gas display screens in stock

Daktronics comprehensive line of FuelightTM gas price displays are specifically designed for the petroleum industry with high-contrast, full-height, broad-stroke digits that provide clear and highly legible fuel prices. The displays feature energy-efficient LED technology with outstanding visibility and impressive viewing angles.

Replace your changeable copy board with a FuelightTM price display. Travelers can see the highly visible LED digits from a long distance, and you can instantly update fuel prices with the FuelinkTM controller. Our LED gas price displays interface with several Point of Sale (POS) systems making updates easier. With Fuelight price displays, you have the option of updating display and fuel pump prices from a single location.

Alibaba.com features an exciting range of digital gas station display that are suitable for all types of residential and commercial requirements. These fascinating digital gas station display are of superior quality delivering unmatched viewing experience and are vibrant when it comes to both, picture quality and aesthetic appearances. These products are made with advanced technologies offering clear patterns with long serviceable lives. Buy these incredible digital gas station display from leading suppliers and wholesalers on the site for unbelievable prices and massive discounts.

The optimal quality digital gas station display on the site are made of sturdy materials that offer higher durability and consistent performance over the years. These top-quality displays are not only durable but are sustainable against all kinds of usages and are eco-friendly products. The digital gas station display accessible here are made with customized LED modules for distinct home appliances and commercial appliances, instruments, and have elegant appearances. These wonderful digital gas station display are offered in distinct variations and screen-ratio for optimum picture quality.

Alibaba.com has a massive stock of durable and proficient digital gas station display at your disposal that are worth every penny. These spectacular digital gas station display are available in varied sizes, colors, shapes, screen patterns and models equipped with extraordinary features such as being waterproof, heatproof and much more. These are energy-efficient devices and do not consume loads of electricity. The digital gas station display you can procure here are equipped with advanced LED chips, dazzling HD quality, and are fully customizable.

Save money by browsing through the distinct digital gas station display ranges at Alibaba.com and get the best quality products delivered. These products are available with after-sales maintenance and are also available as OEM orders. The products are ISO, CE, ROHS, REACH certified.

Alibaba.com features an exciting range of outdoor lcd advertising screen for gas station that are suitable for all types of residential and commercial requirements. These fascinating outdoor lcd advertising screen for gas station are of superior quality delivering unmatched viewing experience and are vibrant when it comes to both, picture quality and aesthetic appearances. These products are made with advanced technologies offering clear patterns with long serviceable lives. Buy these incredible outdoor lcd advertising screen for gas station from leading suppliers and wholesalers on the site for unbelievable prices and massive discounts.

The optimal quality outdoor lcd advertising screen for gas station on the site are made of sturdy materials that offer higher durability and consistent performance over the years. These top-quality displays are not only durable but are sustainable against all kinds of usages and are eco-friendly products. The outdoor lcd advertising screen for gas station accessible here are made with customized LED modules for distinct home appliances and commercial appliances, instruments, and have elegant appearances. These wonderful outdoor lcd advertising screen for gas station are offered in distinct variations and screen-ratio for optimum picture quality.

Alibaba.com has a massive stock of durable and proficient outdoor lcd advertising screen for gas station at your disposal that are worth every penny. These spectacular outdoor lcd advertising screen for gas station are available in varied sizes, colors, shapes, screen patterns and models equipped with extraordinary features such as being waterproof, heatproof and much more. These are energy-efficient devices and do not consume loads of electricity. The outdoor lcd advertising screen for gas station you can procure here are equipped with advanced LED chips, dazzling HD quality, and are fully customizable.

Save money by browsing through the distinct outdoor lcd advertising screen for gas station ranges at Alibaba.com and get the best quality products delivered. These products are available with after-sales maintenance and are also available as OEM orders. The products are ISO, CE, ROHS, REACH certified.

Your gas station requires a variety of signs for your exterior, windows, and interior. With so many signage needs to consider, upgrading to LED gas station signs is the way to go. The plethora of benefits range from lower overhead cost, to minimal maintenance, and less time changing your signs manually. Here are 10 reasons why you will benefit when you upgrade from your current fluorescent and incandescent signage

It doesn’t matter the time of day, your signage must be bright, but this is even more important at night. You already have a logo with vibrant colors, but the color quality and brightness of your new LED sign will be visible from the highway or at least several blocks further than your current signage. At the very least, order new signs for both your logo and pricing. While you’re at it, order gas price LED signs to ensure that your pricing is visible from all four directions.

