Patent application number | Description | Published |
20120161111 | WHITE ORGANIC LIGHT ELECTROLUMINESCENCE DEVICE - A white organic light electroluminescence device includes a first light emitting unit, a second light emitting unit and a connecting layer between the first light emitting unit and the second light emitting unit. The connecting layer electrically connects the first light emitting unit and the second light emitting unit in series. The first light emitting unit includes a first electrode layer, a first light emitting layer on first electrode layer, and an intrinsic layer. The first light emitting layer has a first blue light emitting layer and a red light emitting layer, and the intrinsic layer is between the first blue light emitting layer and the red light emitting layer. The second light emitting unit includes a second light emitting layer and a second electrode layer on the second light emitting layer. The second light emitting layer has a second blue light emitting layer and a green light emitting layer. | 06-28-2012 |
20130114238 | WHITE COLOR LIGHT SOURCE OF ORGANIC LIGHT EMITTING DIODE - A white color light source of an organic light emitting diode is provided and is suitable for irradiating on plants. The white color light source includes a first color light and a second color light. A peak in the frequency spectrum of the first color light is within a first wavelength range. A peak in the frequency spectrum of the second color light is within a second wavelength range. The white color light source is at least formed by mixing the first color light and the second color light, wherein an intensity of a frequency spectrum of a wavelength range from 520 nm to 580 nm is substantially equal to or less than 20% of a total intensity of a frequency spectrum of the white color light source. | 05-09-2013 |
20130126834 | ORGANIC LUMINESCENT MATERIAL AND ORGANIC ELECTROLUMINESCENT APPARATUS - An organic luminescent material includes a host luminescent material and a guest luminescent material. The host luminescent material includes a compound represented by formula (1), | 05-23-2013 |
20130146908 | ILLUMINATION DEVICE - An illumination device including a substrate, a first conductive layer, a second conductive layer, a self-illuminating layer, and a first auxiliary conductive pattern layer is provided. The first conductive layer and the second conductive layer are disposed on the substrate. The self-illuminating layer is located between the first conductive layer and the second conductive layer to define an illumination region on the substrate. The first auxiliary conductive pattern layer is in contact with the first conductive layer and has an impedance smaller than that of the first conductive layer. A ratio of a perimeter (um) of the first auxiliary conductive pattern layer occupied in the illumination region to an area (um | 06-13-2013 |
20130153868 | ORGANIC ELECTROLUMINESCENT APPARATUS - An organic electroluminescent apparatus including an anode, a cathode, a first organic light emitting unit layer, a plurality of second organic light emitting unit layers, and a plurality of bonding layers is provided. The first organic light emitting unit layer has a phosphorescent host material for emitting blue light. The second organic light emitting unit layers have a host material for emitting light other than blue light. The first organic light emitting unit layer and the second organic light emitting unit layers are located between the anode and the cathode to obtain white light by mixing light. Each of the bonding layers is located between the first organic light emitting unit layer and one of the second organic light emitting unit layers or between two of the second organic light emitting unit layers. | 06-20-2013 |
20130240849 | ORGANIC ELECTROLUMINESCENT APPARATUS - An organic electroluminescent apparatus is provided. A first electrode layer is disposed above a substrate. A first color luminescent layer is disposed above the first electrode layer. A second color luminescent layer is disposed above the first color luminescent layer. A third color luminescent layer is disposed on the second color luminescent layer. A first color light emitted from the first color luminescent layer, a second color light emitted from the second color luminescent layer and a third color light emitted from the third color luminescent layer are mixed to form a white light. A first fluorescent layer is disposed on the substrate. The first fluorescent layer is excited by the first color light so as to emit the second color light, the third color light or a fourth color light. | 09-19-2013 |
Patent application number | Description | Published |
20090168209 | Focusing device and focusing method - A focusing device is provided. The focusing device has a changing focal length along a physical parameter thereof. The focusing device could be annular or in a shape of a disk. The annular focusing device has a width thereof changing with a periphery thereof, and the disk-shaped focusing device has a thickness, wherein the thickness of the disk-shaped focusing device is changing with an angular position thereof. | 07-02-2009 |
