SMD 3 in 1:R,G,B three color in one LED. Color uniformity and viewing angel is the best. Have the best mixed color effect(White balance).Processing technics is complex and cost, maintenance is high.
SMD 1 by 1: little difference from 3 in 1,low cost and maintenance. The density can achieve above 17,200dots. but has high resistive static request.
If you have enough budget, SMD 3in1 LED Display is your best choice. If you need cheap price,SMD 1by1 is another solution for your choice.
A lot of thought and condideration goes into investing in a Unit-LED display. To meet the high expechations of the project, the following resource will guide you through the process of mathing the right display to any application and audience. You can successfully make these aritical decisions by following the steps in the brochure.
Step1—————-> Sign permit
Will you be able to get a sign permit?
Local sign codes generally dictate what types and size of signs can be install as well as the location of those signs. Research this topic thoroughly to ensure that you can abtain a per, it for the type and size of sign you desire. Often times, regulations for video displays are different than message center coders. You can obtain a copy of your city’s sign code from the responsible office, typically the planning or zoning department.
Step2————->Power source and signal
How will the display receive power and signal?
How will the display receive power and signal?
.Determine the type and size of power available.
.Unit-LED display(www.unit-led.com ) accommodate 110/220 single-phase or 110/380 three-phase power. contact a Unit-LED representative(www.unit-led.com ) for more information.
.Ensure the power will not run on a tome management system.
.determine how to properly ground the display.
.Inquire about needing a separate power service for the display.
.Investigate power reliability issues such as brownouts, spikes or drops.
.Address power issues with surge suppression equipment and/or UPS options.
Step3—————–>Audience and technology
The display size and capability must mach the in tended viewing audience. Achieving this ensures maximum exposure and effectiveness of the chosen display. You will need to consider the following:
Resolution Minimum viewing distance
Display size Viewing angle
What display resolution is most appropriate for the location?
Resolution is defined as the number of full-color lines and rows contained in the physical of a video display. The greater the number of full-color lines and rows per suare foot, the greater the amount of detail displayed.
Resolution must mach a specific application. Items to consider includer:
Viewing distance Display size
Desired content Viewing audience
Traffic speed
What is the minimum viewing distance?
The minimum viewing distance is the closest approximate distance at which colors from an individual pixel begin to blend with the surrounding pixels. As this distance. The display looks like a continuous picture instead of as an array of pixels. The chart below notes the effective pixel piches at the minimum viewing distances.
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The following list of questions can be used to determine the type and level of uniformity correction provided by your screen vendor.
Can I see the screen in Flat White with no video?
The best way to look for uniformity problems is to view the screen with nothing moving. Flat white is the best since it is a combination of all colors. If you have time, ask to see the screen in the component colors also. Look for variance in luminance and colors between the modules. Look for bright or dark lines between the modules and panels. Look for pixel-to-pixel variation. Finally, use a spectraradiometer to measure the color and brightness of the screen.
What method do you use to improve luminance and color uniformity?
The most important thing is to find out is what your screen manufacturer does to fix the inherent non-uniformity issues found in all LEDs. The method that yields the best results is the PWM correction method, and it often produces a screen that is cheaper than extreme binning methods, because the screen manufacturer does not need to purchase such tight binning lots from the LED manufacturers in order to achieve uniformity. Also, it enables the user to recalibrate the screen as the LEDs become dimmer over the course of several years.
What binning levels do you Use?
If a screen manufacturer uses LED binning as their only source of uniformity control it is important to understand what binning levels they use. Ask them the binning levels for luminance and color.Remember that the human eye can begin to distinguish 3% luminance difference and a 2nm wavelength color difference if the difference is between two modules with a hard edge. When comparing pixel to pixel differences the human eye is less sensitive but can distinguish a 5% luminance and 3nm color difference between neighboring pixels.
Are correction coefficients used for each pixel or only for each module?
For best results, correction coefficients should be provided for each pixel. Correction coefficients for the module can reduce or eliminate the patchwork quilt effect that shows modules with different brightness and color, but it cannot completely remove the boundary differences between different modules and will do nothing to eliminate the dirty window effect caused by pixel-to-pixel uniformity differences.
How many correction coefficients are used for each pixel?
It is possible to produce correction only for luminance and white point. A screen of this type will use 3×1 correction coefficients (3 coefficients for each pixel). A full color corrected screen will use 3×3 coefficients (9 coefficients for each pixel).
Are the PWM coefficients stored in the modules in addition to storing them in the video controller?
The coefficients need to be stored in the video controller in order to perform the video signal processing; however, it is also very convenient to store them in a type of flash memory on the module. This not only provides a backup for the coefficients, but it also enables the module to automatically update the coefficient database in the video controller when it is moved or replaced.
Is it possible to perform PWM uniformity correction on-site?
On-site correction becomes necessary when the video screen has aged, or when a catastrophic failure causes loss of coefficient data. If the only correction remedy is to dismantle the screen and send it back to the manufacture for recalibration, this will be a very expensive proposition both in screen down time and shipping charges. On-site calibration is the best answer for this problem. An on-site crew should be able to come to your venue and provide the necessary calibration without any dismantling. It is wise to ask whether or not the screen manufacturer can correct on-site upfront to avoid finding out too late you will need to tear down the screen and send it back to the factory if a uniformity problem arises.
The diffierence between 3LEDs and 4LEDs,They have the same quality except a little different about the brightness.But the 3LEDs is more cheaper ,lower consumption and temperature. you will find the pixel composition about the 3LEDs and 4LEDs in the quotation. 3LEDs from the LEDs form,it can achieve 6-times pixel shared,one LED be used for 6 times,So it will have a good definition and uniformity like 4LEDs.
Have you ever seen a LED screen that looks like grandma’s patch-work quilt, with each module displaying a different brightness and color? Or, have you ever seen a screen with pixel-to-pixel variances so high that it appeared like you were looking through a dirty window? The cause of these problems is luminance and color non-uniformity.
This is Our Latest Dot to Dot Correction(Pixel to Pixel Correction) for LED Display.
Before color and luminance uniformity correction After Color Uniformity Correction
This is the difference between Color and Luminance Uniformity Correction and the one that does not..
More Information is Coming soon……
OLED is short for organic light-emitting diode, a display device that sandwiches carbon-based films between two charged electrodes, one a metallic cathode and one a transparent anode, usually being glass. The organic films consist of a hole-injection layer, a hole-transport layer, an emissive layer and an electron-transport layer. When voltage is applied to the OLED cell, the injected positive and negative charges recombine in the emissive layer and create electro luminescent light. Unlike LCDs, which require backlighting, OLED displays are emissive devices – they emit light rather than modulate transmitted or reflected light.
OLED technology was invented by Eastman Kodak in the early 1980s. It is beginning to replace LCD technology in handheld devices such as PDAs and cellular phones because the technology is brighter, thinner, faster and lighter than LCDs, use less power, offer higher contrast and are cheaper to manufacture.
PLED is short for polymer, or polymeric, light-emitting diode, a backlighting, illumination and display technology. Polymers are substances formed by a chemical reaction in which two or more molecules combine to form larger molecules. PLEDs are thin film displays that are created by sandwiching an undoped conjugated polymer between two proper electrodes at a short distance. The polymer emits light when exposed to electricity. PLEDs enable full-spectrum color displays and are relatively inexpensive compared to other display technologies such as LCD or OLED and require little power to emit a substantial amount of light.
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