You invest a significant amount of labor hours swapping out your gas station prices, which sometimes changes twice per day. Eliminate the hassle of changing your signs manually with a new LED lighted gas sign! With easy and intuitive software, gas prices can be updated electronically from indoors. Not to worry as your new electric signs are weatherproof and will hold up in cold, rain, snow, and even ice. So as mentioned above, you can have more than one or two pricing signs.

Your current electric signs are great, but they limit you to a singular display. With your new digital alternatives, you can create multi-purpose signs that alternate between a variety of images and messages. This is exciting news as a gas station owner as space is tight and you typically don’t have room for traditional marketing POP. Now you can place a lighted gas sign anywhere inside or outside of your gas station for marketing, promotions, sharing videos, community engagement, and more. This includes placing signs in strategic off-site locations, like at an off-ramp to let drivers know how far away your gas station is.

Your new LED gas station signs can be ordered in a variety of sizes, including miniature signs that you can place at the cash register while customers wait in line to pay. You can also use them as gas pump display signs to engage clients while they pump their gas. The sky is the limit here, but be sure to post relevant information. For gas pump displays, share local fun facts, how to get back on the highway, seasonal driving tips, sales, promotions, weather, time, date, and more.

Filling up the tank is the top priority but many of your customers will pop in the gas station to grab drinks and snacks. These add-ons are a large part of your revenue stream. Alert customers to what’s inside and what is on sale with your window and exterior signage. Your cashier must still pursue up-sells, but your gas station LED signs alone can increase sales by up to 30%. This includes other on-site services such as car wash, automotive services, vacuum cleaners, and more.

Your new tri-color or multi-color Gas Station LED Signs can be placed everywhere. Place a large scrolling sign outside as stacked signage. The top sign can be your logo, the second sign can share pricing, and the bottom sign can be a custom scrolling message—like Happy Holidays or a quote of the day. Place medium-sized scrolling signs in your gas station window to highlight sales of the day or to remind customers that you sell Lottery tickets. Wall space is limited in your gas station but consider placing a scrolling sign up high above your merchandise racks for further sales, promotion, and engagement. Teach your team to change and update your LED gas station signs any time of day with easy and intuitive software.

Whether it’s your at pump sign, window signs, or interior gas station signs—be sure to share your loyalty and rewards programs. This could be the credit card company or gas-station credit card you are advertising or your proprietary points-based loyalty and reward program. Be sure to highlight the benefits such as low interest rates or the savings to look forward to once enough points are earned.

Look for ways to monetize your sign and create a lucrative new revenue stream. This might include a cross-promotion to let customers know that they can get $5 off their car wash with a same-day gas station receipt. You can all so sell advertising spots for nearby restaurants, hotels, and businesses. This could be their sales and promotions or directions of how to get there, which is helpful if you are an off-ramp station with a lot of long-distance drivers. In addition to nearby businesses, you could sell ad spots or gift ad spots for local community events, non-profits, and schools.

Not only do you have more signs than the average business, but your gas station LED signs must be operational 24 hours a day. This means that your operating costs are high, but they will drop significantly when you switch from incandescent and fluorescent to LED signs, which are 80% more energy efficient. This means you may want to add more than one new sign! Also, your new sign will last up to 11 years before it needs to be replaced.

Whether you are a locally owned gas station or a nationwide chain you want your gas station to be standout. Adding a vibrant new LED sign will immediately polish your signage, making you look more professional. Combine that with quality graphic designs and engaging imagery and you can make pumping gas at your station a memorable experience. Your gas price LED signs are just one element of your branding so make sure your customer service team is friendly and professional and your gas station is sparkling clean.

At UTG Digital Media we provide advanced indoor and outdoor digital signage solutions for gas stations from digital displays for pumps or in-store, to pylon LED signs and gas prices changers LED signs.  UTG’s digital displays and LED signs are an effective advertising digital solution to gas stations to drive promotions and sales.

LED store signs will help you bring customers to your pumps to fill up their tanks—then bring them into your market to buy candy, sodas, snacks, and other profit boosting items. By adding convenience store digital signage, you promote your coffee specials to early morning commuters, offer cold drinks and snacks for an afternoon break. LED gas price signs attract attention to your sales and promotions at exactly the right time—day or night. Our LED price signs for gas stations will help bring in new customers and increases sales.

