Innovative Samsung cooling technologies allow your message to be displayed with highly reliable 24/7 continuous operation. A built-in fan, housed inside the LFD, prevents overheating and you can control the fan with an easy-to-use on-screen display function.
This Samsung LFD LFD makes upgrading firmware easy. The simple transmission is accomplished through an image file, using a DVI, HDMI or display port. Samsung’s LFD LFD lets you perform upgrades effortlessly through a direct connection with your PC.
Stay in the loop with DVI-out.
Enjoy superior picture quality with a DVI-out interface that lets you share content between multiple LFDs thanks to an easier-to-connect video matrix. LFDs used to have to be connected to the PC individually, but digital loop out allows you to connect them without connecting to a PC. Better yet, the digital loop out produces a single image without any loss of quality, and there’s no need for a separate video signal distributor. It’s easy to install and the most cost-effective way to connect multiple displays.
A smart sensor that automatically saves energy. (optional accessory)
Stop worrying about the lighting conditions affecting your display. This Samsung LFD adjusts its brightness levels as ambient light changes so your images are always crystal-clear. And while it compensates for low-light and high-light environments, you’ll save energy and stay eco-friendly.
Set a schedule that’s always on time.
Keep your monitor running efficiently at all times. This Samsung LFD boasts a smart scheduling feature. The automatic power on/off function allows you to designate time, day, volume, input source and holiday dates. There’s even a convenient on-screen display setting with up to 3 schedules including day and time.
Enhanced connectivity without extra costs.
Create a professional digital display without having to purchase any extras—like a distributor or external equipment. Samsung makes it easy with a display port that delivers enhanced connectivity and an improved display interface. With a simple adapter, you can connect your PC, monitor or TV using an HDMI or DVI cable that’s more than twice as long as standard cables. Discover an easy, cost-effective way to create a powerful display.
A great picture that’s glare-free.
Whether you have a story to tell or a product to sell, it’s important that your image is crystal clear. This Samsung LFD delivers just that—even if your display is located in a brightly-lit environment. It eliminates any reflections that can disrupt your ad’s readability, keeping images smooth and visible.
Brighter lights, better picture.
With an intensely illuminated DID panel your message is always in the spotlight. Its high brightness and contrast level make the screen clear and readable in public. In fact, on average it’s 1.5 times as bright as TV screens. Plus with a low operating temperature this Samsung LFD will be completely reliable for years to come.
Easy control goes the distance.
With content constantly changing, you need a reliable software solution that lets you communicate with remote displays in a cost-effective, time-efficient manner. Samsung LFDs feature an upgraded Multi Display Control solution that lets you control a large number of monitors through their embedded RS232 and RJ45 interfaces. Easy and intuitive to use, you can control monitors over short and long distances.
A slide-in design with easy accessibility.
Enjoy convenient, quick access to the PC, network or receiver with this LFD’s optional slide-in modular design. It’s discreetly located on in the rear side of the unit. And there are a variety of module options that can be easily combined with the LFD. You can even insert a customized module—whether it’s Samsung or a third party manufacturer.
