OREANDA-NEWS. Panasonic Corporation announced that it has developed a semiconductor white light source capable of outputting luminous flux in the 10,000-lumen class. This newly developed technology will enable wider variation in design, a higher brightness and smaller form factor in applications in areas such as data projectors and vehicle headlights.

In this development, an increased light output was achieved due to the high-efficiency, low-loss design and modularization of the near-ultraviolet semiconductor laser used in the light source. A high luminous flux of white light was realized through the development of a phosphor material that is not subject to luminance saturation even when irradiated with high-intensity laser light. The use of a laser with a smaller light-emitting area and superior light emission directionality to LEDs has made a compact optical configuration that boasts higher brightness and a smaller form factor possible. This technology opens the way to the greater use of semiconductor light sources in the projection/lighting market.

The developed technology has the following features:
- By increasing the output of the near-ultraviolet laser in the light source, to 10-times that of a conventional laser, the industry's highest light output of 60 watts has been achieved. The miniaturized laser module can be incorporated into a wider range of equipment.
- The use of a newly developed phosphor material has increased blue light emissions by 40%, contributing to the realization of a 10,000-lumen class high-luminous flux white light source through the red, green and blue phosphors.
- The generation of red, green and blue lights from only one type of laser light using a rotating phosphor wheel simplifies the optical system and ensures that the laser is projected directly onto the screen.
This development is based on the following new technologies:
- High-output, low-loss laser design technique with wider near-ultraviolet laser optical waveguide and optimized light loss control.
- Phosphor material technology that utilizes the high-density crystalline structure of SMS (Sr3MgSi2O8) phosphor to control the density of the luminescent center and thus prevent luminous saturation.
- Wavelength conversion technology that uses a rotating phosphor wheel that absorbs near-ultraviolet laser light and converts it to red, green and blue luminescent light.

Conventional laser white light sources require multiple visible light semiconductor lasers that emit blue and other colors, which creates a tradeoff between small form factor and high brightness. Some laser wavelengths are even projected directly, without passing through the phosphor material. Conventional phosphors are not suitable for use as high-intensity light sources, as they are subject to significant luminance saturation when laser light is focused on them.

Panasonic holds 39 patents in Japan and 22 overseas patents, including pending applications, for this development.