Research shows 45% of customers that stop at a service station act on impulse when purchasing productsDigital LED store sign advertising can attract new customers, build loyalty with your current customers and increase your revenue opportunities. Incorporating an LED gas station sign will allow you to bring new eyes to your storefront. At Optec Display, you’ll find high-quality, reliable gas station LED price displays that look fantastic on your business property.

A plasma display panel (PDP) is a type of flat panel display that uses small cells containing plasma: ionized gas that responds to electric fields. Plasma televisions were the first large (over 32 inches diagonal) flat panel displays to be released to the public.

Until about 2007, plasma displays were commonly used in large televisions (30 inches (76 cm) and larger). By 2013, they had lost nearly all market share due to competition from low-cost LCDs and more expensive but high-contrast OLED flat-panel displays. Manufacturing of plasma displays for the United States retail market ended in 2014,

Plasma displays are bright (1,000 lux or higher for the display module), have a wide color gamut, and can be produced in fairly large sizes—up to 3.8 metres (150 in) diagonally. They had a very low luminance "dark-room" black level compared with the lighter grey of the unilluminated parts of an LCD screen. (As plasma panels are locally lit and do not require a back light, blacks are blacker on plasma and grayer on LCD"s.)LED-backlit LCD televisions have been developed to reduce this distinction. The display panel itself is about 6 cm (2.4 in) thick, generally allowing the device"s total thickness (including electronics) to be less than 10 cm (3.9 in). Power consumption varies greatly with picture content, with bright scenes drawing significantly more power than darker ones – this is also true for CRTs as well as modern LCDs where LED backlight brightness is adjusted dynamically. The plasma that illuminates the screen can reach a temperature of at least 1200 °C (2200 °F). Typical power consumption is 400 watts for a 127 cm (50 in) screen. Most screens are set to "vivid" mode by default in the factory (which maximizes the brightness and raises the contrast so the image on the screen looks good under the extremely bright lights that are common in big box stores), which draws at least twice the power (around 500–700 watts) of a "home" setting of less extreme brightness.

Plasma screens are made out of glass, which may result in glare on the screen from nearby light sources. Plasma display panels cannot be economically manufactured in screen sizes smaller than 82 centimetres (32 in).enhanced-definition televisions (EDTV) this small, even fewer have made 32 inch plasma HDTVs. With the trend toward large-screen television technology, the 32 inch screen size is rapidly disappearing. Though considered bulky and thick compared with their LCD counterparts, some sets such as Panasonic"s Z1 and Samsung"s B860 series are as slim as 2.5 cm (1 in) thick making them comparable to LCDs in this respect.

Less visible motion blur, thanks in large part to very high refresh rates and a faster response time, contributing to superior performance when displaying content with significant amounts of rapid motion such as auto racing, hockey, baseball, etc.

Earlier generation displays were more susceptible to screen burn-in and image retention. Recent models have a pixel orbiter that moves the entire picture slower than is noticeable to the human eye, which reduces the effect of burn-in but does not prevent it.

Due to the bistable nature of the color and intensity generating method, some people will notice that plasma displays have a shimmering or flickering effect with a number of hues, intensities and dither patterns.

Earlier generation displays (circa 2006 and prior) had phosphors that lost luminosity over time, resulting in gradual decline of absolute image brightness. Newer models have advertised lifespans exceeding 100,000 hours (11 years), far longer than older CRTs.

Fixed-pixel displays such as plasma TVs scale the video image of each incoming signal to the native resolution of the display panel. The most common native resolutions for plasma display panels are 852×480 (EDTV), 1,366×768 and 1920×1080 (HDTV). As a result, picture quality varies depending on the performance of the video scaling processor and the upscaling and downscaling algorithms used by each display manufacturer.

Early plasma televisions were enhanced-definition (ED) with a native resolution of 840×480 (discontinued) or 852×480 and down-scaled their incoming high-definition video signals to match their native display resolutions.

The following ED resolutions were common prior to the introduction of HD displays, but have long been phased out in favor of HD displays, as well as because the overall pixel count in ED displays is lower than the pixel count on SD PAL displays (852×480 vs 720×576, respectively).

