on eBay. These kits include all the tools and parts you might need for screen repair work on phones. They are intended to work with as many phone models as possible. The main items you will find in one of these kits are adhesive strips and suction cups to help you separate the phone"s layers, various screwdrivers to deal with the small screws, prying tools, and pliers to hold the phone open. These parts are designed to be safe for the delicate parts you"ll find in your phone, but you should exercise care when performing any repairs.

Announced in a press release on Thursday, the stretchable display has a resolution of 100ppi and is capable of displaying full-color RGB. The prototype was created using micro LEDs with a sub-40μm pixel pitch that were built into a silicon substrate typically used in contact lenses. According to LG Display, this gives it a consistency “similar to that of a rubber band” and allows it to be stretched in any direction by up to 20 percent.

Other styles of flexible display technology have been commercially available for some time, such as LG’s own rollable OLEDTV or the LG G Flex phone. Foldable devices also often utilize a malleable screen, though this new stretchable display technology is theoretically more flexible while providing better durability — supposedly capable of comfortably withstanding heavy external impacts.

“Stretchable displays are not only thin and light, but also can be attached to curved surfaces such as skin, clothing, and furniture,” LG Display says in a press release. The company hasn’t announced any products that will feature the technology but expect it will eventually be utilized within industries such as wearables, mobility, smart devices, gaming, and fashion. This stretchable screen is the first prototype being developed by LG Display as part of a government-led development project, with the Korean-based company hoping to improve on the display technology by 2024.

LG Display isn’t the only company exploring stretchable displays. Samsung has previously showcased the viability of the tech in real-world applications after creating a stretchable OLED screen in a prototype heart rate monitor back in June 2021.

LED stands for Light Emitting Diode. SMD refers to Surface Mounted Diode, a technology that utilizes a process of mounting each LED chip (pixel) directly to a printed circuit board (PCB). Mounting the diodes in this fashion allows displays to be thinner and sleeker than older LED technology. SMD also allows for finer pixel pitch. Simply put, pixel pitch refers to the distance between the diodes and is responsible for resolution. Fine pixel pitch translates into high resolution. Fine pixel pitch is what makes HD and UHD LED possible.

LCD panels are made of a layer of liquid crystal between two pieces of polarized glass. Liquid crystal can not emit light. Backlights are therefore used to illuminate the display. LCD panels are sleek in design, but typically limited to specific sets of dimensions.

LED technology is modular in nature. This means that LED panels fit together seamlessly and can be used to make displays to fit any space. Custom cabinets can even be built to accommodate unusual shapes or dimensions.

LCD video walls on the other hand take on a tiled approach. This means that screens are jutted against one another. This approach creates bezels or seams and the final dimensions of the wall is directly dependent on the dimensions of the individual screens.

LED is a versatile display option. Thanks to various IP options, LED video walls can be displayed indoors or outdoors. LED video walls can be built with a variety of internal mechanisms as well. Quick refresh rates and dual power backup can ensure that LED video walls look great on camera. Various pixel pitches can ensure the proper resolution for the right context.

LCD is a more straightforward product and consumers are generally more familiar with LCD. LCD is used for cell phones, computer screens, and most TVs, but is it the best choice for video walls? Ultimately that choice is up to the consumer. LCD is cheaper, but generally less customizable. LCD does not work well for outdoor uses and is generally very limited in terms of size and shape.

LED technology has improved drastically in recent years improving quality while driving costs down. LED is a bigger investment up front but generally has a lifespan of about 100,000 hours.

Just like anything else, the best video wall product is largely dependant on context. If you like LED technology but are unsure of the process associated in obtaining a LED video wall read: How to Purchase a LED Video Wall Display.

Fashion stores are continually looking for new and innovative ways to inspire purchases, generate brand awareness and increase customer loyalty through Digital Signage.

With Pro Display’s unique and innovative AV technology solutions, fashion stores are able to stand out from the crowd easily through creative application of products that present visual effects not usually seen. Ideal for working into merchandising, self-service applications, communicating offers or even helping to launch new products,  Pro Display’s range of products offer something for everyone.

