EGALAX_EMPIA TECHNOLOGY INC. Patent applications |
Patent application number | Title | Published |
20140333557 | ELECTRONIC DEVICE, PROCESSING MODULE, AND METHOD FOR DETECTING TOUCH TRACE STARTING BEYOND TOUCH AREA - The present invention provides a method for detecting a touch trace starting beyond a touch area. The method comprises the following steps: receiving touch events happened in the touch area detected by a touch module; plotting a touch trace according to the touch events outputted from the touch module; determining whether a first touch trace beginning with a first point as the touch trace starting beyond the touch area; and determining whether a second touch trace beginning with a second point as the touch trace starting beyond the touch area, wherein the first point is within a first range to a boundary of the touch area and the second point is within a second range to the boundary, and the second range is larger than the first range. | 11-13-2014 |
20140300576 | METHOD AND DEVICE FOR DETECTING CAPACITIVE TOUCH SCREEN - A detecting device and method for a capacitive touch screen is proposed. A plurality of frequency settings is employed. Each frequency setting corresponds to a type of driving mode of a type of driving potential. These frequency settings are used for setting the detecting device for the capacitive touch screen. When the signal-to-noise (S/N) ratio of the signals in the capacitive touch screen is not appropriate, frequency settings are changed by selecting one that yields a more appropriate S/N ratio among the frequency settings. The driving mode includes a single-electrode driving mode in which only a single driving electrode in the capacitive touch screen is driven at a time, and a multiple-electrode driving mode in which multiple driving electrodes are simultaneously driven at a time, and there can be several types of driving potentials. | 10-09-2014 |
20140300575 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen. The conductive strip pattern allows that, when a touch range of each external conductive object on the mutual capacitive multi-touch screen is larger than a predetermined condition, capacitive coupling between each external conductive object and first conductive strip is greater than capacitive coupling between each external conductive object and second conductive strip, such that the proportion of a driving signal flowing out of the first conductive strip via at least one first external conductive object in the external conductive objects and into the second conductive strip via at least one second external conductive object in the external conductive objects decreases as the number of second external conductive objects increases. | 10-09-2014 |
20140198075 | DETECTION METHOD AND DEVICE FOR TOUCH SCREEN - A detection method and device for a touch screen is provided. When a pen touching or approaching the touch screen is detected, only the location of the pen in a predetermined range is provided, and the locations of all other objects within the predetermined range are not provided, such as the location of a palm. Only when the pen is no longer detected over a predetermined period of time, then the locations of objects other than the pen in the predetermined range are provided again. | 07-17-2014 |
20140184565 | METHOD AND DEVICE FOR DETECTING TOUCH OR PROXIMITY - When at least one external object approaches or touches a touch sensor, profiles in a scanning signal corresponding to each external object will appear. The smallest value between the profiles corresponding to a first and a second external object is designated as a division value when the profiles corresponding to the first and the second external objects overlap. The overlapping profiles can be divided into the portion of the first external object and the portion of the second external object, respectively. | 07-03-2014 |
20140184564 | METHOD AND DEVICE FOR LOCATION DETECTION - The changes of capacitances of a plurality of detecting locations on a touch screen are detected for determining a profile corresponding to each external object approaching or touching the touch screen. Then the location of each external object is generated separately by two or four values in the corresponding profile. | 07-03-2014 |
20140184563 | Touch Sensing Circuit, Apparatus, and System and Operating Method thereof - A touch sensing circuit is provided. The circuit is configured to connect to a conducting wire in a touch area for measuring a signal variation. In a driving mode, the wire is coupled to AC voltage. If a first voltage variation which exceeds a first threshold is measured by the circuit, it is determined that something is approaching the touch area near the wire. In a passive mode, the wire is coupled to DC voltage. If a second voltage variation which exceeds a second threshold is measured by the circuit, it is determined that something is approaching the touch area near the wire. When measuring the second voltage variation, no AC voltage is coupled to the wire. | 07-03-2014 |
20140184541 | Processing Apparatus of Optical Touch System and Operating Method Thereof - An operating method of an optical touch system is provided. The method includes the following steps of: performing at least one test sensing step for obtaining a luminance characteristic value until the luminance characteristic value is smaller than a first threshold value, the test sensing period of each test sensing step is shorter than the period of the previous test sensing step; performing at least one subsequent sensing step based on the test sensing period of the last test sensing step for obtaining a subsequent image; calculating a sensing image based on the at least one subsequent image; and performing a position determining step of each object shown on the sensing image. | 07-03-2014 |
20140169137 | SYSTEM AND PROCESSING APPARATUS FOR MEASURING SURFACE ACOUSTIC WAVE SENSITIVE AREA SIZE AND METHOD THEREOF - A measuring method of touch sensitive area size of a SAW sensor module is provided. The SAW sensor module comprises a substrate configured for propagating SAW, a first transmitter and a first receiver corresponding to a first axis, a second transmitter and a second receiver corresponding to a second axis. The SAWs emitted by the first transmitter at least pass through a first initial distance xi, propagate through a second axis length y after reflected by a first SAW reflecting bar, and enter the first receiver after reflected by a second SAW reflecting bar. The SAWs emitted by the second transmitter at least pass through a second initial distance yi, propagate through a first axis length x after reflected by a third SAW reflecting bar, and enter the second receiver after reflected by a fourth SAW reflecting bar. | 06-19-2014 |
20140168155 | METHOD, STORAGE MEDIUM, AND ELECTRONIC APPARATUS FOR CALIBRATING TOUCH SCREEN - The present invention provides a calibration method of a touch screen which comprises a display module and a sensor module. The calibration method comprises the following steps: receiving coordinate values of multiple display points shown on the display module; receiving coordinate values of multiple sensing points received by the sensor module, wherein the multiple sensing points are corresponding to the multiple display points, respectively, for forming at least four multiple correspondences; calculating a first set of calibration formulas according to the multiple correspondences; adjusting the multiple sensing points according to the first set of calibration formulas; and calculating a second set of calibration formulas according to the adjusted sensing points. | 06-19-2014 |
20140149945 | ELECTRONIC DEVICE AND METHOD FOR ZOOMING IN IMAGE - An electronic device and method for zooming in image are provided. The electronic device includes a touch screen and a processer. At first, the processer recognizes an object closing or touching the touch screen so as to generate a pointer at the touch screen. Then the touch screen zooms in the image within a predetermined range based on the pointer when the processer recognizes another object adjacent to the before-mentioned object. | 05-29-2014 |
20140145990 | METHOD FOR UNLOCKING TOUCH SCREEN, ELECTRONIC DEVICE THEREOF, AND RECORDING MEDIUM THEREOF - A method for unlocking touch screen, electronic device thereof, and recording medium thereof are disclosed. A graph with a boundary is displayed on a touch screen. Then two fingers touch the outside, the inside or the boundary of the graph and move outward or inward separately. Whether the touch screen of the electronic device is unlocked is determined based on whether the distance between the moved two fingers is larger or smaller than a default value, or whether the distance difference between the two fingers before and after moving is larger than a default value. | 05-29-2014 |