Early high-definition (HD) plasma displays had a resolution of 1024x1024 and were alternate lighting of surfaces (ALiS) panels made by Fujitsu and Hitachi.

Later HDTV plasma televisions usually have a resolution of 1,024×768 found on many 42 inch plasma screens, 1280×768 and 1,366×768 found on 50 in, 60 in, and 65 in plasma screens, or 1920×1080 found on plasma screen sizes from 42 inch to 103 inch. These displays are usually progressive displays, with non-square pixels, and will up-scale and de-interlace their incoming standard-definition signals to match their native display resolutions. 1024×768 resolution requires that 720p content be downscaled in one direction and upscaled in the other.

Ionized gases such as the ones shown here are confined to millions of tiny individual compartments across the face of a plasma display, to collectively form a visual image.

A panel of a plasma display typically comprises millions of tiny compartments in between two panels of glass. These compartments, or "bulbs" or "cells", hold a mixture of noble gases and a minuscule amount of another gas (e.g., mercury vapor). Just as in the fluorescent lamps over an office desk, when a high voltage is applied across the cell, the gas in the cells forms a plasma. With flow of electricity (electrons), some of the electrons strike mercury particles as the electrons move through the plasma, momentarily increasing the energy level of the atom until the excess energy is shed. Mercury sheds the energy as ultraviolet (UV) photons. The UV photons then strike phosphor that is painted on the inside of the cell. When the UV photon strikes a phosphor molecule, it momentarily raises the energy level of an outer orbit electron in the phosphor molecule, moving the electron from a stable to an unstable state; the electron then sheds the excess energy as a photon at a lower energy level than UV light; the lower energy photons are mostly in the infrared range but about 40% are in the visible light range. Thus the input energy is converted to mostly infrared but also as visible light. The screen heats up to between 30 and 41 °C (86 and 106 °F) during operation. Depending on the phosphors used, different colors of visible light can be achieved. Each pixel in a plasma display is made up of three cells comprising the primary colors of visible light. Varying the voltage of the signals to the cells thus allows different perceived colors.

The long electrodes are stripes of electrically conducting material that also lies between the glass plates in front of and behind the cells. The "address electrodes" sit behind the cells, along the rear glass plate, and can be opaque. The transparent display electrodes are mounted in front of the cell, along the front glass plate. As can be seen in the illustration, the electrodes are covered by an insulating protective layer.

Control circuitry charges the electrodes that cross paths at a cell, creating a voltage difference between front and back. Some of the atoms in the gas of a cell then lose electrons and become ionized, which creates an electrically conducting plasma of atoms, free electrons, and ions. The collisions of the flowing electrons in the plasma with the inert gas atoms leads to light emission; such light-emitting plasmas are known as glow discharges.

Relative spectral power of red, green and blue phosphors of a common plasma display. The units of spectral power are simply raw sensor values (with a linear response at specific wavelengths).

In a monochrome plasma panel, the gas is mostly neon, and the color is the characteristic orange of a neon-filled lamp (or sign). Once a glow discharge has been initiated in a cell, it can be maintained by applying a low-level voltage between all the horizontal and vertical electrodes–even after the ionizing voltage is removed. To erase a cell all voltage is removed from a pair of electrodes. This type of panel has inherent memory. A small amount of nitrogen is added to the neon to increase hysteresis.phosphor. The ultraviolet photons emitted by the plasma excite these phosphors, which give off visible light with colors determined by the phosphor materials. This aspect is comparable to fluorescent lamps and to the neon signs that use colored phosphors.

Every pixel is made up of three separate subpixel cells, each with different colored phosphors. One subpixel has a red light phosphor, one subpixel has a green light phosphor and one subpixel has a blue light phosphor. These colors blend together to create the overall color of the pixel, the same as a triad of a shadow mask CRT or color LCD. Plasma panels use pulse-width modulation (PWM) to control brightness: by varying the pulses of current flowing through the different cells thousands of times per second, the control system can increase or decrease the intensity of each subpixel color to create billions of different combinations of red, green and blue. In this way, the control system can produce most of the visible colors. Plasma displays use the same phosphors as CRTs, which accounts for the extremely accurate color reproduction when viewing television or computer video images (which use an RGB color system designed for CRT displays).

