LED display LED screen led panel Blog

SAGINAW, Mich. — Parents of abducted children will now have another outlet to help bring their child home safe.
June 3, 2008,  many Advertising Company  tested a new initiative to distribute Amber Alerts on its digital billboards.
The alerts can be displayed to the more than 800 digital billboards nationwide, including four in Bay City and Saginaw.
“Digital billboards are on the cutting edge of outdoor advertising technology and are uniquely suited to purposes like Amber Alerts,” said Nancy Fletcher, Outdoor Advertising Association of America’s president and CEO.
The new LED billboards will help notify as many people as possible about recent child abduction, and provide more information that can help in the search for the abducted child, suspected abductor or suspected vehicle.
The Amber Alert Program was founded in 1997 and named in honor of Amber Hagerman, a 9-year-old who was abducted and murdered in Arlington, Texas, in 1996.

Above is module for P10mm T-virtual which applied for outdoor use, as we all know, it is for three lamps, the pixel for this is 16*16, size will be 160mm*160mm, in fact P10mm is the abbreviation for pitch 10mm, or you can say ph10mm.

 P10 mm means the pitch for it is for 10mm, may be it will be difficult to understand what does mean for “pitch” for novice, hereby it will be my honor to introduce for you especially help novice know more about LED products

 Pitch means the distance between the neighbor pixel(ps: not refer the distance between the distance neighbor lamps) because each pixel will include four lamps, and each pixel for some contain three lamps(just like the P10 module pic above), pls see as follow:

The first one pixel for kins of four lamps, the other pixel for kinds of three lamps, hope these cam help you understand more about our products even LED display

 One total display compose many cabinets, the cabinet is made up of module, so actually, the module is the fist step to complete the display

Hope you can understand more about these, and of course you are interested in the LED display(for a novice), pls feel free to contact with us, we can offer more for you, make you know more about this kind of product.

A diode is the simplest sort of semiconductor device. Broadly speaking, a semiconductor is a material with a varying ability to conduct electrical current. Most semiconductors are made of a poor conductor that has had impurities (atoms of another material) added to it. The process of adding impurities is called doping.

In the case of LEDs, the conductor material is typically aluminum-gallium-arsenide (AlGaAs). In pure aluminum-gallium-arsenide, all of the atoms bond perfectly to their neighbors, leaving no free electrons (negatively-charged particles) to conduct electric current. In doped material, additional atoms change the balance, either adding free electrons or creating holes where electrons can go. Either of these additions make the material more conductive.

A semiconductor with extra electrons is called N-type material, since it has extra negatively-charged particles. In N-type material, free electrons move from a negatively-charged area to a positively charged area.

A semiconductor with extra holes is called P-type material, since it effectively has extra positively-charged particles. Electrons can jump from hole to hole, moving from a negatively-charged area to a positively-charged area. As a result, the holes themselves appear to move from a positively-charged area to a negatively-charged area.

A diode comprises a section of N-type material bonded to a section of P-type material, with electrodes on each end. This arrangement conducts electricity in only one direction. When no voltage is applied to the diode, electrons from the N-type material fill holes from the P-type material along the junction between the layers, forming a depletion zone. In a depletion zone, the semiconductor material is returned to its original insulating state — all of the holes are filled, so there are no free electrons or empty spaces for electrons, and charge can’t flow.

At the junction, free electrons from the N-type material fill holes from the P-type material. This creates an insulating layer in the middle of the diode called the depletion zone.

To get rid of the depletion zone, you have to get electrons moving from the N-type area to the P-type area and holes moving in the reverse direction. To do this, you connect the N-type side of the diode to the negative end of a circuit and the P-type side to the positive end. The free electrons in the N-type material are repelled by the negative electrode and drawn to the positive electrode. The holes in the P-type material move the other way. When the voltage difference between the electrodes is high enough, the electrons in the depletion zone are boosted out of their holes and begin moving freely again. The depletion zone disappears, and charge moves across the diode.
When the negative end of the circuit is hooked up to the N-type layer and the positive end is hooked up to P-type layer, electrons and holes start moving and the depletion zone disappears.

If you try to run current the other way, with the P-type side connected to the negative end of the circuit and the N-type side connected to the positive end, current will not flow. The negative electrons in the N-type material are attracted to the positive electrode. The positive holes in the P-type material are attracted to the negative electrode. No current flows across the junction because the holes and the electrons are each moving in the wrong direction. The depletion zone increases. (See How Semiconductors Work for more information on the entire process.)

When the positive end of the circuit is hooked up to the N-type layer and the negative end is hooked up to the P-type layer, free electrons collect on one end of the diode and holes collect on the other. The depletion zone gets bigger.

The interaction between electrons and holes in this setup has an interesting side effect — it generates light! In the next section, we’ll find out exactly why this is.

Copy From:http://electronics.howstuffworks.com

This amazing lighting is the 3D LED Display. It builds with 25,000 lightballs, each lightball containing 12 LED. It can display 16 million colors and 25 images per second.(Wow!). It developed by the Swiss Federal Institute of Technology Zurich for their 150th anniversary. It is 5 by 5 by 1 meter and it is 3.3 tons. If you go to Zurich, you can see it in the train station’s main hall, and it will be there till September 2009.(a very cool lighting!) Check out see more pictures.