LCC-Technology

[spb_text_block pb_margin_bottom=“no“ pb_border_bottom=“no“ width=“1/2″ el_position=“first“]

Origin

Laser Crystal Ceramics or LCC is a lighting technology which originated in Switzerland and South Korea. In 2004, the engineer T. Ranasinghe produces an incredibly long seconds bright light due to incorrect use of a laser cutting machine. The cause of the incident could not be determined at the beginning. There diverse industries have taken internal investigations, as these led to no result were contacted several Swiss universities, these joined the investigation of this event little interest. So T. Ranasinghe contacted an old fellow students and a South Korean conductor Institute Technical University, among other things, specializes in lighting technology. So it was that the unexpected light reaction was clarified. With the know-how, as well as the Manpower the Korean faculty and cooperation with T. Ranasinghe, the end of 2006 the first LCC chip was fabricated. Since the technology is continually evolving to date and optimized.

LCC technique

The LCC technology is a further development of the known LED technology (Light Emitting Diode).

The term LCC

The term LCC or Laser Crystal Ceramics happens during the development of the first chip in an interview in Switzerland emerged. The concept borrows heavily from the origins of the LCC technology, so is „laser“ for the laser copying technology of this discovery is due to. „Crystal“ is used for the carbon crystals and „Ceramics“ for the built-up especially in the early ceramic elements to which more and more can be dispensed today. The ceramic elements were at the beginning as Thermal insulation installed on the printed circuit boards in order to optimize the life cycle and the quality of light. Today increasing glass ceramic is used.

Converter and color reproduction

In contrast to the LEDs in the LCC technology white light is not obtained by mixing using the RGB principle, or by a phosphor coating.

Based artificially-Produced serving carbon-based crystals as a converter and thereby replaces the phosphor coating as used in conversion LEDs. The color rendering is defined by the nature of the crystals. So an excellent color rendering index of up to Ra> 95 is achieved with a very low proportion of blue (480-420 nm). It can color temperatures of 2500K to 7000K are generated.
By using the crystals as a color converter a long and constant Color reproduction quality is possible, this depends on the service life of each product, but holds at least 35,000 operating hours during a continuous operation of eight to twelve hours per day. The maximum color change is 2%. The color quality may decline in conversion LEDs, depending on the quality and operating mode until it reaches the operating time visible.

[/spb_text_block] [spb_text_block pb_margin_bottom=“no“ pb_border_bottom=“no“ width=“1/2″ el_position=“last“]

Generating light, heat and cooling

By the charging of the two crystal halves via a conductor wire positive and negative charge is applied from a voltage source. The two halves are aiming for the electrical neutrality and want to form a balance of electrons on their crystal halves. By neutralization of positive and negative charge is produced neutralizing energy which we perceive as light. In the LCC and LED there besides the negative electrons have positive charges. These opposite charges (plus and minus) generate at their neutralization light and heat.
The LCC artificial crystal absorbs heat, which is 20-30% more light output compared to LED chips made in up to 10% less power consumption.

We build our LCC chips for various reasons partly in a housing which is designed for LED technology, these enclosures have cooling fins. A motive for the use of existing housing is the high availability. Due to the low heat development are cooling measures for LCC products only limited to not necessary? The same is true for our LCC filament lamps or Retrofit Bulbs the Edison bulb is perceived by. In none of these LCC pears is coolant, the vitreous humor only serves as hand protection. Operation without vitreous is readily possible, but then does not meet the high safety standards that the Federal Inspectorate for Heavy Current Installations (ESTI) provides to our LCC products.

Technology target

The LCC technology aims of energy efficiency. So along with high quality of light is more energy is converted into light and heat emissions are minimized. If less heat is generated, this must also be less derived, thereby increasing environmental saver can end materials such white glass can be used instead of aluminum for the light emitting. Next means less heat emission, less energy consumption, so our environment can conserve and save resources.

The company Energy World and its partners are striving to achieve these goals and develop these Pioneering technology continually.

[/spb_text_block] [blank_spacer height=“40px“ width=“1/1″ el_position=“first last“]