Patent application number | Description | Published |
20150077714 | ILLUMINATION SYSTEM AND PROJECTION APPARATUS - An illumination system including at least one laser source, at least one anisotropic light expanding element and a wavelength conversion element is provided. The at least one laser source emits a laser beam. The at least one anisotropic light expanding element is disposed on the transmission path of the laser beam and causes the laser beam to expand along a light expanding direction. The light expanding direction is substantially parallel to the slow axis of the laser beam. The wavelength conversion element is disposed on the transmission path of the laser beam. A projection apparatus is also provided. | 03-19-2015 |
20150098070 | LIGHT WAVELENGTH CONVERSION MODULE, ILLUMINATION SYSTEM, AND PROJECTION APPARATUS - A light wavelength conversion module including a substrate, a first light wavelength conversion layer, and a first light transmissive layer is provided. The substrate has a light passing-through area and a first light wavelength conversion area. The first light wavelength conversion layer is located at the first light wavelength conversion area and between the first light transmissive layer and the substrate. The first light wavelength conversion layer is suitable for converting a coherent light beam into a first conversion light beam, wherein wavelengths of the coherent light beam and the first conversion light beam are different from each other. An illumination system and a projection apparatus are also provided. | 04-09-2015 |
20150185596 | WAVELENGTH CONVERSION DEVICE AND PROJECTOR - A wavelength conversion device including a main body and a transparent component is provided. The main body has at least one wavelength conversion region and a slot. The transparent component is disposed in the slot to form a light transmission region, wherein one of the main body and the transparent component has at least one groove, and another one of the main body and the transparent component is engaged with the groove, such that the main body and the transparent component are fixed together. In addition, a projector having the wavelength conversion device is also provided. | 07-02-2015 |
20150198809 | VIRTUAL IMAGE DISPLAY MODULE AND OPTICAL LENS GROUP - A virtual image display module, disposed in front of at least one eye of a user, including an image displaying unit and an optical lens group is provided. The image displaying unit provides an image beam. The optical lens group includes a reflecting unit, a first lens, a second lens and a diffractive optical element, which are disposed on the transmission path of the image beam. The first lens is disposed between the image displaying unit and the reflecting unit. The reflecting unit is disposed between the first lens and the second lens. The second lens is disposed between the reflecting unit and the eye. The diffractive optical element, the reflecting unit, the first lens and the second lens are independent optical elements, respectively. The image beam is transmitted to the eye through the first lens, the reflecting unit, the second lens and the diffractive optical element. | 07-16-2015 |
20150234458 | HEAD-UP DISPLAY - A head-up display including a display panel, a non-mechanical focusing lens, and a determining unit is provided. The display panel is configured to emit an image beam. The non-mechanical focusing lens is disposed on a transmission path of the image beam and generates an image of the image beam. The determining unit is electrically connected to the non-mechanical focusing lens and configured to adjust a focal length of the non-mechanical focusing lens according to a sensing signal, so as to change an image distance from the image to a user's eye. | 08-20-2015 |
20150316775 | ILLUMINATION SYSTEM AND PROJECTION APPARATUS - An illumination system includes a coherent light source, a first light-combining element, an optical wavelength conversion module, and a first auxiliary light source. The coherent light source emits a coherent light beam. The first light-combining element is disposed on a transmission path of the coherent light beam. The light wavelength conversion module is disposed on a transmission path of the coherent light beam transmitted from the first light-combining element and converts the coherent light beam into a first converted light beam, and reflects the first converted light beam back to the first light-combining element. The first auxiliary light source emits a first auxiliary light beam which is transmitted to the first light-combining element along the transmission path of the coherent light beam. The first light-combining element combines the first auxiliary light beam and the first converted light beam. A projection apparatus is also provided. | 11-05-2015 |
20150346579 | WAVELENGTH CONVERSION MODULE AND ILLUMINATION SYSTEM - A wavelength conversion module that includes a reflective substrate, a strip-shaped wavelength conversion layer, and a microstructure layer is provided. The strip-shaped wavelength conversion layer is located on the reflective substrate and includes a transparent base and a wavelength conversion material doped in the transparent base. The microstructure layer is located on the strip-shaped wavelength conversion layer and includes a plurality of microstructures. The microstructures are arranged on a surface of the microstructure layer in a close-packing manner. The wavelength conversion module satisfies n2−0.3≦n1≦n2+0.3, where n1 is a refractive index of the transparent base, and n2 is a refractive index of the microstructure layer. An illumination system is also provided. | 12-03-2015 |
20150362154 | ILLUMINATION APPARATUS - An illumination apparatus including an exciting light source, a reflective switching element, a first wavelength conversion element, and a second wavelength conversion element is provided. The exciting light source emits an exciting beam, and the reflective switching element is disposed on a transmission path of the exciting beam. When the reflective switching element is switched to a first state, the reflective switching element reflects the exciting beam to the first wavelength conversion element so as to excite the first wavelength conversion element to emit a first conversion beam. When the reflective switching element is switched to a second state, the reflective switching element reflects the exciting beam to the second wavelength conversion element so as to excite the second wavelength conversion element to emit a second conversion beam. | 12-17-2015 |