Patent application number | Description | Published |
20090184934 | Method For Determining The Number Of Fingers On A Sensing Device - A method for determining the number of fingers on a sensing device, which has a plurality of scanlines, includes the steps of: identifying the scanlines that generate a detecting signal, which has a value greater than a threshold value; finding adjacent ones of the scanlines; forming at least one group from the adjacent ones of the scanlines thus found; and counting the number of the scanlines in the at least one group thus formed in order to determine the number of fingers on the sensing device. | 07-23-2009 |
20100207892 | Touch-Control Module - A touch-control module for recognizing gesture inputs by a position sensitive device to an electronic device is disclosed. The touch-control module includes an input connected to the position sensitive device for receiving at least one sensing signal generated by the position sensitive device when one or more objects touch a surface thereof; a touch state unit for detecting the sensing signal and determining a touch state of the object(s), such as approaching to or lifting off the position sensitive device; a position and multi-gesture processing unit for analyzing the sensing signal to determine a touch position of the object(s) on the position sensitive device, and tracking the touch state and touch position to determine a corresponding motion factor; and an output connected to the electronic device for outputting the touch state and touch position as well as information corresponding to a motion factor whenever the motion factor is determined. | 08-19-2010 |
20100295818 | CAPACITIVE TOUCH PANEL - A capacitive touch panel includes: a substrate having upper and lower surfaces and vias; a first patterned layer formed on the upper surface of the substrate and including first electrode units, each of the first electrode units being connected to a respective one of the vias and including interconnected first electrode pads that are aligned in a first direction; a first insulating layer disposed above and covering the first patterned layer; and a second patterned layer disposed above and formed on the first insulating layer and including second electrode units. Each of the second electrode units is connected to a respective one of the vias and includes interconnected second electrode pads that are aligned in a second direction transverse to the first direction. | 11-25-2010 |
20110102339 | TOUCH SENSING METHOD AND ELECTRONIC DEVICE - A touch sensing method includes: scanning a plurality of first and second sensor lines, aligned in two different directions, of a touch sensor board; generating first and second indications based on the scan result, the first/second indication carrying information of at least one group of the first/second sensor lines that are adjacent to one another on the touch sensor board and that have detected a user's touch on the touch sensor board and of a number of the first/second sensor lines in the group; and generating a status signal that corresponds to a predetermined finger gesture at least based on a comparison result determined by comparing the number of the first sensor lines indicated by the first indication with the number of the second sensor lines indicated by the second indication. An electronic device that implements the touch sensing method is also disclosed. | 05-05-2011 |
20110122072 | TOUCH DEVICE - A touch device includes a base and a touch pad. The base has an accommodating region and at least one first conductor. The touch pad is received in the accommodating region and subjected to a force to generate a changeable position relative to the base. The touch pad has a touch surface consist of a plurality of capacitive sensors and at least one second conductor conducted with at least one of the capacitive sensors. The second conductor is electrically conducted with the first conductor as the change of relative position between the touch pad and the base. Capacitances measured from the capacitive sensors are substantially different between the touch surface touched with a conductive object and the second conductor conducted with the first conductor, which is conducted to a fixed voltage, current or a ground. Therefore, a control unit connected to the capacitive sensors can generate different control signals from the connecting state between the first conductor and the second conductor. | 05-26-2011 |
20110216005 | INPUT DEVICE - An input device includes a contact sensing surface having at least one key region and a controller. The controller includes: a position-detecting unit configured to detect the position on the contact sensing surface contacted by an object, a memory unit configured to store at least one functional data each corresponding to a key function, a key-triggering unit configured to read out the functional data in the memory unit and activate the corresponding key function without a sliding into the key region, a key function setting unit configured to change the functional data based on the direction and distance of the object sliding within the key region. With this arrangement, the key function setting unit can reduce the number of the keys regions virtually provided on the contact sensing surface, thereby providing an intuitive operation of key functions for a user. | 09-08-2011 |
