| Patent application number | Description | Published |
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| 20100029166 | FABRICATION METHOD OF DISCHARGE LAMP - A fabrication method for discharge lamps is disclosed, which comprises providing a glass tube of diameter between 2 and 20 mm, the glass tube having an inner wall coated with a fluorescent phosphor and having a through-passage with a first end and a second end, connecting a first dielectric electrode to the first end of the glass tube by applying an adhesive to a contacted portion of the glass tube and the first dielectric electrode, and sintering the contacted portion of the glass tube and the first dielectric electrode to securely connect the glass tube and the first dielectric electrode. Subsequently, processes of filling and sealing are conducted to complete the fabrication of the discharge lamps. | 02-04-2010 |
| 20100314999 | LAMP DEVICE - The present invention provides a lamp device. The lamp device of the present invention comprises a lamp holder, a frame on the lamp holder, and a lamp tube having a height. At least one third of the height of the lamp tube is contacted with the frame to improve mechanical strength of the lamp tube. | 12-16-2010 |
| 20110053094 | METHOD FOR FABRICATING ROLLER MOLD FOR NANOIMPRINTING - A method for fabricating a roller mold is provided, including providing a roller substrate, wherein the roller substrate is a cylinder and has a curved surface. An inorganic resist layer is formed over the curved surface of the roller substrate. A laser exposure device is provided for irradiating the inorganic resist layer with a focused laser, causing phase change of the inorganic resist layer at exposed regions. The inorganic resist layer in the exposed regions is removed to form a nano-pattern over the roller substrate. | 03-03-2011 |
| 20110283741 | TUBE BENDING APPARATUS - A tube bending apparatus for bending a straight lamp tube includes a horizontal heating chamber, a vertical heating chamber and a tube bending mold. The horizontal heating chamber includes a bending tube heating zone and two pre-heating zones. The bending tube heating zone has a working temperature higher than that of the two pre-heating zones. The vertical heating chamber communicates with the horizontal heating chamber and includes a mold heating zone. The mold heating zone has a working temperature higher than or equal to that of the bending tube heating zone. The tube bending mold is heated in the mold heating zone in a working temperature to bend the straight lamp tube held and heated in the horizontal heating chamber. | 11-24-2011 |
| 20110284720 | FLUORESCENCE MICROSCOPY IMAGING SYSTEM - A fluorescence microscopy imaging system is used for detecting a fluorescence signal of a sample, and includes a module for detecting fluorescence and a module for focusing control. The module for detecting fluorescence includes a fluorescence excitation light source generator (FELSG) and a fluorescence detector. The FELSG is capable of generating an excitation light beam having a first wavelength to excite the sample to emit fluorescence. The fluorescence detector is used to read the fluorescence signal of the sample. The module for focusing control generates a servo light beam having a second wavelength. A servo light beam reflecting film disposed on an observation plane is used to reflect the servo light beam. A return beam signal is analyzed using a focusing detection method. An actuator is used to move the objective for focusing, so as to enable the fluorescence excitation light beam to excite the sample to emit fluorescence. | 11-24-2011 |
| 20110304838 | EXPOSURE SYSTEM AND ADJUSTMENT METHOD THEREOF - An exposure system including a first laser light source, a second laser light source, a focusing module, an astigmatism generating element, and a photo detector, and an adjustment method thereof are provided. The first laser light source emits a first laser beam. The second laser light source emits a second laser beam. The focusing module includes a light converging unit disposed on transmission paths of the first laser beam and the second laser beam for projecting the first laser beam and the second laser beam onto a material. The material reflects at least a part of the first laser beam into a first reflective beam. The light converging unit and the astigmatism generating element are disposed on the transmission path of the first reflective beam. The photo detector is disposed on the transmission path of the first reflective beam from the astigmatism generating element. | 12-15-2011 |
| Patent application number | Description | Published |
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| 20080205203 | Optical head having dual optical paths - An optical head to access data on an optical recording medium, which has two data storage densities, includes two sets of optical path systems to provide two optical paths that are crossed. Each optical path system includes a laser light generation unit, a light guiding unit, a converging objective lens and a photo detector. The light guiding unit is located on the optical path of the laser light generation unit, to direct the laser light to pass through the converging objective lens and focus on the data side of the optical recording medium to carry optical data signals from the data side. The laser light returns to the light guiding unit and travels along the optical path and is received by the photo detector. | 08-28-2008 |
| 20080297934 | OPTICAL ACTUATOR - An optical actuator is disclosed. The optical actuator includes a seat bearing the optical element, a yoke comprising an end, a suspension system comprising at least one spring sheet connecting the seat and the end, and a driving device moving the seat relative to the yoke. The spring sheet constrains the movement of the seat. The spring sheet includes an inner connecting portion connected to the seat, an outer connecting portion surrounding the inner connecting portion and connected to the end, and a spring structure disposed between the inner and outer connecting portions and connecting the inner and outer connecting portions. | 12-04-2008 |
| 20100038349 | LASER MARKING METHOD AND LASER MARKING SYSTEM - A laser marking method and a laser marking system are provided. The laser marking method includes the following steps. Firstly, a substrate having at least M pattern lines is provided, wherein M is an integer which is larger than or equal to 1. Next, a laser beam is provided. Then, the laser beam is divided into at least two laser sub-beams including a first laser sub-beam and a second laser sub-beam. Afterwards, the second laser sub-beam is aimed at an (N-M)-th pattern line, and an N-th pattern line is marked by the first laser sub-beam, wherein N is an integer which is larger than or equal to M. | 02-18-2010 |
| 20100058148 | METHOD AND DEVICE FOR ADJUSTING COMMUNICATIONS POWER - A method and device for adjusting communications power are used for detecting a communications condition between a connection port and a connection target, and a communications-supporting power of the connection port that includes at least one of a transmitting power and a receiving power is adjusted according to a detected communications condition. Therefore, accuracy of data transmission and reception is ensured, and power used for data transmission and reception is reduced. | 03-04-2010 |
| 20110294522 | CHARACTER RECOGNIZING SYSTEM AND METHOD FOR THE SAME - A character recognizing system includes a portable electronic device, a location sensing system and a server system. The portable electronic device captures image of a target to produce a captured image. The location sensing system locates position of the portable electronic device to produce a position information. The server system receives the captured image and the position information via internet for executing recognizing motion. | 12-01-2011 |
