Patent application number | Description | Published |
20090097523 | SEMICONDUCTOR LASER APPARATUS AND METHOD OF MANUFACTURING THE SAME - Second and third p-side pad electrodes are formed on an insulating film of a blue-violet semiconductor laser device on both sides of a first p-side pad electrode. The second p-side pad electrode and the third p-side pad electrode are formed separately from each other. Solder films are formed on the upper surfaces of the second and third p-side pad electrodes respectively. A fourth p-side pad electrode of a red semiconductor laser device is bonded onto the second p-side pad electrode with the corresponding solder film sandwiched therebetween. A fifth p-side pad electrode of an infrared semiconductor laser device is bonded onto the third p-side pad electrode with the corresponding solder film sandwiched therebetween. The second and third p-side pad electrodes are formed separately from each other, so that the fourth and fifth p-side pad electrodes are electrically isolated from each other. | 04-16-2009 |
20090238230 | SEMICONDUCTOR LASER APPARATUS - A p-type pad electrode in a red semiconductor laser device and a first terminal are connected through a wire. A p-type pad electrode in an infrared semiconductor laser device and a second terminal are connected through a wire. A p-electrode in a blue-violet semiconductor laser device and a third terminal are connected through a wire. An n-electrode in the blue-violet semiconductor laser device is electrically conducting to a mount. An n-electrode in the red semiconductor laser device and the mount are connected through a wire, while an n-electrode in the infrared semiconductor laser device and the mount is connected through a wire. The mount has a fourth terminal inside. | 09-24-2009 |
20090252189 | SEMICONDUCTOR LASER APPARATUS AND OPTICAL APPARATUS - A semiconductor laser apparatus comprises a first semiconductor laser device that emits a blue-violet laser beam, a second semiconductor laser device that emits a red laser beam, and a conductive package body. The first semiconductor laser device has a p-side pad electrode and an n-side electrode. The p-side pad electrode and n-side electrode of the first semiconductor laser device are electrically isolated from the package body. The p-side pad electrode of the first semiconductor laser device is connected with a drive circuit that generates a positive potential, while the n-side electrode thereof is connected with a dc power supply that generates a negative potential. | 10-08-2009 |
20090323750 | SEMICONDUCTOR LASER DEVICE AND METHOD OF MANUFACTURING THE SAME AS WELL AS OPTICAL PICKUP - A semiconductor laser device includes a semiconductor device layer having an emission layer and formed with a current path on a semiconductor layer in the vicinity of the emission layer, a current blocking layer formed in the vicinity of the current path, and a heat-radiation layer formed to be provided at least in the vicinity of a region formed with a cavity facet of the semiconductor device layer and be located above the current path, and having thermal conductivity larger than that of the current blocking layer. | 12-31-2009 |
20100067559 | LASER DIODE DEVICE, OPTICAL APPARATUS AND DISPLAY APPARATUS - A laser diode device includes a first laser diode element, a second laser diode element and a third laser diode element having a longer lasing wavelength than the first and second 6 laser diode elements. The first, second and third laser diode elements are arranged in a package, and the third laser diode element is not electrically connected to the first and second laser diode elements. | 03-18-2010 |
20100080000 | LASER DIODE DEVICE AND DISPLAY APPARATUS - A laser diode device includes a red laser diode element, a green laser diode element and a blue laser diode element. The red, green and blue laser diode elements are arranged in a single package in a state of being connected to wires for supplying power independently. Additionally, the blue laser diode element is arranged between the red laser diode element and the green laser diode element as viewed from a laser beam-emitting direction. | 04-01-2010 |
20100111131 | SEMICONDUCTOR LASER APPARATUS - A sub-substrate, a blue-violet semiconductor laser device, an insulating layer, and a red semiconductor laser device are stacked in order on a support member through a plurality of fusion layers. The insulating layer is stacked on an n-side pad electrode of the blue-violet semiconductor laser device, and a conductive layer is formed on the insulating layer. The red semiconductor laser device is stacked on the conductive layer through a fusion layer. The conductive layer is electrically connected to a p-side pad electrode of the red semiconductor laser device. The n-side pad electrode of the blue-violet semiconductor laser device and the n-side pad electrode of the red semiconductor laser device are electrically connected to each other. | 05-06-2010 |
20100260227 | SEMICONDUCTOR LASER APPARATUS AND FABRICATION METHOD THEREOF - A blue-violet semiconductor laser device has a p-electrode formed on the upper surface thereof and an n-electrode formed on the lower surface thereof. In the blue-violet semiconductor laser device, a p-n junction surface is formed where a p-type semiconductor and an n-type semiconductor are joined. A red semiconductor laser device has an n-electrode formed on the upper surface thereof and a p-electrode formed on the lower surface thereof. In the red semiconductor laser device, a p-n junction surface is formed where a p-type semiconductor and an n-type semiconductor are joined. The p-electrode of the red semiconductor laser device is bonded to the p-electrode of the blue-violet semiconductor laser device such that the red semiconductor laser device does not overlap with a blue-violet-beam-emission point of the blue-violet semiconductor laser device. | 10-14-2010 |
20110104839 | SEMICONDUCTOR LASER DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor laser device includes a substrate and a semiconductor layer formed on a surface of the substrate and having a waveguide extending in a first direction parallel to the surface, wherein the waveguide is formed on a region approaching a first side from a center of the semiconductor laser device in a second direction parallel to the surface and intersecting with the first direction, a first region separated from the waveguide on a side opposite to the first side of the waveguide and extending parallel to the first direction and a first recess portion separated from the waveguide on an extension of a facet of the waveguide, intersecting with the first region and extending in the second direction are formed on an upper surface of the semiconductor laser device, and a thickness of the semiconductor layer on the first region is smaller than a thickness of the semiconductor layer on a region other than the first region. | 05-05-2011 |
20120033702 | SEMICONDUCTOR LASER APPARATUS - A p-type pad electrode in a red semiconductor laser device and a first terminal are connected through a wire. A p-type pad electrode in an infrared semiconductor laser device and a second terminal are connected through a wire. A p-electrode in a blue-violet semiconductor laser device and a third terminal are connected through a wire. An n-electrode in the blue-violet semiconductor laser device is electrically conducting to a mount. An n-electrode in the red semiconductor laser device and the mount are connected through a wire, while an n-electrode in the infrared semiconductor laser device and the mount is connected through a wire. The mount has a fourth terminal inside. | 02-09-2012 |
20120108011 | METHOD OF FABRICATING A SEMICONDUCTOR DEVICE WITH A BACK ELECTRODE - A semiconductor device capable of stabilizing operations thereof is provided. This semiconductor device comprises a substrate provided with a region having concentrated dislocations at least on part of the back surface thereof, a semiconductor element layer formed on the front surface of the substrate, an insulator film formed on the region of the back surface of the substrate having concentrated dislocations and a back electrode formed to be in contact with a region of the back surface of the substrate other than the region having concentrated dislocations. | 05-03-2012 |