20110247883 | TOUCH PAD - A touch pad including a printed circuit board, a plurality of column-conductor groups and a plurality of row-column groups. The printed circuit board is formed with an upper surface and a lower surface. The column-conductor groups include a plurality of first column-conductors and a plurality of second column-conductors. The row-conductor groups include a plurality of first row-conductors and a plurality of second row-conductors. The first column-conductors and the first row-conductors are provided on the upper surface. The second column-conductors and the second row-conductors are respectively provided on one and the other of the upper surface and the lower surface, and electrically connected to each other through column-vias and row-vias. Whereby the structure, the existing material and process can be still be used, and the problem of crossed wires can be avoided, also the yield of products can be increased with less waste of materials. | 10-13-2011 |
20110309957 | INPUT MODULE AND ELECTRONIC DEVICE HAVING THE SAME - An input module includes a substrate, at least two bio-keys and a control unit. The substrate has at least two bio-leads and switches. Each of the bio-keys has a key surface, at least one conductive elastic piece and a protrusion. The conductive elastic piece is electrically connected and conducted to the key surface and the bio-leads. The control unit has an input-signal generating element and a biological-signal generating element. The input-signal generating element is configured to generate a first input signal and a second input signal by using the protrusion to toggle the switch. The biological-signal generating element is configured to generate a bioelectric signal through the electrical conduction between the bio-key and the bio-lead. The present invention further provides an electronic device, in which the bioelectric signal is analyzed by an operational unit to generate a biological function index. | 12-22-2011 |
20120062480 | CAPACITIVE TOUCH SENSOR AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a capacitive touch sensor and a method for manufacturing the same. The capacitive touch sensor includes at least one transparent insulation substrate and at least one transparent capacitive touch conductor. The capacitive touch conductor is coated on the insulation substrate and formed with a boundary. The capacitive touch conductors are electrically connected to each other to form at least one first and second electrical-conductive set. At least one recess region is defined in the boundary. The recess region increases the light transmittance of the insulation substrate, reduces the necessary brightness of a light source for the capacitive touch pad, and saves the material cost. | 03-15-2012 |
20120075203 | METHOD FOR ANALYZING TWO-DIMENSIONAL TRACK TO GENERATE AT LEAST ONE NON-LINEAR INDEX AND TOUCH CONTROL MODULE USING THE SAME - A method for analyzing a two-dimensional track to generate at least one non-linear index and a touch control module using the same are provided. The method includes: extracting a two-dimensional track; generating a plurality of displacement units in sequence according to the two-dimensional track, in which each displacement unit includes a displacement amount and a displacement direction of the two-dimensional track moving in a preset time interval; comparing the displacement amount of each displacement unit with a reference value in sequence; calculating an included angle formed between the displacement direction of the displacement unit and a displacement direction of a previous displacement unit, when the displacement amount of the displacement unit is greater than the reference value; accumulating the included angles in sequence to obtain an accumulated angle, in which the accumulated angle includes an accumulated value and a positive or negative sign; and converting the accumulated angle to at least one non-linear index. | 03-29-2012 |
20120212426 | TRANSPARENT TOUCH PAD AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a transparent touch pad and a method for manufacturing the same. The transparent touch pad includes a first transparent substrate, a second transparent substrate and an adhesion layer. The adhesion sides of the first transparent substrate and the second transparent substrate are respectively provided with a plurality of first sensing conductors and second sensing conductors and are adhered by the adhesion layer to form a transparent touch pad having two-dimensional arrangement of sensing conductors. Since the first transparent substrate has a low electrical resistance and the second transparent substrate is easy to process, the area of a visible region of the touch pad is increased and a lithographic process is no longer required. In this way, the structure of the touch pad is simplified and the production cost is reduced. | 08-23-2012 |
20150042585 | SYSTEM AND ELECTRONIC DEVICE OF TRANSIENTLY SWITCHING OPERATIONAL STATUS OF TOUCH PANEL - When a touch panel operating in a first status detects a first trigger signal, the touch panel is configured to switch to a second status. When the touch panel detects a second trigger signal before a predetermined period has elapsed after receiving the first trigger signal, or when the touch panel does not detect the second trigger signal after the predetermined period has elapsed after receiving the first trigger signal, the touch panel is configured to switch back to the first status. | 02-12-2015 |