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displays. Electrical impulses were applied to a grid of disks with reflective material <br />on one side of the disk, and a contrasting finish on the other side. The electrical <br />impulses would position each disk within the grid to either reveal or conceal the <br />reflective portion of the device as required, to produce an image or spell out a <br />message. These technologies were energy efficient, but due to the mechanical <br />nature of the product, failures were an issue. <br />Shortly after the introduction of the reflective products, new incandescent lamps <br />emerged. The new "wedge base" Xenon gas - filled lamps featured many positive <br />qualities. Compared to the larger incandescent lamps that had been used for <br />several years, the wedge base lamps were very bright, required less power to <br />operate and had much longer lifetimes. These smaller lamps allowed electronic <br />display manufacturers to build displays that featured tighter resolutions, allowing <br />users to create more ornate graphic images. <br />Next in the evolution of the changeable message sign was the LED. LED (light <br />emitting diode) technology had been used for changeable message displays since <br />the mid 1970s. Originally, LEDs were available in three colors: red, green and <br />amber, but were typically used for indoor systems because the light intensity was <br />insufficient for outdoor applications and the durability of the diodes suffered in the <br />changing temperatures and weather conditions. As technology improved, <br />manufacturers were able to produce displays that had the intensity and long life <br />required for outdoor use, but were limited in the viewing angle from which they <br />could be effectively seen. <br />Recently, breakthroughs in this field have made available high intensity LEDs in <br />red, green, blue and amber. These LEDs have made it possible to produce <br />displays bright enough for outdoor use with viewing angles that are equal to, or <br />better than, other technologies currently available. They are energy - efficient, can <br />be programmed and operated remotely, and require little maintenance. In <br />addition, the computer software has evolved such that a broad range of visual <br />effects can be used to display messages and images. The spacing of the LEDs can <br />be manipulated to achieve near - television resolution. Earlier "flip disk" and <br />incandescent technologies have become nearly obsolete as a result. <br />Types of Changeable Message Signs <br />Changeable message signs can be placed into two basic categories: manually - <br />changed and electronically- changed. The most common form of manually - <br />changed sign involves a background surface with horizontal channels. Letters and <br />numerals are printed on individual plastic cards that are manually fitted into the <br />channels on the sign face. A broad range of letter styles and colors are available. <br />The manually- changed sign is relatively inexpensive and is somewhat versatile: <br />Some discoloration has been experienced in the background surface materials <br />