20140114607 | METHOD AND DEVICE FOR DUAL-DIFFERENTIAL SENSING - A method and device for dual-differential sensing is disclosed. The sensing information can be generated from signals provided by a sensing device with a plurality of sensors. Each value of the sensing information corresponds to signals of three sensors, respectively. The sensing device is flexible and configured on a display. The noise effect of the display on the signal of each sensor corresponds to the distance between the display and the sensor. Besides, the noise effect of the display on each value of the sensing information corresponds to the distances between the display and the three sensors, respectively. | 04-24-2014 |
20140104904 | POWER MANAGEMENT DEVICE OF A TOUCHABLE CONTROL SYSTEM - A power management device of a touchable control system includes a boost circuit, a storage circuit, a detection circuit and a loading circuit. The boost circuit has an output terminal and generates an output voltage. The storage circuit electrically connects to the output terminal of the boost circuit and stores the output voltage. The detection circuit electrically connects to the storage circuit so as to detect the output voltage. The loading circuit electrically connects or disconnects to the output terminal of the boost circuit according to a predetermined value of the output voltage. | 04-17-2014 |
20140104222 | DEVICE AND METHOD FOR DETECTING TOUCH SCREEN - The invention discloses a full screen driven detection. A driving signal is simultaneously provided to all first conductive strips arranged in parallel in a first direction in a touch screen, and mutual capacitive signals are detected from all second conductive strips arranged in parallel in a second direction. The mutual capacitive signals can be used for determining whether an external conductive object coupled to the ground is touching or approaching the touch screen or not even if water or other conductive object not coupled to ground is on the touch screen. | 04-17-2014 |
20140103982 | POWER MANAGEMENT DEVICE AND POWER MANAGEMENT METHOD OF TOUCHABLE CONTROL SYSTEM - A power management device of a touchable control system includes a boost circuit boosting an output voltage according to an input voltage, a controlling signal for ballasting charging, and a controlling signal for boosting charging, a detection circuit detecting a predetermined value of the output voltage, a modulation circuit, and a loading circuit. The modulation circuit separately modulates the output voltage by the controlling signal for ballasting charging after the output voltage reaches the predetermined value and by the controlling signal for boosting charging before the output voltage reaches the predetermined value according to the detecting of the detection circuit. The loading circuit receives the reached predetermined value of the output voltage according to the modulation of the modulation circuit, wherein the controlling signal for boosting charging modulating the output voltage is more rapid than the controlling signal for ballasting charging modulating the output voltage. | 04-17-2014 |
20140078087 | METHOD FOR TOUCH CONTACT TRACKING - A method for touch contact tracking is provided. A parameter is adjusted according to the number of external objects approaching or touching a touch sensor. Besides, the detected location corresponding to each external object is also detected. The parameter is used to generate a reported location corresponding to each external object according to the detected location separately, whereby the larger the number of external objects is, the closer the distance between the reported location and the detected location is. | 03-20-2014 |
20140078085 | PREDICTION-BASED TOUCH CONTACT TRACKING - When an external object approaches or touches a touch sensor, predicted locations of the external object can be generated by detected locations according to signals from the touch sensor. The latest predicted location is shifted backwards towards the latest reported location for a portion of the distance between the predicted location and the latest reported location to generate a new reported location, whereby jittering of the reported locations caused by noise in the signals of the touch sensor can be reduced or filtered. | 03-20-2014 |
20140071360 | TOUCH DISPLAY AND METHOD FOR DRIVING A PLURALITY OF TOUCH DRIVING ELECTRODES OF TOUCH DISPLAY - A touch display provided by the present invention includes a control unit and a display. The control unit outputs driving signals to a plurality of touch driving electrodes and receives sensing signals from a plurality of touch sensing electrodes so as to detect touch or proximity of at least one external object based on the capacitive coupling between the driving and sensing electrodes. The display includes a liquid crystal layer, a pixel electrode and a common electrode, wherein the liquid crystal layer is driven by the pixel electrode and the common electrode. The common electrode includes the touch driving electrodes, and the common electrode except the touch driving electrodes are electrically coupled to a DC potential to form a shielded region. | 03-13-2014 |
20140062951 | METHOD AND DEVICE FOR IMAGE SEGMENTATION - The invention provides a method and a device for image segmentation. After obtaining an image constructed of a plurality of 1D sensing information, each line piece in each 1D sensing information, which corresponds to touch or proximity of one or more external conductive objects, is determined. Next, the line pieces corresponding to touch or proximity of different external conductive objects are segmented based on overlapping relationships between the adjacent line pieces. | 03-06-2014 |
20140062950 | Touch sensing method, processor and system - The invention provides a touch sensing method. The touch sensing method comprises the following steps: searching each line piece of a line piece group in a 1-D sensing information which comprising a plurality of values, and each line piece comprises part of the values; keeping a first line piece in the line piece group if at least one value of the first line piece of all line pieces is higher than a preset range; and excluding a second line piece from the line piece group if at least one value of the second line piece of all line pieces is lower than the preset range. | 03-06-2014 |
20140062949 | Touch sensing method, processor and system - The invention provides a touch sensing method. The touch sensing method comprises the following steps: obtaining a first 1-D sensing information, wherein the first 1-D sensing information comprises a plurality of first values; obtaining a second 1-D sensing information, wherein the second 1-D sensing information comprises a plurality of second values, wherein the positions of the first values respectively correspond to the positions of the second values, and the first 1-D sensing information is generated when no external conductive object approaches or touches; determining a plurality of first variations based on the differences between the first values and the corresponding second values; determining an average variation based on all or part of the first variations; and determining a plurality of second variations based on the differences between the first variations and the average variation. | 03-06-2014 |
20140059460 | METHOD FOR DISPLAYING GRAPHICAL USER INTERFACES AND ELECTRONIC DEVICE USING THE SAME - The invention provides an electronic device for displaying GUIs (graphical user interfaces) including a touch screen and a processor. The touch screen displays one or more of a plurality of GUIs and detects a first and a second touch signal. When the processor determines the first touch signal existing at the overlap of the GUIs and the second touch signal, switches the top GUI to another GUI based on the relative positions between the first and the second touch signals or the direction in which the second touch signal is moving. | 02-27-2014 |
20140049270 | METHOD AND DEVICE FOR ANALYZING POSITIONS - The method and device for analyzing position are disclosed. By analyzing sensing information with at least one zero-crossing, each position can be analyzed. The number of analyzed positions may be different from the number of zero-crossings. When the number of analyzed positions is different from the number of zero-crossing, the number of analyzed positions is more than one. | 02-20-2014 |
20140028581 | DRIVING SIGNAL GENERATING SYSTEM - In a driving signal generating system, a boost circuit provides a power voltage, an amplifier provides an analog waveform driving signal, and a level shifter provides a digital waveform driving signal. A select device selects the analog waveform driving signal as a driving signal for a touch panel in an analog waveform mode, and selects the digital waveform driving signal as a driving signal for the touch panel in a digital waveform mode. The boost circuit provides the power voltage to the amplifier, and the amplifier, in the digital waveform mode, generates an output voltage as a power for at least one last stage of the level shifter. | 01-30-2014 |
