High Refresh Rate Flexible LED Screen Flex LED Video Wall With WIFI Control
1. P5 flexible led screen are light weight, easy to install and disassemble, etc.
It will cut down the cost for transportation and installation.
2. P5 flexible led screen uses international stylish super-thin case, are lighter and thinner than normal cabinet, with anti-water, anti-damp, anti-corrosion reaching IP65 grade at customers option.
3. Our after-sales engineers have been in LED field for more than 7 years who will give the customer the most professional guidance about LED.
4.U ocolor is a professional manufacturer engaged in LED display more than 7 years. We do the LED encapsulation by ourselves (Quality is under strict control, prices are very competitive).
5. Pixel-To-Pixel Calibration System will make the show effect more even and stable.
>> parameters of P5 flexible led screen
Parameters | Units | Value |
Pixel pitch | mm | 5 |
Led type | 3 in 1 | |
Physical density | Pixels/sqm | 40,000 |
Drive mode | Duty | 1/8 |
Module size | mm | 160*160 |
Color configuration | 1R1G1B | |
Module resolution | dots | 32*32 |
Best viewing distance | m | 5-42 |
Gray scale | levels | 16.7M |
Brightness | Nits | 2000 |
Viewing angle | ° | H: 140/ V:140 |
Cabinet material | Epoxy painted steel | |
Frame rate | Hertz | 60 |
Refresh rate | Hertz | 30~1000 |
Input power (max) | Watts | 1400 |
Input power (typical) | Watts | 500 |
Working temperature | °C | -20 - +65 |
Storage temperature | °C | -40 - +85 |
Lifetime | Hours | 100,000 |
Red wavelength | nm | 625 |
Green wavelength | nm | 525 |
Blue wavelength | nm | 470 |
Working voltage | Watts | 110/220V |
MTBF | Hours | 10000 |
Life-span | Hours | 100000 |
Computer system | WIN98, WINXP, WIN2000, WIN7,etc | |
Input signals |
RF, S-Video, RGB, RGBHV, YUV, YC, COMPOSITION, etc
|
>> Advantages
1. CE&ROHS&ISO9001 ensure the quality.
2. Color calibration tech make the show-effect better.
3. The control system specialize in outdoor advertisement.
4. on-site service is available.
5. Luminance adjustment response to its environment to achieve a suitable brightness and to save power consumption.