outside display screens pricelist

We also offer the option to buy LED screens. If you frequently host events that require the use of a professional LED screen, you can save yourself time and money by purchasing one to own. Our LED screens for sale feature the same high quality and durability as the ones we rent, and we provide the same level of customer service that includes going above and beyond the call of duty for our clients to ensure they have everything they need. We also offer low-cost options for the permanent installation of your LED screens.

LED displays are no longer out of reach for most businesses. The cost of LED business signage is declining, and several factors are driving the prices down, including rapidly evolving product lines, fluctuating market conditions and increased efficiency in the tech and manufacturing sectors.

“When you look back at the last several years, 100,000 became 70,000, and 70,000 became 40,000,” says Ben Sewell, a sales manager in Samsung’s Display Division. “I’d estimate LED display prices have dropped by 50 percent in the last four or five years.”

This is good news for buyers looking to invest in an LED display. If you’re considering an LED display, here are the factors will contribute to the cost — and what you need to know about pricing.

“‘Who’s responsible for electrical?’ I get that question every time,” says Sewell. When it comes to LED display projects, many buyers don’t understand all of the costs the project demands beyond the display itself. And there are many — starting with construction.

As many contractors will tell you, buyers often get swept up in the front-end visuals and don’t look closely enough at the back-end costs. A consequential factor many buyers aren’t aware of is display weight. It can have a tremendous impact on the final price of an LED project.

“We try to stick to around 10 pounds per square foot in terms of weight of display,” says Sewell. “If you’re on a 1,000-square-foot display, the difference between 10 pounds and 14 pounds is tremendous — it’s a huge component cost. You’re investing a huge percentage of your budget into the back end. We try to stay on the lighter side, so we have less of those costs.”

Everybody who purchases an LED display for their business knows they’ll need content. But often they don’t consider how significantly it will affect the overall cost of the control system. “The content management system [CMS] could easily be 20 to 25 percent of the project,” says Sewell. “Think of it as the brains behind the content. For example, you might spend $150,000 to $250,000 to cover your control room — and the content. Think of that as the brains.”

So how does an LED display project get priced? After an initial discussion on configuration — how tall, how wide and so forth — copious attention is placed on the scope of work and exactly what that entails.

That’s why it’s best to know who is responsible for every aspect of the project, far beyond the display itself: electrical, data, steel, concrete, permitting and so on. To simplify this process, Samsung can take a turnkey approach, where everything is included — and we handle the demarcation of work within our network of proven suppliers.

Components, size, resolution, maintenance, content — much of the LED display pricing process is about manipulating these and all the other LED display factors until your project falls in line with your budget. “We pull and push those levers all the time,” says Sewell. “That’s at the heart of our sales approach — we try to be as consultative and interactive as possible, working with designers and architects to coordinate everything. The earlier on we can be there, the more pitfalls we can avoid.”

If you’re looking to invest in an LED display, now’s the time. In response to marketplace turbulence, many manufacturers are offering significant discounts and are open to negotiating on many variables influencing a project. “It’s a good time to want to buy an LED display,” says Sewell. “People are looking to be aggressive, and if you’ve got the cash to spend, now is the time to spend it — you can get a great deal.”

For more tips on configuring and tailoring on-screen messaging in real time, get yourfree comprehensive guideto using an integrated CMS. And for an array of innovative display options, discover Samsung’s full lineup ofLED signage— which provide versatile solutions for diverse business needs.

LG Direct View LED signage features vibrant colors, incredible brightness levels and are available in a variety of sizes. Take your advertising dollars further by maximizing the spend and effectiveness of your messages on our stunning LED displays, ideal for both indoor and outdoor locations. Choose from our range of models which includes:

LAS Series (Indoor): With fine-pitch models that produce crisp, high-contrast images with wide viewing angles, the LAS series is ideal for retail shops, convention halls, sports arenas airports and more. Create impactful advertisements even with total silence with LG LAS series indoor LED displays.

LBP Series (Outdoor): Deliver eye-catching and vibrant images through LG’s line of premium outdoor displays. Its key features include a premium super bright display with a wide viewing angle that"s perfect for outdoor venues, such as sports arenas and concert grounds.