20140022213 | METHOD AND DEVICE FOR POSITION DETECTION - A method and device for position detection are disclosed. A self-capacitance detection can be performed by a sensing device. According to the result of the self-capacitance detection, a first mutual-capacitance detection can be performed for determining one or more first 1-D positions. According to the result of the first mutual-capacitance detection, a second mutual-capacitance detection can be performed for determining one or more second 1-D positions corresponding to each first 1-D position. One or more 2-D positions can be provided according to the one or more second 1-D positions corresponding to each first 1-D position. Besides, during the self-capacitance detection, the first mutual-capacitance detection, and the second mutual-capacitance detection, a touch related sensing information corresponding to a touch that covers a wide area can be neglected for palm rejection. | 01-23-2014 |
20140015798 | METHOD AND DEVICE FOR POSITION DETECTION - A method and device for position detection are disclosed. A self-capacitance detection can be performed by a sensing device. According to the result of the self-capacitance detection, a first mutual-capacitance detection can be performed for determining one or more first 1-D positions. According to the result of the first mutual-capacitance detection, a second mutual-capacitance detection can be performed for determining one or more second 1-D positions corresponding to each first 1-D position. One or more 2-D positions can be provided according to the one or more second 1-D positions corresponding to each first 1-D position. Besides, during the self-capacitance detection, the first mutual-capacitance detection, and the second mutual-capacitance detection, a touch related sensing information corresponding to a touch that covers a wide area can be neglected for palm rejection. | 01-16-2014 |
20140015788 | Device and Method for Parallel-scanning Differential Touch Detection - A method for parallel-scanning differential touch detection is disclosed herein. The method includes generating a plurality of first outputs by a differential unit according to a plurality of first inputs provided by a plurality of sensors of a touch panel in each scan of total i scans, herein, the kth first output in the jth scan of the total i scans is the (i*(k−1)+j)th output in the continuous first outputs, i≧2, j≧1, k≧1, and i, j, k are natural numbers. Wherein, the differential unit has a plurality of subtractors and the inputs of the subtractors are connected in series. By doing so, the noises between a touch panel and a display can be eliminated. | 01-16-2014 |
20130321331 | DETECTING METHOD AND DEVICE FOR TOUCH SCREEN - One driving electrode or one set of driving electrode of a touch screen are designated as a base electrode or base electrodes. When the base electrode or base electrodes are provided by a driving signal, the detected signal from the sensing electrodes is designated as a level signal. The level signal is used to adjust the detected signal when other non-base electrodes are provided by the driving signal, whereby the detected image from the touch screen can be leveled. | 12-05-2013 |
20130321330 | SIGNAL MEASURING METHOD AND DEVICE FOR TOUCH SCREEN - Each one or each set of driving electrodes of a touch screen corresponds to a delay phase difference. Whenever a driving signal is provided to one or a set of the driving electrodes, a signal on at least one of sensing electrodes of the touch screen is measured after being delayed by the delay phase difference corresponding to the one or the set of the driving electrodes being provided with the driving signal. | 12-05-2013 |
20130314376 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen. The conductive strip pattern allows that, when a touch range of each external conductive object on the mutual capacitive multi-touch screen is larger than a predetermined condition, capacitive coupling between each external conductive object and first conductive strip is greater than capacitive coupling between each external conductive object and second conductive strip, such that the proportion of a driving signal flowing out of the first conductive strip via at least one first external conductive object in the external conductive objects and into the second conductive strip via at least one second external conductive object in the external conductive objects decreases as the number of second external conductive objects increases. | 11-28-2013 |
20130314370 | DETECTING METHOD AND DEVICE FOR SUPPRESSING INTERFERENCE OF LOW-FREQUENCY NOISE - The invention detects the difference between the maximum signal and the minimum signal at each of a plurality of cycles separately when a sine wave is received. All differences are summed for generating a single detected signal for suppressing the interference of low-frequency noise. No synchronization with the sine wave is necessary and the detection can start at any phase of the sine wave. | 11-28-2013 |
20130314144 | DETECTING METHOD AND DEVICE FOR SUPPRESSING INTERFERENCE OF LOW-FREQUENCY NOISE - The invention, upon receiving an input signal, sums the absolute values of the difference of each pair of values adjacent to each other within a series of detected signal values to suppress the interference of low-frequency noise. Furthermore, the invention sums the absolute values of the moving averages of the differences of each pair of values adjacent to each other within a series of detected signal values to suppress both the interference of low-frequency noise and the interference of high-frequency noise. No synchronization with the input signal is necessary. The detection can be started at any phase of the input signal. | 11-28-2013 |
20130307815 | DETECTING METHOD AND DEVICE FOR CAPACITIVE TOUCH SCREEN - A detecting device and method for a capacitive touch screen is proposed. The present invention employs a multiple-electrode driving mode, which sequentially drives sets of driving electrodes among driving electrodes. A reduced image is generated from the signals of a plurality of detecting electrodes. In addition, a single-electrode driving mode is employed to drive the first and the last driving electrodes, respectively, thereby obtaining first- and second-side 1D sensing information for single-electrode driving from the signals of the detecting electrodes, respectively. An expanded image can be generated based on the first-side 1D sensing information for single-electrode driving, the reduced image and the second-side 1D sensing information for single-electrode driving in order to detect approaches or touches made by external conductive objects to the capacitive touch screen. | 11-21-2013 |
20130307814 | METHOD AND DEVICE FOR DETECTING CAPACITIVE TOUCH SCREEN - A detecting device and method for a capacitive touch screen is proposed. A plurality of frequency settings is employed. Each frequency setting corresponds to a type of driving mode of a type of driving potential. These frequency settings are used for setting the detecting device for the capacitive touch screen. When the signal-to-noise (S/N) ratio of the signals in the capacitive touch screen is not appropriate, frequency settings are changed by selecting one that yields a more appropriate S/N ratio among the frequency settings. The driving mode includes a single-electrode driving mode in which only a single driving electrode in the capacitive touch screen is driven at a time, and a multiple-electrode driving mode in which multiple driving electrodes are simultaneously driven at a time, and there can be several types of driving potentials. | 11-21-2013 |
20130257819 | METHOD AND DEVICE FOR POSITION DETECTION - The present invention provides a method and device for position detection. For detection of a touch position, a segment of surface acoustic wave (SAW) is provided multiple times to be propagated on a SAW touch panel, and the multiple SAW segments are received by the SAW touch panel. In addition, during or after reception, partial output electrical signals are provided based on different portions of each received SAW segment to construct a complete output electrical signal. | 10-03-2013 |
20130257818 | METHOD AND DEVICE FOR POSITION DETECTION - The present invention provides a method and device for position detection. For detection of a touch position, a segment of surface acoustic wave (SAW) is provided multiple times to be propagated on a SAW touch panel, and the multiple SAW segments are received by the SAW touch panel. In addition, during or after reception, partial output electrical signals are provided based on different portions of each received SAW segment to construct a complete output electrical signal. | 10-03-2013 |
20130257458 | METHOD AND DEVICE FOR MEASURING SIGNALS - Sinusoidal drive is used, and a coefficient table for a plurality of predetermined phases is established, wherein each predetermined phase is designated with a coefficient. A sinusoidal wave is measured at the plurality of predetermined phases of each half cycle to produce measured signals, and each of the measured signals is multiplied with the coefficient corresponding to the phase at which the signal is measured to produce a weighted measured signal. Then, the weighted measured signals are summed to produce a complete measured signal. | 10-03-2013 |
