Class / Patent application number | Description | Number of patent applications / Date published |
313323000 | COMBINED | 9 |
20090079321 | Three-Dimensional Miniaturized Power Supply - A three-dimensional miniaturized power supply is composed of at least two of a first circuit board and a second circuit board which are assembled in a chamber of a container in a three-dimensional spatial form, wherein an insulation spacing, which is in compliance with an ITE safety regulation, is provided between a circuit of the first circuit board and a circuit of the second circuit board, allowing an area and a volume of the power supply to be miniaturized, such that the power supply can be emplaced in a small container. | 03-26-2009 |
20090289541 | DISPLAY DEVICE AND METHOD OF FORMING THE SAME, AND ELECTRONIC DEVICE HAVING THE SAME - A method of forming a display device is provided. The method includes the following steps: providing a substrate which includes a driving circuit region and a pixel region; forming a first island and a second island in the driving circuit region on the substrate with a semiconductor material; performing a first ion implantation process to dope ions into both of the first island and the second island; forming a first patterned mask on the substrate to cover the second island and expose a part of the first island; performing a second ion implantation process by using the first patterned mask as a mask to form a first source/drain region in the first island; removing the first patterned mask; forming a first gate and a second gate on the first island and the second island respectively; forming a second patterned mask on the substrate to cover the first island and expose a part of the second island; and performing a third ion implantation process by using both of the second patterned mask and the second gate as a mask to form a second source/drain region in the second island. The first island, the first source/drain region, and the first gate form a NMOS device, and the second island, the second source/drain region, and the second gate form a PMOS device. | 11-26-2009 |
20100001628 | IGNITER INTEGRATED LAMP SOCKET FOR HOT RE-STRIKE OF HIGH INTENSITY DISCHARGE LAMP - A lamp assembly includes a housing that selectively receives a removable, plug-in high intensity discharge (HID) lamp. A transformer and electrical circuit are received in the housing for providing an instant start, hot re-strike ignition of the lamp at less than 25 kilovolts. A circuit for an instant start, hot re-strike of an HID lamp supplies an ignition voltage to the HID lamp that includes pulses having an amplitude of less than 25 kilovolts and a frequency ranging from approximately 20 hertz to approximately 500 hertz. Preferably, the frequency is greater than 100 hertz, more preferably the frequency is approximately 150 hertz. The amplitude of pulses are preferably less than approximately 15 kilovolts, and more preferably approximately 8-10 kilovolts. The pulse width is approximately 200 nanoseconds and the peaks of the pulses are periodic with a period of approximately 2 milliseconds. | 01-07-2010 |
20100117509 | HID LIGHTING ASSEMBLY CAPABLE OF INSTANT ON/OFF CYCLE OPERATION - A high intensity discharge lighting assembly capable of instant ON/OFF operation with a lamp housing having therein an HID lamp, an instant ON igniter circuit and lamp driver circuitry. The housing may have a screw in base or may be configured for fixed mounting on an open receptacle box. In one version, a non-replaceable HID lamp has leads permanently connected to the instant ON circuitry. In another version, the HID lamp has an integral base with pins which are plugged in to a socket provided in the housing. | 05-13-2010 |
20100207506 | Organic light emitting display device having RFID - An organic light emitting display device having RFID includes a substrate including a pixel region having at least one organic light emitting device and a non-pixel region formed on the outer circumference of the pixel region, a sealing substrate that seals at least the pixel region of the substrate, an RFID antenna pattern on the sealing substrate, and an RFID chip electrically coupled to the RFID antenna pattern. | 08-19-2010 |
20110031870 | Convenient-used Energy-saving ceiling lamp - A convenient-used energy-saving ceiling lamp comprises a lamp base, a lamp head, a ballast, a light tube, a lampshade and a lamp holder. The lamp holder is directly mounted on the lamp base. The ballast is made to form a concave or hollow area in the center of it, which is big enough to allow the lamp head to be mounted in there and to be plugged easily into the lamp holder, thereby reducing the whole height of the light tube. The light tube is connected with the ballast via ribs. The lamp head and lamp holder can use the screw type, bayonet type, double-ended bayonet type applied in glow starters, and pin type plug and socket applied in double D type ordinary light tubes. The obvious advantage is the convenience to install, use and maintain it. | 02-10-2011 |
313324000 | With casing or jacket | 3 |
20090224648 | Planar Display Device - A planar display device whose display panel main body can be easily separated from a chassis member upon disposal without preparing large equipment and a special tool. In the planar display device wherein the PDP panel main body ( | 09-10-2009 |
20100033073 | INTEGRATED LAMP AND LIGHT SOURCE SYSTEM HAVING SAME - An integrated lamp includes a transparent tube body, a passive component and a covering part. The passive component is disposed at an end of the transparent tube body, and electrically connected to the transparent tube body. The covering part is electrically connected to the passive component and has a receptacle. The end of the transparent tube body is sheathed by the covering part such that the passive component is accommodated within the receptacle. | 02-11-2010 |
20100072877 | LIGHT EMITTING DIODE LAMP TUBE - A light emitting diode (LED) lamp tube includes a circuit board and a tubular enclosure. The circuit board is disposed in the enclosure such that the enclosure is divided into a non-illuminated portion and a light-receiving portion. The light-receiving portion has two light-condensing side sections corresponding respectively to two sides of the circuit board, and a light-diffusing middle section connected between the light-condensing side sections. An outer surface of the light-receiving portion has a smoothly varying curvature. The light-condensing side sections cooperate with the light-diffusing middle section to diffuse uniformly LED light transmitted from an outer surface of the enclosure. | 03-25-2010 |