Patent application number | Description | Published |
20100059780 | SYSTEM FOR DISPLAYING IMAGES - A system for displaying images employing an organic electroluminescent device is provided. The organic electroluminescent device includes a first electrode, an organic electroluminescent element disposed on the first electrode, a second electrode disposed on the organic electroluminescent element, and a color tuning element disposed on the second electrode. In particular, the color tuning element has a thickness range T | 03-11-2010 |
20100207878 | ILLUMINATION DEVICE, METHOD FOR FABRICATING THE SAME, AND SYSTEM FOR DISPLAYING IMAGES UTILIZING THE SAME - The invention provides an illumination device, method for fabricating the same, and system for displaying images utilizing the same. The illumination device includes a substrate, a first electrode, an illumination layer, and a second electrode. The substrate has a plurality of illumination regions. The first electrode overlies the substrate and has a first bump disposed in a first illumination region of the plurality of the illumination regions. The illumination layer overlies the first electrode. The second electrode overlies the illumination layer. | 08-19-2010 |
20110227963 | System for Displaying Images - A system for displaying images employing a pixel structure. The pixel structure includes a first sub-pixel, a second sub-pixel, a third sub-pixel, and a filling layer. Particularly, each sub-pixel includes a color filter layer, and an electroluminescent element corresponding to the color filter layer. The transmittances of the color filter layers of the first sub-pixel, the second sub-pixel, and third sub-pixel, for a radiance level used for curing the filling layer, are determined according to the following equation: transmittance of the color filter layer of the first sub-pixel>transmittance of the color filter layer of the second sub-pixel>transmittance of the color filter layer of the third sub-pixel. Further, the distance between the first and second sub-pixels is greater than that between the first and third sub-pixels. | 09-22-2011 |
Patent application number | Description | Published |
20090040293 | Camera Array Apparatus and Method for Capturing Wide-Angle Network Video - A camera array apparatus and a method for capturing wide-angle network videos are provided. An objective of the present invention is to provide the webcams used for the common computer system or the like for broadcasting the real-time and wide-angle network video stream in a limited-bandwidth network. Furthermore, software is introduced to join the two or more images retrieved from the cameras and to form the wide-angle or panoramic video. The preferred embodiment of the camera array apparatus comprises a plurality of camera modules that are arranged as an array and are connected to the computer system. In particular, the mentioned images retrieved from the cameras are joined together from the wide-angle or panoramic video using a stitching process. | 02-12-2009 |
20090063694 | Multimedia Access Device, Multimedia Playing System Comprising the Multimedia Access Device, and Multimedia Data Playing Method - A multimedia access device, a multimedia playing system comprising the multimedia access device, and a multimedia data playing method are provided. The multimedia playing system comprises a portal web server, an interface, a multimedia access device, and a multimedia playing apparatus. The portal web server provides a file allocation table (FAT) comprising at least one file folder, each having at least one file. Each file is adapted to contain and correspond to at least one Internet data stream. The multimedia access device connects to the portal web server via the interface, selects one file from the FAT according to a selection signal, and converts the Internet data stream corresponding to this file into a USB data stream after receiving the Internet data stream via the interface. | 03-05-2009 |
20110109045 | Dartboard Structure and Electronic Device for the Same - An electronic device for a dartboard structure is disclosed. The dartboard structure comprises a body with a board-surface, a sensing module, a body processing module and a first wireless communication interface. The electronic device comprises a second wireless communication interface, a central processing module and a display module. The sensing module is configured to generate a sensing signal according to the location of at least one dart being thrown to the body. The body processing module converts the sensing signal to a position signal. The location signal is transmitted from the first wireless communication interface to the second wireless communication interface of the electronic device. The central processing module of the electronic device calculates a score according to the location signal so that the display module of the electronic device can display the score. | 05-12-2011 |
Patent application number | Description | Published |
20090257251 | Switching control circuit for a switching power converter - A switching control circuit is coupled to a switching device and an auxiliary winding of a transformer, wherein a primary winding of the transformer is coupled to the switching device. The switching control circuit includes a voltage receiver, a comparing unit and a propagation delay circuit, wherein the voltage receiver is coupled to the auxiliary winding of the transformer for receiving a reflected voltage signal and transforming the reflected voltage signal into a peak voltage signal, while the switching device is turned off. The comparing unit is coupled to the voltage receiver for receiving the peak voltage signal and a first threshold voltage, and outputting a comparison result. The propagation delay circuit is coupled to the comparing unit for receiving the comparison result, and outputting a PWM signal to turn on the switching device after a delay time. | 10-15-2009 |
20110063877 | Synchronous rectifying circuit with primary-side swithching current detection for offline power converters - A synchronous rectifying circuit is provided for offline power converter. A pulse signal generator is utilized to generate a pulse signal in response to a switching current of the power transformer. An isolation device is coupled to the pulse signal generator for transferring the pulse signal through an isolation barrier of the power transformer. A synchronous rectifier includes a power switch and a control circuit. The power switch is coupled between the secondary side of the power transformer and the output of the power converter for the rectifying. The control circuit is operated to receive the pulse signal for turning on/off the power switch. The pulse signal is generated to turn on the power switch once the switching current is higher than a threshold. | 03-17-2011 |
20110305053 | Switching Control Circuits with Valley Lock for Power Converters - A switching control circuit for a switching power converter is provided. The switching control circuit is coupled to a switching device and an auxiliary winding of a transformer. The switching control circuit includes a valley detecting circuit, a valley lock circuit, and a PWM circuit. The valley detecting circuit is coupled to receive a reflected voltage signal from the auxiliary winding of the transformer for outputting a control signal in response to the reflected voltage signal. The valley lock circuit is coupled to receive the control signal for outputting a judging signal in response to the control signal during a first period and a second period following the first period. The PWM circuit outputs a switching signal in response to the judging signal. | 12-15-2011 |
20120033460 | High-Side Synchronous Rectifier Circuits and Control Circuits for Power Converters - A control circuit for a switching power converter is provided. The control circuit is installed between a secondary side and an output of the power converter and coupled to control a switching device. The control circuit includes a linear predict circuit, a reset circuit, a charge/discharge circuit, and a PWM circuit. The linear predict circuit is coupled to receive a linear predict signal from the secondary side for generating a charging signal. The reset circuit is couple to receive a resetting signal for generating a discharging signal. The charge/discharge circuit is coupled to receive the charging signal and the discharging signal for generating a ramp signal. The PWM circuit is coupled to receive the linear predict signal for enabling a switching signal and receive the ramp signal for resetting the switching signal. | 02-09-2012 |
20120170330 | SINGLE-STAGE PFC CONVERTER WITH CONSTANT VOLTAGE AND CONSTANT CURRENT - An exemplary embodiment of a power converter is provided. The power converter includes a transformer, a power device, a switching controller, and a capacitor. The power device is coupled to the transformer for switching the transformer to product output of the power converter. The switching controller receives a feedback signal for generating a switching signal coupled to drive the power device. An input circuit of the switching controller is coupled to the transformer to sample an input signal for generating the feedback signal, and the input signal is correlated to the output of the power converter. The capacitor is coupled to the switching controller to provide frequency compensation for a feedback loop of the power converter. Input of the power converter is without an electrolytic capacitor, and a maximum output current of the power converter is a constant current. | 07-05-2012 |