20130256111 | WIRING PATTERN FOR TOUCH INTEGRATED CIRCUIT - Electrodes on a touch sensor are connected with pins of an integrated circuit by wires. The wires connecting a first side of the integrated circuit go under the integrated circuit to the electrodes, and wires connecting a second side of the integrated circuit have segments extending away from the touch sensor under the integrated circuit. | 10-03-2013 |
20130249639 | FOLDED CASCODE AMPLIFIER WITH AN ENHANCED SLEW RATE - The present invention is directed to a folded cascode amplifier with an enhanced slew rate, which includes a folded cascode amplifying circuit, a first input circuit and a second input circuit. The second input circuit has an electricity type opposite to that of the first input circuit. The first input circuit is connected, via its driving nodes, to the folded cascode amplifying circuit, and the second input circuit is connected, via its driving nodes, to crossover nodes of the first input circuit. | 09-26-2013 |
20130234975 | CAPACITIVE TOUCH SYSTEM AND METHOD WITH AUTO-CALIBRATION - The present invention is directed to a capacitive touch system and method with auto-calibration. A driving signal generator provides driving signals to first electrodes, thereby resulting in induced signals on second electrodes. An induced signal receiver receives and processes the induced signals. The induced signals associated with at least some no-touch points are measured and pre-stored in an initial value generator, which, at the beginning of a measuring period, generates initial induced signals of the second electrodes according to the pre-stored induced signals for initializing the induced signal generator. | 09-12-2013 |
20130234875 | SIGNAL SENSING CIRCUIT - A signal sensing circuit converts a received current input into a voltage output and provides the voltage output to an analog-to-digital converter (ADC) to generate a digital output signal. The voltage output is associated with a circuit having a first reference impedance, and a reference voltage of the ADC is associated with a circuit having a second reference impedance, wherein the circuit having the first reference impedance and the circuit having the second reference impedance are formed by the same material, so that the ratio between the changes in the current input and the changes in the value of the digital output signal is a constant. | 09-12-2013 |
20130234737 | SIGNAL SENSING CIRCUIT - A signal sensing circuit is provided. The signal sensing circuit comprises a first current-to-voltage circuit, a second current-to-voltage and an impedance shifting circuit. The first current-to-voltage circuit converts a first input current into a first voltage that is directly proportional to a first impedance. The second current-to-voltage circuit converts a second input current into a second voltage that is directly proportional to a second impedance. The impedance shifting circuit generates a third voltage according to the first voltage, wherein the first impedance/the second impedance=K(first voltage/third voltage), where K is a real number. | 09-12-2013 |
20130194227 | SYSTEM AND METHOD FOR COMMUNICATION THROUGH TOUCH SCREENS - The invention discloses a system and method for communication through touch screens that uses a first touch screen and a second touch screen for communication to form a communication system. The first and the second touch screens have a detecting mode for detecting an approach or touch of an external conductive object. In addition, the first and the second touch screens have a communication mode in which capacitively coupled communications between the first and the second touch screens are performed in order to exchange or communicate a message. | 08-01-2013 |
20130175153 | THIN CAPACITIVE TOUCH PANEL - The present invention proposes a thin capacitive touch panel that includes a plurality of conductive strips, a surface glass and a hydrophobic material. The conductive strips include a grid consisting of a plurality of crisscrossed first conductive strips arranged in parallel and second conductive strips arranged in parallel. The surface glass is overlaid on the conductive strips with a thickness of less than 0.7 mm. In addition, the hydrophobic material is coated on a surface of the surface glass, forming a hydrophobic surface. When moisture is left on the hydrophobic surface after a finger sweep, the moisture is divided into a plurality of water particles by the hydrophobic surface. | 07-11-2013 |
20130169592 | METHOD AND DEVICE FOR ANALYZING POSITIONS - A method and device for analyzing positions are disclosed. In sensing information, at least one position is determined according to a first characteristic of a touch related sensing information. The sensing information also has a touch related sensing information with a second characteristic, which is opposite to the first characteristic. The touch related sensing information with the second characteristic is neglected or filtered. In addition, another method and device for analyzing positions are disclosed. An AC signal is provided through a pen, and a first characteristic of a touch related sensing information corresponding to a finger is opposite to the second characteristic of the touch related sensing information corresponding to the pen. The first characteristic and the second characteristic can be used to distinguish the touch of the finger from the touch of the pen or for palm rejection. | 07-04-2013 |
20130155016 | CAPACITIVE TOUCH SENSOR AND CAPACITIVE PEN - When a touch sensor is approached or touched by an object having a small area, the corresponding approach or touch signal might be slightly less than the threshold originally used for normal detection. By comparing the sum of the corresponding approach or touch signal and some adjacent signals with the threshold, the approach or touch of a small-area object that otherwise would not be detected by the original method can be determined. | 06-20-2013 |
20130155015 | METHOD AND DEVICE FOR DETECTING TOUCH SCREEN - A detection method and device for a touch screen is provided. When a pen touching or approaching the touch screen is detected, only the location of the pen in a predetermined range is provided, and the locations of all other objects within the predetermined range are not provided, such as the location of a palm. Only if the pen and all the objects in the predetermined range are no longer detected, then the locations of objects other than the pen in the predetermined range are provided again. | 06-20-2013 |
20130155014 | CAPACITIVE CORDLESS WRITING DEVICE - When a touch sensor is approached or touched by a capacitive pen in a small area, the corresponding approach or touch signal might be slightly less than the threshold originally used for normal detection. By comparing the sum of the corresponding approach or touch signal and some adjacent signals with the threshold, the approach or touch of a small-area object that otherwise would not be detected by the original method can be determined. The capacitive pen can be made of bonded conductive fibers. | 06-20-2013 |
20130155013 | CAPACITIVE TOUCH SENSOR AND CAPACITIVE PEN - When a touch sensor is approached or touched by a capacitive pen in a small area, the corresponding approach or touch signal might be slightly less than the threshold originally used for normal detection. By comparing the sum of the corresponding approach or touch signal and some adjacent signals with the threshold, the approach or touch of a small-area object that otherwise would not be detected by the original method can be determined. The capacitive pen can be made of bonded conductive fibers. | 06-20-2013 |
20130155012 | PATTERN OF TOUCH SCREEN - A capacitive touch screen includes a plurality of first conductive strips and a plurality of second conductive strips. Each of the first and the second conductive strips includes a plurality of branches on at least one side thereof. The branches of the first conductive strips and the branches of the second conductive strips are distributed in the spaces of each other. The branches are bent in a clockwise direction and/or an anticlockwise direction. | 06-20-2013 |
20130135134 | Integration and Analog to Digital Conversion Circuit With Common Capacitors and Operating Method Thereof - The present invention provides an integration and analog to digital conversion circuit sharing common capacitors. The circuit comprises a first capacitor array module, a second capacitor module, an integration circuit, an analog to digital conversion (ADC) logic. The first capacitor array module has a plurality of capacitors. The second capacitor array module has a plurality of capacitors. The integration circuit is configured to integrate an analog signal by said first or said second capacitor array module. The ADC logic is configured to convert the output of said first or said second capacitor array module to a digital signal. The ADC logic performs conversion by said first capacitor array module while said integration circuit performs integration by said second capacitor array module, and said ADC logic performs conversion by said second capacitor array module while said integration circuit performs integration by said first capacitor array module. | 05-30-2013 |