LBS Series (Outdoor): The LBS series boasts outstanding image quality and comes in various formats to meet the display requirements of various outdoor spaces, such as stadiums, finance buildings and malls.

Our LED display and signage solutions are optimized for both indoors and outdoors, be it the boardroom or the street. They deliver stunningly high-quality images that will engage your audiences.

Our LED digital signage solutions deliver ultra-HD displays with brilliant colors and the precise resolution you need to promote your message. We offer LED displays for a vast range of industries and needs, including commercial storefronts, entertainment venues, and civic buildings. Whether you’re building your own LED video sign board to serve your unique needs or choosing from popular size and resolution configurations, we have the crisp, attractive LED solution you need. Contact Optec Displays today to learn more about our products and begin work on your new LED display.

Pixel pitch is the distance between the center of a pixel and the center of an adjacent pixel. Typically, pixel pitch is measured in millimeters. For example, if an LED display has a pixel pitch of 8.0 mm, that means the center of each pixel, regardless of how many total pixels there are in the display, is eight millimeters from the center of an adjacent pixel. Pixel pitch determines the density of pixels in an LED screen. The lower the pixel pitch number, the closer the pixels are together, and thus the higher the pixel density. Pixel pitch is a very important factor when choosing the right LED display and may be affected by optimal viewing distance, proximity to other LED displays, and other environmental aspects. For more information, see our

There are a variety of factors you should consider to determine the appropriate pixel pitch for your LED display application. Pixel pitch is the distance from the center of a pixel to the center of an adjacent pixel. The tighter the pitch (lower number), the greater number of pixels on your digital canvas and therefore the higher the resolution of your display.

Generally, the closer viewers will be to your display, the tighter the pixel pitch should be. However, there are other factors to consider including distance from grade, intended content type and resolution, display size, competing displays in the area, ambient light conditions, and more.

16:9 (sixteen-by-nine) is a widescreen aspect ratio of 16 units wide to 9 units high. Those units can be expressed in inches, feet, pixels, or any other physical metric. It is the standard in today’s digital media for digital displays of any kind (and the content played on them), having replaced the 4:3 aspect ratio used in older TVs and older PowerPoint versions. The newer widescreen format is also used in High Definition Television (HDTV).

According to ergonomic research, the human visual field is similar to a 16" x 9" rectangle, making this ratio the “golden proportion.” Therefore, 16:9 allows for a more immersive viewing experience without having to crop the image on the screen. This is one reason SNA Displays"

The moiré effect (pronounced mwar-AY) is named after a type of textile with a rippled or wavy appearance. Also known as a moiré pattern or moiré fringe, this effect typically occurs in mesh patterns such as finely woven clothing, screens, and other grid patterns. / The moiré effect commonly appears in digital displays, especially when viewed through the lens of a camera, where rows and columns of pixels can create a complex grid pattern. Because different digital displays have varying pixel sizes, pixel pitches, and total number of pixels – creating vastly different grid patterns – the moiré effect can vary widely from display to display. Camera settings like zoom and aperture also change the factors that produce the effect.

The effect, which is a physical property and therefore does not indicate a defect of the display, occurs as the viewer’s perception of the spaces within the grid changes. Typically, the moiré effect can be mitigated with slight changes in viewing distance, viewing angle, and, in some cases, camera zoom and focus.

For several reasons, LED displays do not emit light uniformly in all directions. For starters, diodes are designed in a way that directs or focuses light to improve viewing performance, but not all diodes are designed the same. Some LEDs have a better viewing performance because they are simply higher quality than others. Additionally, LED manufacturers bin diodes at varying uniformities, which can affect many performance factors. Depending on the

Rather, an LED screen provides what is commonly referred to as a viewing cone, an optimal viewing area in which an observer can see all parts of the screen in consistent light and color output. Outside of the viewing cone, one might see a color shift, degraded light, obstructed LEDs, or other deficiencies related to viewing angle.

Angles at which an observer can optimally see a display (i.e., within the viewing cone) are known as viewing angles. Areas outside the viewing cone are referred to as "off-angle." Typically, LED manufacturers specify horizontal and vertical viewing angles.