Plasma displays are different from liquid crystal displays (LCDs), another lightweight flat-screen display using very different technology. LCDs may use one or two large fluorescent lamps as a backlight source, but the different colors are controlled by LCD units, which in effect behave as gates that allow or block light through red, green, or blue filters on the front of the LCD panel.

To produce light, the cells need to be driven at a relatively high voltage (~300 volts) and the pressure of the gases inside the cell needs to be low (~500 torr).

Contrast ratio is the difference between the brightest and darkest parts of an image, measured in discrete steps, at any given moment. Generally, the higher the contrast ratio, the more realistic the image is (though the "realism" of an image depends on many factors including color accuracy, luminance linearity, and spatial linearity). Contrast ratios for plasma displays are often advertised as high as 5,000,000:1.organic light-emitting diode. Although there are no industry-wide guidelines for reporting contrast ratio, most manufacturers follow either the ANSI standard or perform a full-on-full-off test. The ANSI standard uses a checkered test pattern whereby the darkest blacks and the lightest whites are simultaneously measured, yielding the most accurate "real-world" ratings. In contrast, a full-on-full-off test measures the ratio using a pure black screen and a pure white screen, which gives higher values but does not represent a typical viewing scenario. Some displays, using many different technologies, have some "leakage" of light, through either optical or electronic means, from lit pixels to adjacent pixels so that dark pixels that are near bright ones appear less dark than they do during a full-off display. Manufacturers can further artificially improve the reported contrast ratio by increasing the contrast and brightness settings to achieve the highest test values. However, a contrast ratio generated by this method is misleading, as content would be essentially unwatchable at such settings.

Each cell on a plasma display must be precharged before it is lit, otherwise the cell would not respond quickly enough. Precharging normally increases power consumption, so energy recovery mechanisms may be in place to avoid an increase in power consumption.LED illumination can automatically reduce the backlighting on darker scenes, though this method cannot be used in high-contrast scenes, leaving some light showing from black parts of an image with bright parts, such as (at the extreme) a solid black screen with one fine intense bright line. This is called a "halo" effect which has been minimized on newer LED-backlit LCDs with local dimming. Edgelit models cannot compete with this as the light is reflected via a light guide to distribute the light behind the panel.

Image burn-in occurs on CRTs and plasma panels when the same picture is displayed for long periods. This causes the phosphors to overheat, losing some of their luminosity and producing a "shadow" image that is visible with the power off. Burn-in is especially a problem on plasma panels because they run hotter than CRTs. Early plasma televisions were plagued by burn-in, making it impossible to use video games or anything else that displayed static images.

Plasma displays also exhibit another image retention issue which is sometimes confused with screen burn-in damage. In this mode, when a group of pixels are run at high brightness (when displaying white, for example) for an extended period, a charge build-up in the pixel structure occurs and a ghost image can be seen. However, unlike burn-in, this charge build-up is transient and self-corrects after the image condition that caused the effect has been removed and a long enough period has passed (with the display either off or on).

The first practical plasma video display was co-invented in 1964 at the University of Illinois at Urbana–Champaign by Donald Bitzer, H. Gene Slottow, and graduate student Robert Willson for the PLATO computer system.Owens-Illinois were very popular in the early 1970s because they were rugged and needed neither memory nor circuitry to refresh the images.CRT displays cheaper than the $2500 USD 512 × 512 PLATO plasma displays.

Burroughs Corporation, a maker of adding machines and computers, developed the Panaplex display in the early 1970s. The Panaplex display, generically referred to as a gas-discharge or gas-plasma display,seven-segment display for use in adding machines. They became popular for their bright orange luminous look and found nearly ubiquitous use throughout the late 1970s and into the 1990s in cash registers, calculators, pinball machines, aircraft avionics such as radios, navigational instruments, and stormscopes; test equipment such as frequency counters and multimeters; and generally anything that previously used nixie tube or numitron displays with a high digit-count. These displays were eventually replaced by LEDs because of their low current-draw and module-flexibility, but are still found in some applications where their high brightness is desired, such as pinball machines and avionics.

In 1983, IBM introduced a 19-inch (48 cm) orange-on-black monochrome display (Model 3290 Information Panel) which was able to show up to four simultaneous IBM 3270 terminal sessions. By the end of the decade, orange monochrome plasma displays were used in a number of high-end AC-powered portable computers, such as the Compaq Portable 386 (1987) and the IBM P75 (1990). Plasma displays had a better contrast ratio, viewability angle, and less motion blur than the LCDs that were available at the time, and were used until the introduction of active-matrix color LCD displays in 1992.