20130135133 | Integration and Analog to Digital Conversion Circuit With Common Capacitors and Operating Method Thereof - The present invention provides an integration and analog to digital conversion circuit sharing common capacitors. The circuit comprises a capacitor array module, an integration circuit, and an analog to digital conversion (ADC) logic. The capacitor array module has a plurality of capacitors. The integration circuit is configured to integrate an analog signal by the capacitor array module. The ADC logic is configured to convert the output of the capacitor array module to a digital signal. | 05-30-2013 |
20130135129 | Sensor Circuit for Concurrent Integration of Multiple Differential Signals and Operating Method Thereof - The present invention provides a circuit for concurrent integration of multiple differential signals. The circuit comprises a plurality of Stage 1 integration circuit arranged in array and a plurality of Stage 2 integration circuit arrange in array. Each of said Stage 1 integration circuit is configured to concurrently integrate an input signal to send out a Stage 1 positive signal and a Stage 1 negative signal which is reverse to said Stage 1 positive signal. Each of said Stage 2 integration circuit is configured to integrate a differential signal from a Stage 1 positive signal sent from a corresponding Stage 1 integration circuit and a Stage 1 negative signal sent from another Stage 1 integration circuit next to said corresponding Stage 1 integration circuit to output a Stage 2 signal. | 05-30-2013 |
20130135013 | Multi-stage Sample and Hold Circuit - The present invention discloses a multi-stage sample and hold (S/H) circuit that includes: a first S/H circuit for sampling a sensing signal of a sensor multiple times and accumulating them into a first sampled signal, and outputting the first sampled signal; and a second S/H circuit for receiving the plurality of first sampled signals and accumulating them into a second sampled signal. As a result, when one or more first sampled signals are saturated due to instantaneous noise, the second sampled signal is not saturated, thereby increasing the noise tolerance of the multi-stage S/H circuit. | 05-30-2013 |
20130135012 | Positive/Negative Sampling and Holding Circuit - A positive/negative sampling and holding (S/H) circuit is disclosed herein. The positive/negative S/H circuit includes an operational amplifier, a first capacitor, a second capacitor being parallel with the first capacitor and forming an integration circuit with the operational amplifier, and several discharge switches correspondingly connecting discharge paths of the first and the second capacitors to control the first and the second capacitors to output a first sampling signal and a second sampling signal respectively, and herein, the first and the second sampling signals has the same magnitude but opposite voltage polarities. | 05-30-2013 |
20130106707 | METHOD AND DEVICE FOR GESTURE DETERMINATION | 05-02-2013 |
20130093834 | Device, Method and System for Real-time Screen Interaction in Video Communication - The present invention discloses a communication apparatus for real-time screen interaction in video communications, which includes: a video output conversion device for generating a first video stream based on a sound input and a video input; a communication device for transmitting the first video stream and receiving a second video stream; | 04-18-2013 |
20130076694 | APPARATUS FOR DETECTING POSITION BY INFRARED RAYS AND TOUCH PANEL USING THE SAME - An apparatus for detecting a position by infrared rays is disclosed. The apparatus includes a plurality of IR sources, a plurality of receivers and a processor electrically coupled to the receivers. The IR sources and the receivers are interlacedly configured along a frame. The IR sources emit IR signals in at least two dimensions, and the IR sources in each dimension comprise two sets of IR signals running contrarily in direction. The receivers receive the IR signals from the corresponding IR sources. Even if the IR signals in one direction of one dimension are subject to interference, the IR signals in the other direction of the dimension can still be measured by the corresponding receivers. When at least one object is set in at least one position within the frame, the processor determines the position according to the coordinates of the receivers and strength variations of the received IR signals. | 03-28-2013 |
20130038575 | SYSTEM AND METHOD FOR COMMUNICATION THROUGH TOUCH SCREENS - The invention discloses a system and method for communication through touch screens that uses a first touch screen and a second touch screen for communication to form a communication system. The first and the second touch screens have a detecting mode for detecting an approach or touch of an external conductive object. In addition, the first and the second touch screens have a communication mode in which capacitively coupled communications between the first and the second touch screens are performed in order to exchange or communicate a message. | 02-14-2013 |
20130038574 | DEVICE AND METHOD FOR DETECTING TOUCH SCREEN - The invention discloses a full screen driven detection. A driving signal is simultaneously provided to all first conductive strips arranged in parallel in a first direction in a touch screen, and mutual capacitive signals are detected from all second conductive strips arranged in parallel in a second direction. The mutual capacitive signals can be used for determining whether an external conductive object coupled to the ground is touching or approaching the touch screen or not even if water or other conductive object not coupled to ground is on the touch screen. When the driving signal is simultaneously provided to all conductive strips arranged in the first direction, the driven signal is also simultaneously provided to a plurality of guarding conductive strips. The guarding conductive strips, the first conductive strips and the second conductive strips are exposed and separated from each other. | 02-14-2013 |
20130038573 | DEVICE AND METHOD FOR DETECTING TOUCH SCREEN - The invention discloses a full screen driven detection. A driving signal is simultaneously provided to all first conductive strips arranged in parallel in a first direction in a touch screen, and mutual capacitive signals are detected from all second conductive strips arranged in parallel in a second direction. The mutual capacitive signals can be used for determining whether an external conductive object coupled to the ground is touching or approaching the touch screen or not even if water or other conductive object not coupled to ground is on the touch screen. Thus, the baseline of the mutual capacitive signals can be updated if the touch screen is not touched or approached by any external conductive object coupled to ground over a predetermined period of time. | 02-14-2013 |
20120327028 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen. The conductive strip pattern allows that, when a touch range of each external conductive object on the mutual capacitive multi-touch screen is larger than a predetermined condition, capacitive coupling between each external conductive object and first conductive strip is greater than capacitive coupling between each external conductive object and second conductive strip, such that the proportion of a driving signal flowing out of the first conductive strip via at least one first external conductive object in the external conductive objects and into the second conductive strip via at least one second external conductive object in the external conductive objects decreases as the number of second external conductive objects increases. | 12-27-2012 |
20120327027 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen. The conductive strip pattern allows that, when a touch range of each external conductive object on the mutual capacitive multi-touch screen is larger than a predetermined condition, capacitive coupling between each external conductive object and first conductive strip is greater than capacitive coupling between each external conductive object and second conductive strip, such that the proportion of a driving signal flowing out of the first conductive strip via at least one first external conductive object in the external conductive objects and into the second conductive strip via at least one second external conductive object in the external conductive objects decreases as the number of second external conductive objects increases. | 12-27-2012 |
20120327026 | CAPACITIVE SENSOR AND DETECTION METHOD USING THE SAME - The present invention provides a capacitive sensor and a detection method using the same. The capacitive sensor of the present invention includes a plurality of detecting plates arranged sequentially. Each detecting plate is provided with the same driving signal. According to the difference between signals of each detecting plate and another detecting plate, detecting plates touched or approached by external objects can be identified. | 12-27-2012 |