As you know, a circle is 360°. So, a horizontal viewing angle (for a flat screen) cannot be more than 180°, or half of a circle. If a manufacturer lists a horizontal viewing angle of 150°, this means an observer should be able to optimally view the screen anywhere in front of the display except for 15° on either side. This is represented in Figure 1.

Vertical viewing angles are usually listed with a negative number. This is because the vast majority of the time, displays are viewed at either eye level or from below. So, if a manufacturer lists a vertical viewing angle of -70° this means an observer should be able to optimally view the screen anywhere in front and below the display except for the 20° immediately beneath the display. This is represented in Figure 2.

In any electronic system, components degrade over time. Light-output display systems are no different. Whereas in traditional light-driven display systems (e.g., fluorescent lamp signage) outright failures are inevitable, for LED display systems, outright failures in light output are much less common. Instead, light-emitting diodes reliably continue to emit light, albeit at slowly diminishing levels.

Several factors can impact the performance and thus the degradation curve of an LED. For starters, material defects obviously have significant and lasting effects on performance, so quality diodes and packaging are critical. Additionally, electrical issues caused by overdriving, faulty power supplies, electrical surges, and poor design of driver chips, circuit boards (PCBs), and other components can drastically reduce optimal LED performance. Finally, like all electrical systems, stress due to heat will negatively influence the performance of any LED display system. See the LED Display Temperature eBrief to learn more.

In any electronic system, components degrade over time and digital displays are no different. Gradually the luminance of all digital displays will decay, some faster than others.

Because LCD displays are built as self-contained units, they age individually. For example, even after proper calibration before first use, a 3x3 LCD wall will have nine screens with varying color consistencies, brightness levels, and other performance deficiencies after a few years. LED displays, however, are comprised of components that are usually procured, binned, produced, and assembled together, so the effects of degradation are vastly mitigated compared to their LCD counterparts. An LED display will age much more consistently over the course of its life, maintaining a more uniform image quality. For similar reasons, replacement (new) LCD screens can be impossible to calibrate to match the other (aged) units in a video wall, while LED panels pulled from a spare parts inventory can be correctly calibrated in a matter of minutes.

All electronic devices generate heat. Some are designed to create heat as a primary function, but most are designed to manage or dissipate excess heat. Too much heat can shorten the lifespan of any electronic device, and this certainly applies to LED displays. Excessive heat can result in other undesirable effects, including color shifts and power supply failures.

Every watt generated by an LED display escapes as light energy or heat energy, so an efficient light energy conversion is critical. Typically, heat is shed either from the face of the display or off the back of the display cabinet by convection.

Indoor display systems may require air conditioning if adequate ventilation is unavailable. Typically, vented air circulation is sufficient for SNA Displays’ indoor systems, but occasionally, auxiliary fans are employed to help move air.

Brightness for LED displays is measured in NITs, which is one candela per square meter. Typical indoor brightness levels range from 300 to 1,200 NITs. Outdoor displays generally go much brighter, sometimes as high as 8,000 nits or more. Brightness is a highly variable specification, and unfortunately, many manufacturers and re-sellers mislead on this topic. Most displays can be driven to a higher brightness performance, but this comes at the expense of the components—including LED lifetime—as well as higher power consumption. Ask your manufacturer to provide the average or recommended brightness.

Brightness is a hot topic in the world of LED displays. Variances in the light output of your display can greatly affect how its messaging is received by viewers. Interestingly, the legibility of a display can be significantly reduced by too little brightness and too much brightness, so it’s important to consider a number of factors when determining the ideal brightness for your LED display. For example, if your screen is battling direct, high-intensity sunlight, you’ll need a high brightness setting so that the light from your display reaches the eyes of your viewers. However, if you apply that same brightness on your display overnight, the light output from your screen will be so bright that viewers may not be able to decipher any of the display’s content.

In the LED display industry, brightness is typically measured in nits. A nit is a unit of measurement of luminance (the intensity of visible light) equal to one candela per square meter (cd/m2). Sufficient indoor brightness levels typically range from 200 to 1,200 nits. Outdoor displays generally have a much higher range, peaking at 8,000 nits or more.