|46" Diagonal Size|
|1920 x 1080 (16:9) Resolution|
|0.53025 x 0.53025mm Pixel Pitch Panel|
|1018.08 x 572.67mm Active Display Area|
|700 cd/m² Brightness|
|3000:1 Contrast Ratio|
|178°/178° Viewing Angle|
|8ms Response Time(G-to-G)|
|8 bit - 16.7 M Display Colours|
|72% Color Gamut|
|AC 100 - 240 V~ (+/- 10 %)|
50 / 60 Hz Power Supply
|320 W (max) / 300 W (typ) On Mode Power Consumption|
|Less than 5 W Sleep Mode Power Consumption|
|Less than 5 W Off Mode Power Consumption|
|Lamp Error Detection|
Plug and Play (DDC2B)
Video Wall (10 x 10)
Digital Daisy Chain
Smart F/W update
Windows Embedded Standard 2009
|CPU Athlon X2 Dual Core|
|AMD RS780E(IGP) GPU|
|FDM/HDD HDD 40 GB|
|DDR3 1GB Memory|
|EtherNet marvell 88E8055 Gigabit LAN|
|3 x USB Connectivitiy|
|LAN RJ45 Connectivity (others)|
|10000:1 Dynamic Contrast Ratio|
|30 kHz - 81 kHz H-Scanning Frequency|
|56Hz - 85Hz V-Scanning Frequency|
|148.5 MHz Max.imum Pixel Frequency|
|1049 x 603 x 118mm Set Dimension|
|1155 x 733 x 325mm Package Dimension|
|26kg Set Weight|
|36kg Package Weight|
|600 x 400mm VESA Mount|
|Foot Stand (Optional)|
|Internal Media Player|
|RGB Analog D-SUB|
Display Port Inputs
Component (D-sub 15pin) Inputs
Stereo mini Jack
|DVI-D (loop-out) RGB Output|
|Stereo mini Jack|
|5V (for SBB) Power Output|
|Stero mini Jack (IR in/out)|
mini USB (Ext. BR/IR sensor)
|10C - 40C Operating Temperature|
|10 ~ 80% Humidity|Types of Televisions:
In Plasma technology, the display itself consists of cells. Within each cell two glass panels are separated by a narrow gap in which neon-xenon gas is injected and sealed in plasma form. The gas is electrically charged at specific intervals when the Plasma set is in use. The charged gas then strikes red, green, and blue phosphors, thus creating a television image. Each group of red, green, and blue phosphors is called a pixel.
Some Advantages of Plasma Televisions are:
Larger Screen Sizes Available
Better Contrast Ratio, so Blacks are deeper
Better Color Saturation
Little to no lag in Fast Moving Images
Some Disadvantages of Plasma Televisions are:
Susceptible to Burn-Ins(Image is “burnt” onto the screen when left on the screen too long)
Generates a lot of heat
Does not perform well at high altitudes
LCD stands for liquid crystal display. These types of displays are made of two layers of transparent material, which are polarized, and are "glued" together. One of the layers is coated with a special polymer that holds the individual liquid crystals. Current is then passed through individual crystals, which allow the crystals to pass or block light to create images. LCD crystals do not produce their own light, so an external light source, such as florescent bulb is needed for the image created by the LCD to become visible to the viewer.
Some Advantages of LCD Televisions are:
Low energy consumption
No "burn-in" effect
Cool running temperatures
No high altitude issues
Lighter in weight
Some Disadvantages of LCD Televisions are:
Low contrast ratio
Fast Moving Images sometimes lag
Individual Pixels can burn out and cannot be replaced
Smaller Viewing Angle (although not significant difference)
DLP (Digital Light Processing) technology utilizes a small Digital Micromirror Device (DMD) to tilt more than 1.3 million micromirrors-each of them less than the width of a human hair-toward (ON) or away from (OFF) the light source inside the DLP. This process creates light or dark pixels on the face of the projection screen. The light then filters to a color wheel, which rotates 120 times per second, producing the correct hue. Each mirror can turn on or off several thousands of times per second resulting in a technology that can reproduce up to 1024 shades of gray.
Some Advantages of DLP Televisions are:
Little to no affection by ambient light
Better Contrast Ratio, so Blacks are deeper
High refresh rate
No lagging images or burn-ins
Not affected by altitudes
Tuner built-in in most models
The only thing that can burn out is the bulb, which can be replaced, so you could use this TV virtually forever
Many connections available - Can also be used as a monitor
Some Disadvantages of DLP Televisions are:
Must be viewed at eye level for the best picture
While a bulb will only cost around $200, a professional will need to install it, incurring an additional cost.
They are heavy and cannot easily be moved.