20120299874 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen. The conductive strip pattern allows that, when a touch range of each external conductive object on the mutual capacitive multi-touch screen is larger than a predetermined condition, capacitive coupling between each external conductive object and first conductive strip is greater than capacitive coupling between each external conductive object and second conductive strip, such that the proportion of a driving signal flowing out of the first conductive strip via at least one first external conductive object in the external conductive objects and into the second conductive strip via at least one second external conductive object in the external conductive objects decreases as the number of second external conductive objects increases. | 11-29-2012 |
20120187954 | Method and Device for Inspecting Strips of Touch Panel - A method for inspecting the strips of a touch panel is disclosed. The method includes providing a first signal to a first driven first strip of a plurality of first strips and generating a plurality of continuous first differences according to signals on a plurality of second strips; providing the first signal to the first driven first strip and a second driven first strip of the plurality of first strips and generating a plurality of continuous second differences according to the signals on the plurality of second strips; and determining if there is a broken second strip between the first and second driven first strips based on the continuous first and second differences. Herein, the plurality of first and second strips intersect each other on the touch panel to form a plurality of intersecting regions. | 07-26-2012 |
20120176338 | CAPACITIVE SENSOR AND DETECTION METHOD USING THE SAME - The present invention provides a capacitive sensor and detection method using the same. The capacitive sensor of the present invention includes at least one detecting plate and at least one reference plate surrounding each detecting plate. All of the reference plates are electrically coupled to the same first wire, and each reference plate is electrically coupled to a second wire. When an electrical signal is provided to the first wire and each second wire, one or more detecting plates touched or approached can be detected simultaneously based on the signal difference between each second wire and the first wire. | 07-12-2012 |
20120169656 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen, which includes a guarding pattern and a conductive strip pattern exposed from each other. The conductive strip pattern includes a plurality of first conductive strips provided with a driving signal and a plurality of second conductive strips for providing mutual capacitive coupling signals, and the guarding pattern is provided with a DC signal. The guarding pattern allows that, when a touch range of each external conductive object is larger than a predetermined condition, capacitive coupling between each external conductive object and the guarding pattern or capacitive coupling between each external conductive object and the first conductive strips and the guarding pattern is greater than capacitive coupling between each external conductive object and the second conductive strips. | 07-05-2012 |
20120169655 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen, which includes a guarding pattern and a conductive strip pattern exposed from each other. The conductive strip pattern includes a plurality of first conductive strips provided with a driving signal and a plurality of second conductive strips for providing mutual capacitive coupling signals, and the guarding pattern is provided with a DC signal. The guarding pattern allows that, when a touch range of each external conductive object is larger than a predetermined condition, capacitive coupling between each external conductive object and the guarding pattern or capacitive coupling between each external conductive object and the first conductive strips and the guarding pattern is greater than capacitive coupling between each external conductive object and the second conductive strips. | 07-05-2012 |
20120169653 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen, which includes a guarding pattern and a conductive strip pattern exposed from each other. The conductive strip pattern includes a plurality of first conductive strips provided with a driving signal and a plurality of second conductive strips for providing mutual capacitive coupling signals, and the guarding pattern is provided with a DC signal. | 07-05-2012 |
20120169652 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen, which includes a guarding pattern and a conductive strip pattern exposed from each other. The conductive strip pattern includes a plurality of first conductive strips provided with a driving signal and a plurality of second conductive strips for providing mutual capacitive coupling signals, and the guarding pattern is provided with a DC signal. | 07-05-2012 |
20120169651 | DEVICE AND METHOD FOR WRITING ON CAPACITIVE TOUCH SENSOR - The present invention provides a method and device for writing on a capacitive touch screen, which includes a guarding pattern and a conductive strip pattern exposed from each other, and a stylus. The conductive strip pattern includes a plurality of first conductive strips provided with a driving signal and a plurality of second conductive strips that provide mutual capacitive coupling signals, and the guarding pattern is provided with a DC signal. The stylus has a conductive pen head and a pen body. When the human body holding the pen body is not electrically coupled to the conductive pen head, the location of the conductive pen head can be determined by sufficient change in capacitive coupling caused by the conductive pen head capacitively coupling to the guarding pattern and the conductive strip pattern. | 07-05-2012 |
20120169650 | CAPACITIVE TOUCH SCREEN - The present invention provides a mutual capacitive multi-touch screen, which includes a guarding pattern and a conductive strip pattern exposed from each other. The conductive strip pattern includes a plurality of first conductive strips provided with a driving signal and a plurality of second conductive strips for providing mutual capacitive coupling signals, and the guarding pattern is provided with a DC signal when driving signal is provided. In addition, when the driving signal is not provided and an approach or a touch of at least one external conductive object is detected, the conductive strip pattern or the guarding pattern is provided with a skin stimulated signal in response to the approach or the touch of the external conductive object. | 07-05-2012 |
20120075250 | METHOD AND DEVICE FOR ANALYZING TWO-DIMENSION SENSING INFORMATION - The method and device for analyzing two-dimension sensing information are disclosed. The two-dimension (2D) sensing information is analyzed for determining touch related sensing information. The touch related sensing information may include touch related sensing information with inner low values within outer high values and with inner higher values within outer low values. | 03-29-2012 |
20120075248 | METHOD AND DEVICE FOR ANALYZING POSITIONS - A method and device for analyzing positions are disclosed. In sensing information, at least one position is determined according to a first characteristic of a touch related sensing information. The sensing information also has a touch related sensing information with a second characteristic, which is opposite to the first characteristic. The touch related sensing information with the second characteristic is neglected or filtered. In addition, another method and device for analyzing positions are disclosed. An AC signal is provided through a pen, and a first characteristic of a touch related sensing information corresponding to a finger is opposite to the second characteristic of the touch related sensing information corresponding to the pen. The first characteristic and the second characteristic can be used to distinguish the touch of the finger from the touch of the pen or for palm rejection. | 03-29-2012 |
20120075247 | METHOD AND DEVICE FOR ANALYZING POSITIONS - A method and device for analyzing positions are disclosed. In sensing information, at least one position is determined according to a first characteristic of a touch related sensing information. The sensing information also has a touch related sensing information with a second characteristic, which is opposite to the first characteristic. The touch related sensing information with the second characteristic is neglected or filtered. In addition, another method and device for analyzing positions are disclosed. An AC signal is provided through a pen, and a first characteristic of a touch related sensing information corresponding to a finger is opposite to the second characteristic of the touch related sensing information corresponding to the pen. The first characteristic and the second characteristic can be used to distinguish the touch of the finger from the touch of the pen or for palm rejection. | 03-29-2012 |