20090231660 | Observing device and method to observe a three-dimensional flow field - An observing device for observing a flow field in a detection space is provided. The observing device includes a light source generating a light beam, a light-deflecting device deflecting the light beam, and a light sheet-generating component receiving the light beam deflected by the light-deflecting device and generating a light sheet in the detection space corresponding to the deflected light beam. | 09-17-2009 |
20120307003 | IMAGE SEARCHING AND CAPTURING SYSTEM AND CONTROL METHOD THEREOF - The present invention discloses an image searching and capturing system and a control method thereof. The system comprises a first capture device, a second capture device, a control module and a processing module. The first capture device captures a plurality of multi-spectral panoramic images with panorama. The control module controls the second capture device to search and target an azimuth of target object according to the plurality of multi-spectral panoramic images; the control module controls that the second capture device rotates a rotation module to capture a high-resolution image of a target object. The control module controls a rotation angle and a rotation direction of the rotation module according to attitude information, position information, and azimuth of the target object. The invention is applied to environmental monitoring and disaster monitoring, and has automatic search for targets, calibration targets and achieve high-resolution images and other effects. | 12-06-2012 |
Patent application number | Description | Published |
20120075470 | Time-Sequential Multi-Spectrum Imaging Device - The present invention discloses a time-sequential multi-spectrum image acquiring device structure which uses a single camera module to achieve multi-spectrum image acquiring in a time-sequential architecture, thereby providing a simple, lightweight telemetry system and reducing the development and operation costs thereof. For example, a visible and near infrared (VNIR) imaging system reduces the use of four camera modules (each including an optical lens, filter, sensor, and image signal processing unit) to single camera module, the VNIR imaging system acquires multi-spectrum images having the same image geometric parameters for image calibration and can simplify the calibration process. | 03-29-2012 |
20130088793 | OPTICAL ELEMENT ADJUSTEMENT MECHANISM - An optical element adjustment mechanism is for loading a reflection optical device, which comprises a base and a loading element. The base is movably assembled to the reflection optical device. The base is a hollow tubular structure, and each side has an opening. The inner edge of one of the opening has a plurality loading surfaces extension to the central side, and two leaning surfaces protruded along a tube wall of the base. The loading element movably assembled to the base has a first surface, a second surface and two datum planes. The first surface is flattened against the plurality loading surfaces. The second surface has a connecting portion connected the optical element. The two datum planes are respectively flattened against the two loading surfaces. Wherein, at least one adjustment gasket is moveably assembled between the base and the loading element for precision adjustment. | 04-11-2013 |
Patent application number | Description | Published |
20120057126 | METHOD FOR ANALYZING TEAR FILM THERMOGRAPH OF CONTACTLESS TEAR FILM THERMAL IMAGER - A method for analyzing tear film thermograph of contactless tear film thermal imager has steps of sequentially loading multiple thermographs of a tear film, recording a maximum and a minimum of temperatures for a region of interest of each one of the thermographs, dividing the thermograph into at least one temperature zone in accordance with the maximum and minimum temperatures recorded in the last step, and recording a size, a location and a bordering temperature of each one of the at least one temperature zone, analyzing a pattern and temperature variation of each one of the at least one temperature zone, and classifying stability of the tear film. The patterns of the temperature zones can be identified through circularity computation, mosaic and temperature gradient analysis. Accordingly, tear film break up patterns can be classified with the method to facilitate doctors to diagnose a dry eye patient. | 03-08-2012 |
20130079660 | METHOD UTILIZING THERMOGRAPH OF A TEAR FILM FOR GENERATING A QUANTIFIED INDEX - A method utilizing thermograph of a tear film for generating a quantified index includes steps of: capturing a set of tear film thermograph data, deriving parameters from the set of tear film thermograph data, and executing a synthesis calculation based on the derived parameters. The parameters include a temperature distribution of each tear film thermograph, a temperature fall tendency of an open-eye tear film during time variation, a type of a tear film break-up and an occurring time of the tear film break-up, and an upward drifting speed of a temperature color block in the tear film thermograph. The parameters represent the quantity of the aqueous volume of the tear and the stability of the tear film for establishing a reliability of an examination of a diagnosis of a dry eye disease without intruding into a testee's eye. | 03-28-2013 |