Unfortunately, brightness is a highly variable product specification and one that many manufacturers (and resellers) may use to mislead their customers or the industry at large. Depending on the quality of the diodes that comprise an LED display, most display systems can be driven to a very high brightness performance, but this can come at a significant cost to the technology itself. For example, as components within your display are worked harder and harder to reach high brightness levels, the lifetime of the overall display can be substantially reduced. Additionally, as power consumption is increased, so too are costs for power usage.

Color is a 3-dimensional space. SNA Displays products typically have a higher number of available total colors. High-quality direct-view LED has color space significantly larger than that of television broadcast standards. If you have a standard in mind, please contact an SNA Displays representative, and we will help you find a solution.

Bit depth, sometimes referred to as color depth or color capacity, is a reference to the amount of color levels a display is capable of. To understand this important metric, see

There are a number of ways you can save energy with your LED display. First, if you’ve implemented your LED display in recent years, you’re already saving power over older video display systems. Additionally, there are slight differences between technology suppliers. For example, SNA Displays offers energy-saving displays through a combination of PCB design, LED package design, and power-supply selection, leading to less energy waste through released heat. We also recommend automatic brightness sensors and configuring your display such that less energy is spent driving your display during times when there is little to no sunlight. Finally, you should set your display to “idle” on a black screen when no content is present (in the late overnight hours for example), which minimizes power consumption.

We’re often asked about power consumption and how it relates to energy savings. Our selection of high-end diodes allows our display systems to drive diodes at a certain luminance for the life of the display at a much lower junction temperature. In terms of how heat is released in our system, the combination of our PCB design, LED package design, and power supply selection leads to better energy savings as compared to many other LED manufacturers.

Further, our LED displays can be configured with an ambient light sensor, which not only helps optimize brightness in various conditions but also reduces energy waste that can occur when a screen is too bright for its environment.

We help to educate our clients about how their content schedule can improve efficiency (e.g., during off hours, some displays can be set to “idle” which can reduce power consumption to a minimal amount).

The typical life for an LED display is 100,000 hours, or about 10 years give or take. However, there are many variables that affect LED life, including diode manufacturer, environment, and how the display is used over time. For example, the life of a display could be significantly reduced is a user operates a display at full brightness and bright/light content for the majority of the content schedule. The brightness for LED displays should be regulated and scheduled according to ambient light. For example, screens that are blinding at night because they are needlessly set at full brightness are losing their LED life over time.

The most immediate benefit of a curved LED display is its ability to stand out around conventional flat-surfaced screens. Additionally, curved displays reach a wider viewing audience than flat displays without a seam or sharp edge. The smooth, seamless nature of curved LED displays provide the perfect canvas for creative content.

With its sleek and aesthetically pleasing picture frame design, it will seamlessly integrate into any high-end environment. Developed for outdoor areas, The TV Shield PRO Portrait’s proprietary "Quick Install" system is faster to install and maintain than other metal TV enclosures and the front frame opens effortlessly with our lift off tab system. The internal mounting system can be used with any VESA pattern from 75x75 to 600x600 with depth and height adjustment (with supplied hardware) which allows for perfect placement of the screen as well as easily added input and back of display access. In addition, The TV Shield PRO Portrait can be used with any external standard VESA mount. The entire unit is locked down with our high strength security screw system that requires a specific tool to remove the front panel and comes with a thermostatically controlled and filtered air circulation system boasting multiple 120mm high powered fans and 60ppi filters. The TV Shield PRO Portrait is a professional-grade weatherproof digital display and outdoor LED TV enclosure which comes standard with a shatterproof anti-glare polycarbonate front panel for ultimate safety of your equipment and patrons. Unlike safety glass, which can shatter, polycarbonate does not. The TV Shield PRO Portrait also comes standard with a custom-built aluminum commercial-grade power strip with a 12 ft. cord and 15-amp breaker. Size options range from 40 inches to 65 inches.

The TV Shield PRO Portrait Touch ™ is a weatherproof, secure, and robust outdoor touch screen display and weatherproof TV enclosure that is made in the USA. We have combined The TV Shield PRO enclosure and our IP-65 rated IR touch frame to offer the best solution for outdoor touch screen needs.