20120075246 | METHOD AND DEVICE FOR ANALYZING POSITIONS - A method and device for analyzing positions are disclosed. In sensing information, at least one position is determined according to a first characteristic of a touch related sensing information. The sensing information also has a touch related sensing information with a second characteristic, which is opposite to the first characteristic. The touch related sensing information with the second characteristic is neglected or filtered. In addition, another method and device for analyzing positions are disclosed. An AC signal is provided through a pen, and a first characteristic of a touch related sensing information corresponding to a finger is opposite to the second characteristic of the touch related sensing information corresponding to the pen. The first characteristic and the second characteristic can be used to distinguish the touch of the finger from the touch of the pen or for palm rejection. | 03-29-2012 |
20120075245 | METHOD AND DEVICE FOR CAPACITIVE POSITION DETECTION - The method and device for capacitive position detection are disclosed. The touch related sensors within a sensing device with a plurality of sensors are detected first. Therefore at least a range of the mutual capacitance detection for detecting sensing information can be determined according to the touch related sensors. The sensing information within the range of the mutual capacitance detection can be used for generating a two-dimension sensing information. | 03-29-2012 |
20120075228 | METHOD AND DEVICE FOR ANALYZING TWO-DIMENSION SENSING INFORMATION - The method and device for analyzing two-dimension sensing information are disclosed. The two-dimension (2D) sensing information is analyzed for determining touch related sensing information. The touch related sensing information may include touch related sensing information with inner low values within outer high values and with inner higher values within outer low values. | 03-29-2012 |
20120075224 | METHOD AND DEVICE FOR DUAL-DIFFERENTIAL SENSING - A method and device for dual-differential sensing is disclosed. The sensing information can be generated from signals provided by a sensing device with a plurality of sensors. Each value of the sensing information corresponds to signals of three sensors, respectively. The sensing device is flexible and configured on a display. The noise effect of the display on the signal of each sensor corresponds to the distance between the display and the sensor. Besides, the noise effect of the display on each value of the sensing information corresponds to the distances between the display and the three sensors, respectively. | 03-29-2012 |
20120068954 | METHOD AND DEVICE FOR CONVERTING SENSING INFORMATION - The method and device for converting sensing information are disclosed. A dual-differential sensing information is obtained and then converted into a sensing information, wherein the touch related sensing information having two peaks in a pair of zero-crossings is converted into quasi signal values. | 03-22-2012 |
20120068953 | METHOD AND DEVICE FOR POSITION DETECTION - The method and device for position detection are disclosed. Corresponding to a first touch related sensing information, a second touch related sensing information is acquired for determining at least one position. Each position is used separately for determining the position of a centroid according to the first touch related sensing information or the second touch related sensing information. | 03-22-2012 |
20120016628 | METHOD AND DEVICE FOR ANALYZING POSITIONS - The method and device for analyzing position are disclosed. By analyzing sensing information with at least one zero-crossing, each position can be analyzed. The number of analyzed positions may be different from the number of zero-crossings. When the number of analyzed positions is different from the number of zero-crossing, the number of analyzed positions is more than one. | 01-19-2012 |
20120013561 | METHOD AND DEVICE FOR DETERMINING A TOUCH OR TOUCHES - A method and device for determining a single touch or multiple touches is disclosed. A touch related sensing information with a single zero-crossing is used for determining a pair of values, and the locations of a pair of centroids are calculated depending on the pair of values. The distance between the locations of the pair of centroids can be used to determine whether the number of touches is one or more. | 01-19-2012 |
20120013393 | METHOD AND DEVICE FOR ANALYZING POSITIONS - The method and device for analyzing position are disclosed. By analyzing sensing information with at least one zero-crossing, each position can be analyzed. The number of analyzed positions may be different from the number of zero-crossings. When the number of analyzed positions is different from the number of zero-crossing, the number of analyzed positions is more than one. | 01-19-2012 |
20120007831 | METHOD AND DEVICE FOR POSITION DETECTION - A method and device for position detection are disclosed. A self-capacitance detection can be performed by a sensing device. According to the result of the self-capacitance detection, a first mutual-capacitance detection can be performed for determining one or more first 1-D positions. According to the result of the first mutual-capacitance detection, a second mutual-capacitance detection can be performed for determining one or more second 1-D positions corresponding to each first 1-D position. One or more 2-D positions can be provided according to the one or more second 1-D positions corresponding to each first 1-D position. Besides, during the self-capacitance detection, the first mutual-capacitance detection, and the second mutual-capacitance detection, a touch related sensing information corresponding to a touch that covers a wide area can be neglected for palm rejection. | 01-12-2012 |
20120007618 | Method and Device for Position Detection with Palm Rejection - A method and the device for palm ignoring disclosed. The device comprises a plurality of strips intersecting each other to form a plurality of intersecting regions. A pair of strips intersecting on an intersecting region contact to each other on a contact point to form a depressed intersecting region. The depression depressed by the palm can be determined by comparing the total impedance of the depression with a threshold so as to be ignored. | 01-12-2012 |
20120007616 | Method and Device for Determining Impedance of Depression - A method and the device for position detection are disclosed. The device comprises a plurality of strips intersecting each other to form a plurality of intersecting regions. A pair of depressed strips intersecting on an intersecting region contact to each other on a contact point to form a depressed intersecting region, wherein the contact impedance of the contact point is determined according to the position of the depressed intersecting region and the voltages on the contact point of one and the other of the pair depressed strips. | 01-12-2012 |
20120007614 | Method and Device for Position Detection with Palm Rejection - The method and the device for position detection with palm rejection are disclosed. The invention provides a sensor and a controller for controlling the sensor. The sensor includes a plurality of strips. The controller execute a first kind of position detection and a second kind of position detection on the sensor. The first kind of position detection identifies an ignored zone, and the second kind of position detection executes the position detection outside the ignored zone. | 01-12-2012 |
20120007612 | Method and Device for Position Detection - A device comprises a plurality of strips intersecting each other to form a plurality of intersecting regions. A pair of strips intersecting on an intersecting region contact to each other on a contact point to form a depressed intersecting region. The erroneously determined intersecting regions can be detected by comparing the contact points with the corresponding intersecting regions so as to provide the only correct contact points. | 01-12-2012 |
20120007611 | Method and Device for Correcting Position Error - A method and the device for position detection are disclosed. The device comprises a plurality of strips intersecting each other to form a plurality of intersecting regions. A pair of depressed strips intersecting on an intersecting region contact to each other on a contact point to form a depressed intersecting region. According to the voltages of each strip before and after the strip is depressed, an error ratio can be determined. Based on the error ration, the position error caused by the contact impedance crossover strips can be corrected. | 01-12-2012 |
20120007610 | Method and Device for Determining Impedance of Depression - A method and the device for position detection are disclosed. The device comprises a plurality of strips intersecting each other to form a plurality of intersecting regions. A pair of depressed strips intersecting on an intersecting region contact to each other on a contact point to form a depressed intersecting region, wherein the contact impedance of the contact point is determined according to the position of the contact point and the voltages on the contact point of one and the other of the pair depressed strips. | 01-12-2012 |