Brick and mortar fashion stores are competing more than ever with the ease of online shopping, relying on the instore experience to temp people onto the shop floor. One of our favourite products for retail use is our interactive mirror screens, designed to change the fitting room experience forever. Niketown in London opted to use our Mirror Touch screens as part of their bra fit experience, providing all the right information at the right time.

70% of all purchasing decisions are made in the fitting room and with Nike implementing these displays, users could learn more about the product they were purchasing as well as being upsold other colourways, similar styles and product recommendations. These interactive screens allowed Nike to grab the attention of the customer at a key drop-off point in the buying journey, allowing for a more personalised shopping experience to encourage a sale. These screens were also used to promote meets and local exercise classes to offer a sense of community, building a better customer-to-consumer relationship.

Our Digital Glass ultra-short throw projection screens can be made in sizes up to 8 x 3m creating unmissable digital displays. We supplied the largest rigid rear projection screen for use in Level Shoes in the famous Dubai Mall and also a custom square digital glass screen for YSL in Harrods luxury department store.

Our sunscreen rear projection film facilitates projection window displays in even challenging lighting environments. Working in even direct sunlight with interactive options, these sun readable projection displays showcase everything from sale advertisements to runway shows.

Transparent Screens are designed for use in these kind of retail environments, bringing physical and digital displays together in an eye-catching fashion. Manufactured as either a raw panel or a finished display case these screens show white content as transparent, allowing digital messages appear to float in mid-air.

Nike implemented our Transparent Screens in a unique way in their 3rd ‘House of Innovation’ in Paris, France. Rather than building the screen into a surrounding housing as standard, the screens were paired with a powerful oversized backlight creating a more minimalist display solution. These screens were dotted around the store as futuristic way finders fitting perfectly into the store’s interior. We’ve also supplied interactive Transparent LCD Kiosks for Adidas’s GMR roll out, featuring in stores in London, New York and Vancouver.

Display all the right content in one place with our transparent touch screens, ideal for integrating into clothing displays. Layer our Interactive Transparent Screens in front of your clothes to provide more information, stock figures or style inspiration.

Used in product launches for Rolls Royce and Jaguar, these Switchable Projection Screens are also a great window display solution. Switched clear by day to allow shoppers to browse from outside and switched back to frosted creating a HD/4K advertising projection surface and theft deterrent.

An engaging window display is one of the key drivers for footfall in retail, with each store often competing against it’s neighbours to get customers through the door. By creating an interactive window display, users are directly engaging with the brand to create their own personal experience. Our Interactive Projection Foil was used in the window of designer brand, Hugo Boss, encouraging users to choose their favourite Hugo Boss brand by browsing the products on screen.

Our Interactive Touch Foils were also used in Republic, allowing users to browse the online store where they could order items that were out of stock or not held in the store. This not only allowed shoppers to take control of their experience without the need to engage with a member of staff but also helped to keep the sale within the store rather than leaving it to chance that they would complete the sale at home.

Create an unforgettable window display with our Transparent OLED Screens, operating with no need for housing or a backlight on screen content appears to float in mid air, creating an especially effective display in Jewellery or luxury retail environments.

Streamline staff responsibilities with our Interactive Kiosks, offering customers the option to check stock, order on line or locate an item instore, allowing your team to focus on keeping ques down and maintaining the appearance in store.

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Responsible for performing installations and repairs (motors, starters, fuses, electrical power to machine etc.) for industrial equipment and machines in order to support the achievement of Nelson-Miller’s business goals and objectives:

• Perform highly diversified duties to install and maintain electrical apparatus on production machines and any other facility equipment (Screen Print, Punch Press, Steel Rule Die, Automated Machines, Turret, Laser Cutting Machines, etc.).

• Provide electrical emergency/unscheduled diagnostics, repairs of production equipment during production and performs scheduled electrical maintenance repairs of production equipment during machine service.