Due to heavy competition from monochrome LCDs used in laptops and the high costs of plasma display technology, in 1987 IBM planned to shut down its factory in Kingston, New York, the largest plasma plant in the world, in favor of manufacturing mainframe computers, which would have left development to Japanese companies.Larry F. Weber, a University of Illinois ECE PhD (in plasma display research) and staff scientist working at CERL (home of the PLATO System), co-founded Plasmaco with Stephen Globus and IBM plant manager James Kehoe, and bought the plant from IBM for US$50,000. Weber stayed in Urbana as CTO until 1990, then moved to upstate New York to work at Plasmaco.

In 1992, Fujitsu introduced the world"s first 21-inch (53 cm) full-color display. It was based on technology created at the University of Illinois at Urbana–Champaign and NHK Science & Technology Research Laboratories.

In 1994, Weber demonstrated a color plasma display at an industry convention in San Jose. Panasonic Corporation began a joint development project with Plasmaco, which led in 1996 to the purchase of Plasmaco, its color AC technology, and its American factory for US$26 million.

In 1995, Fujitsu introduced the first 42-inch (107 cm) plasma display panel;Philips introduced the first large commercially available flat-panel TV, using the Fujitsu panels. It was available at four Sears locations in the US for $14,999, including in-home installation. Pioneer also began selling plasma televisions that year, and other manufacturers followed. By the year 2000 prices had dropped to $10,000.

In the year 2000, the first 60-inch plasma display was developed by Plasmaco. Panasonic was also reported to have developed a process to make plasma displays using ordinary window glass instead of the much more expensive "high strain point" glass.

Until the early 2000s, plasma displays were the most popular choice for HDTV flat panel display as they had many benefits over LCDs. Beyond plasma"s deeper blacks, increased contrast, faster response time, greater color spectrum, and wider viewing angle; they were also much bigger than LCDs, and it was believed that LCDs were suited only to smaller sized televisions. However, improvements in VLSI fabrication narrowed the technological gap. The increased size, lower weight, falling prices, and often lower electrical power consumption of LCDs made them competitive with plasma television sets.

Screen sizes have increased since the introduction of plasma displays. The largest plasma video display in the world at the 2008 Consumer Electronics Show in Las Vegas, Nevada, was a 150-inch (380 cm) unit manufactured by Matsushita Electric Industrial (Panasonic) standing 6 ft (180 cm) tall by 11 ft (330 cm) wide.

At the 2010 Consumer Electronics Show in Las Vegas, Panasonic introduced their 152" 2160p 3D plasma. In 2010, Panasonic shipped 19.1 million plasma TV panels.

Panasonic was the biggest plasma display manufacturer until 2013, when it decided to discontinue plasma production. In the following months, Samsung and LG also ceased production of plasma sets. Panasonic, Samsung and LG were the last plasma manufacturers for the U.S. retail market.

LED signs are widely used in gas stations nowadays. Comparing with the traditional boring plastic gas price displays, LED signs are much more attractive, flexible in operating and with various options. What’s more, it also helps improve the overall look of a gas station.

Sharp NEC Display Solutions incorporates both Sharp and NEC brands of display products. Including desktop, 4K and 8K UHD large format, video wall, dvLED, collaboration and interactive products, Sharp/NEC offers the widest portfolio of displays available. Understanding that every market and environment has unique requirements, Sharp/NEC prides itself on being your partner, delivering customized solutions to match your needs.

Display four feeds on the one screen. Wireless screen sharing allows you to connect up to 64 devices at the same time for quick content switching when you need it. Use your existing Wi-Fi network to instantly and securely connect devices, or the Interact dongle to connect guest speakers and remote access students logged in using an external network.

Run your display network over a local (LAN or RF) connection. CMND & Control allows you to perform vital functions like updating software and settings, as well as monitoring display status. Whether you’re in charge of one display or more, CMND & Control makes managing your fleet easy.

Inspire agile collaboration with whiteboard mode. Simply activate this feature to turn your display into a blank canvas that can be drawn on by multiple users by hand or with dedicated display markers. Everything on screen can then be streamed back to your laptop for easy printing or file sharing.

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