Direct-view TVs, also known as the traditional tube television, consist of a single cathode ray tube (CRT) and electron beam that excites and illuminates phosphors on the inside surface of the TV screen.
Some Advantages of CRT Televisions are:
Low in cost
Best black level, contrast, shadow detail and color performance of any video technology out there
Not affected by ambient light
Can be viewed from any angle
Very Long Life Expectancy
Some Disadvantages of CRT Televisions are:
Size and Weight of Television make it very heavy
Limited screen size - 38 inches is about the max for CRT TVs
Uses old technology
Choosing the Best TV Size
Where you are putting your television and what you are using it for will determine the perfect TV size for your room.
Living (or Family) Room
For living rooms and other spaces with high TV use, 37 inch and larger are the most popular choices. In large rooms, the largest size possible is usually best.
For bedrooms, offices and other medium-sized spaces, a tv that is from 26 to 37 inches is your best bet.
Kitchens & Smaller Rooms
For kitchens and smaller rooms where you will be close to the TV, a 15 to 19 inch screen is best suited.
Refer to the below chart for the mimimum distance you should be from the television.
High Definition vs. Standard Definition
|TV Viewing Distance Chart
||Minimum Viewing Distance
||Maximum Viewing Distance
Standard definition is analog signals with resolution of 480i (480 lines drawn onscreen in an interlaced pattern, odd lines separately from even), the format in which TV content is delivered over regular analog broadcasts and basic (non-digital) cable. On the best TVs, the picture quality can be very good or even excellent, but it doesn't compare to the best that HD can offer.
Enhanced definition falls between standard and high definition. ED signals are digital, with resolution of 480p (480 lines scanned progressively). This is equivalent to DVD quality, which is a little better than standard definition but not as good as high definition. Some ED sets can accept HD signals, but they convert them to a lower resolution that they can display, so the picture quality won't match that of true HD. On the best EDTVs, it can be quite good.
High definition offers the best TV viewing possible. HD is a digital-TV format that contains more and finer detail than other formats, so images can have almost lifelike clarity. The picture quality can be stunning, especially on a large, wide-screen set. In technical terms, HD images have higher definition, meaning more picture elements (lines or pixels) make up each image. Most HD broadcasts today are either 1080i (1,080 lines drawn on-screen separately in an odd/even pattern, then interlaced to form one image) or 720p (720 lines scanned in one sweep, or progressively). Another HD format, 1080p, has 1,080 lines drawn in a progressive pattern, which potentially yields the finest detail. This format isn't yet being used for TV broadcasts, but some HD DVDs that support 1080p are expected to arrive this year. TVs with 1080p native resolution have already started to appear on the market.
The below chart explains further the difference between Standard and High Definition Signals.
|Resolution and Picture Quality Table
|Standard Definition TV
||Standard Definition DVD
||Enhanced Definition TV
||720p High Definition TV
||1080i High Definition TV
||1080p High Definition TV/Blu-Ray
||Full Screen 4:3
||Full Screen 4:3/Widescreen 16:9
||640 x 480
||720 x 480
||854 x 480
||1280 x 720
||1920 x 720
||1920 x 720
|Which Audio/Video Connection is the best?
||HDMI (High-Definition Multimedia Interface) is an uncompressed, all-digital signal that combines both audio and video. This connection gives you the optimal 1080p signal and up to 7.1 channel sound.
||DVI (Digital Video Interface) is a video connection that will deliver 1080p video signal, but it does not carry audio signals.
||Component Video, or RGB, is an analog signal connection that splits the video into 3 separate signals, 2 for color and 1 for brightness. The maximum resolution on this connection type is 720p or 1080i.
||S-Video (S for Separate) is a type of component video signal because the color and brightness signals are transmitted on separate wires. S-Video is not used for high definition resolutions.
||Composite, or RCA, connections can be found on almost all video components. Color and brightness pass over the same cable. Although it is the most common connection found, it is also the least quality.