Patent application number | Description | Published |
20100115404 | AUTOMATIC WORD STRING ARRANGING APPARATUS AND METHOD THEREOF - The present invention discloses a method to automatically arrange word string in a display. The word string includes two words. The method includes the following steps. The first step is to define the positions of the start position and the stop position of strokes of the two words. The second step is to group the start position and the stop position based on a threshold value. The third step is to circle the words based on the grouping result. The final step is to rearrange the two words based on a datum point. | 05-06-2010 |
20100115447 | Method and Apparatus to Dynamically Arrange A Virtual Key Position in A Hierarchical Structure - The present invention discloses a method to dynamically arrange positions of a plurality of virtual keys in a hierarchical structure with many layers. These virtual keys can control an application program and include at least one function group key and at least one command key The method includes the following steps. The first step is to determine whether a first virtual key is a function group key or a command key, wherein the first virtual is located in a first layer in the hierarchical structure. When the first virtual key is a command key, the first virtual key is moved from the first layer to another layer and a number to select the first virtual key is added by one. Next, whether or not the application program processing has ended is determined. When the application program processing has ended, the number of times the first virtual key is clicked is compared to the number of times other virtual keys were selected. A virtual key that is clicked the most is moved to the top layer in the hierarchical structure. | 05-06-2010 |
20100118031 | Method and apparatus to define drafting position - The present invention discloses a method to define a drafting range based on a curve with a plurality of points drawn by a user. A writing character is shown in a display based on the drafting range. The method includes the following steps. The first step is to gather coordinate positions of points. Then, these coordinate positions are compared to each other to get a maximum coordinate position and a minimum coordinate position. A drafting range is generated based on the maximum coordinate position and the minimum coordinate position. Next, the drafting range is corresponded to a display range of a display to define a ratio of the drafting range to the display range. Finally, the writing character is adjusted and displays in the display based on the ratio. | 05-13-2010 |
Patent application number | Description | Published |
20090033565 | ANTENNA STRUCTURE AND WIRELESS COMMUNICATION APPARATUS THEREOF - An antenna structure includes a conductive film, a radiation element, and a feeding point. The radiation element includes a first radiation object and a second radiation object. The second radiation object has a first radiation arm, a second radiation arm, and a third radiation arm. The first radiation arm is coupled to the first radiation object, and the second radiation arm is extended from the first radiation arm to be coupled to the third radiation arm, wherein there is a first angle included between the first radiation arm and the second radiation arm, and there is a second angle included between the second radiation arm and the third radiation arm. The feeding point is coupled between the conductive film and the radiation element. | 02-05-2009 |
20100013716 | Multi-frequency antenna and an electronic device having the multi-frequency antenna - A multi-frequency antenna and an electronic device having the multi-frequency antenna are disclosed. The multi-frequency antenna comprises: a first radiating element including a first end and a second end; a grounding element connected to the first end of the first radiating element; a feeding structure for inputting an electrical signal to the first radiating element; and a second radiating element including a first end and a second end. The first end of the second radiating element includes a transitional portion; and the second radiating element is connected to the second end of the first radiating element by the transitional portion. So that the first radiating element forms a first current path to generate a first resonant mode; and the second radiating element forms a second current path to generate a second resonant mode. | 01-21-2010 |
20100013719 | Antenna and an electronic device having the antenna - An antenna and an electronic device having the antenna are disclosed. The antenna comprises: a base board having a first surface and a second surface; a first radiating element disposed on the first surface; a grounding element disposed on the first surface; a feeding structure disposed on the first surface, wherein the first radiating element is electrically coupled with the feeding structure and the grounding element; and a second radiating element disposed on the first surface or the second surface, wherein the second radiating element adjusts a first resonant mode or generates a second resonant mode by inductive coupling. | 01-21-2010 |
20100302105 | ANTENNA STRUCTURE - An antenna structure has a first resonance mode and a second resonance mode. The antenna structure consists of a first radiation element, a second radiation element, a grounding element, and a signal feeding element. The first radiation element resonates at a first operating frequency band corresponding to the first resonance mode. The second radiation element is extended from a first end of the first radiation element and resonates at a second operating frequency band corresponding to the second resonance mode. The grounding element is extended from a second end of the first radiation element. The signal feeding element is disposed between the first radiation element and the grounding element. The second radiation element, the first radiation element, and the grounding element are formed by bending a slender metal sheet. | 12-02-2010 |
Patent application number | Description | Published |
20090098746 | Micro USB socket connector - A USB socket connector includes a plastic core member, which has metal terminals embedded therein and a constraint member, for example, a raised portion, and a metal casing, which houses the plastic core member and has a constraint device, for example, notch that receives the constraint device of the plastic core member to hold the plastic core member in position upon insertion of the plastic core member into the casing, and two rear extension arms that are bent into shape and stopped against the back side of the plastic core member to hold down the plastic core member firmly in place after insertion of the plastic core member into the metal casing. | 04-16-2009 |
20090156049 | CARD CONNECTOR WITH A CARD INSERTION GUIDE - A card connector includes an electrically insulative frame base, which defines a card insertion space and a sliding slot at one side of the card insertion space, a metal shielding cover, which covers the card insertion space and has an elongated guide hole corresponding to the sliding slot, a slide slidably mounted in the sliding slot, an elastic member connected between the slide and the rear side of the electrically insulative frame base, a guide rod fastened to the rear side of the electrically insulative frame base to guide movement of the slide along the sliding slot, and a limiter member fastened to the slide and movable along the elongated guide hole of the metal shielding cover for guiding an electronic card into the card insertion space and holding the inserted electronic card in positive contact with respective metal terminals in the electrically insulative frame base. | 06-18-2009 |
20100112862 | USB CONNECTOR AND ITS FABRICATION METHOD - A USB connector fabrication method includes the steps of (a) stamping a metal sheet into a terminal set having a set of first terminals, a set of second terminals and material bridges joining the first terminals and the second terminals, (b) preparing an electrically insulative housing having punch holes and then mounting the terminal set in the electrically insulative housing to keep the material bridges in vertical alignment with the punch holes, (c) using a machine to cut off the material bridges and (d) securing a metal shield around the periphery of the electrically insulative housing. | 05-06-2010 |