20120007609 | Method and Device for Position Detection - A method and the device for position detection are disclosed. The device comprises a plurality of strips intersecting each other to form a plurality of intersecting regions. A pair of depressed strips intersecting on an intersecting region contact to each other to form a depressed intersecting region. According to the depressed intersecting regions, each depression can be determined. The total contact impedance of a depressing crossover a plurality of intersecting regions is the parallel contact impedance of the contact impedances of all intersecting regions corresponding to the same depression. | 01-12-2012 |
20110304585 | METHOD AND DEVICE FOR SIGNAL DETECTION - A method and device for signal detection is disclosed. At least one detection period is predefined for detecting a signal of a signal source, a differential signal of a pair of signal sources, or a dual-differential signal of three signal sources during at least one clock cycle, wherein the detection evades the period of a predictable noise. | 12-15-2011 |
20110291669 | METHOD AND DEVICE FOR AUTOMATICALLY CALIBRATING TOUCH DETECTION - A method and device for automatically calibrating touch detection is disclosed. The present invention includes providing a sensing layer including a plurality of sensors, and each sensor senses a sensing range, and the sensing ranges of the sensors intersecting each other to form a crossing array; continuously detecting signals of the sensors as a detection signal set; performing update of an initial signal set based on the detection signal set; and when a default signal set does not match the initial signal set and the default signal set matches the detection signal set, performing update of the initial signal set. | 12-01-2011 |
20110205175 | METHOD AND DEVICE FOR DETERMINING ROTATION GESTURE - The method and device for determining a rotation gesture are disclosed. By separating a touch trace into a plurality of segments, the orientation of each segment of the trace can be determined. According to these orientations, it can be determined whether the trace is a rotation gesture, and if so, the direction of the rotation gesture. | 08-25-2011 |
20110096038 | METHOD AND DEVICE FOR CONVERTING SENSING INFORMATION - A surface acoustic wave (SAW) touch panel with improved touching precision is provided. By forming a matte surface that diffuses a back wave generated by the edge of the SAW touch panel due to discontinuity, the touching precision of the SAW touch panel is improved. | 04-28-2011 |
20110087455 | Method and device for analyzing positions - The method and device for analyzing position are disclosed. By analyzing sensing information with at least one zero-crossing, each position can be analyzed. The number of analyzed positions may be different from the number of zero-crossings. When the number of analyzed positions is different from the number of zero-crossing, the number of analyzed positions is more than one. | 04-14-2011 |
20110084941 | SENSING DEVICE OF SURFACE ACOUSTIC WAVE TOUCH PANEL - Described is a sensing device of a surface acoustic wave (SAW) touch panel having a new reflector columns and rows arrangement. As compared to the conventional design in the art where each of the reflector columns and rows are arranged from thinness to thickness, each of the arrangements of the reflector columns and rows herein is composed of a plurality of uniformly disposed reflectors having several sub-reflectors isolated with a gap or gaps. | 04-14-2011 |
20110084937 | Method and device for analyzing positions - A method and device for analyzing positions are disclosed. In sensing information, at least one position is determined according to a first characteristic of a touch related sensing information. The sensing information also has a touch related sensing information with a second characteristic, which is opposite to the first characteristic. The touch related sensing information with the second characteristic is neglected or filtered. In addition, another method and device for analyzing positions are disclosed. An AC signal is provided through a pen, and a first characteristic of a touch related sensing information corresponding to a finger is opposite to the second characteristic of the touch related sensing information corresponding to the pen. The first characteristic and the second characteristic can be used to distinguish the touch of the finger from the touch of the pen or for palm rejection. | 04-14-2011 |
20110084936 | Method and device for capacitive position detection - The method and device for capacitive position detection are disclosed. The touch related sensors within a sensing device with a plurality of sensors are detected first. Therefore at least a range of the mutual capacitance detection for detecting sensing information can be determined according to the touch related sensors. The sensing information within the range of the mutual capacitance detection can be used for generating a two-dimension sensing information. | 04-14-2011 |
20110084931 | Method and device for position detection - The method and device for position detection are disclosed. Corresponding to a first touch related sensing information, a second touch related sensing information is acquired for determining at least one position. Each position is used separately for determining the position of a centroid according to the first touch related sensing information or the second touch related sensing information. | 04-14-2011 |
20110084930 | Method and device for dual-differential sensing - A method and device for dual-differential sensing is disclosed. The sensing information can be generated from signals provided by a sensing device with a plurality of sensors. Each value of the sensing information corresponds to signals of three sensors, respectively. The sensing device is flexible and configured on a display. The noise effect of the display on the signal of each sensor corresponds to the distance between the display and the sensor. Besides, the noise effect of the display on each value of the sensing information corresponds to the distances between the display and the three sensors, respectively. | 04-14-2011 |
20110084929 | Method and device for position detection - A method and device for position detection are disclosed. A self-capacitance detection can be performed by a sensing device. According to the result of the self-capacitance detection, a first mutual-capacitance detection can be performed for determining one or more first 1-D positions. According to the result of the first mutual-capacitance detection, a second mutual-capacitance detection can be performed for determining one or more second 1-D positions corresponding to each first 1-D position. One or more 2-D positions can be provided according to the one or more second 1-D positions corresponding to each first 1-D position. Besides, during the self-capacitance detection, the first mutual-capacitance detection, and the second mutual-capacitance detection, a touch related sensing information corresponding to a touch that covers a wide area can be neglected for palm rejection. | 04-14-2011 |
20110084928 | Method and device for analyzing two-dimension sensing information - The method and device for analyzing two-dimension sensing information are disclosed. The two-dimension (2-D) sensing information is analyzed for determining touch related sensing information. The touch related sensing information may include touch related sensing information with inner lower values within outer high values and with inner higher values within outer low values. | 04-14-2011 |
20110084927 | Method and device for determining a touch or touches - A method and device for determining a single touch or multiple touches is disclosed. A touch related sensing information with a single zero-crossing is used for determining a pair of values, and the locations of a pair of centroids are calculated depending on the pair of values. The distance between the locations of the pair of centroids can be used to determine whether the number of touches is one or more. | 04-14-2011 |
20110084926 | Method and device for converting sensing information - The method and device for converting sensing information are disclosed. Each first touch related sensing information of a first sensing information is detected. At least one of the first touch related sensing information is converted. Each converted first touch related sensing information is replaced by a corresponding second touch related sensing information, whereby the first sensing information is converted into a second sensing information. | 04-14-2011 |
20110084924 | METHOD AND DEVICE FOR SIGNAL DETECTION - A method and device for signal detection is disclosed. At least one detection period is predefined for detecting a signal of a signal source, a differential signal of a pair of signal sources, or a dual-differential signal of three signal sources during at least one clock cycle. | 04-14-2011 |
20110084923 | Device and Method for Parallel-scanning Differential Touch Detection - A method for parallel-scanning differential touch detection is disclosed herein. The method includes generating a plurality of first outputs by a differential unit according to a plurality of first inputs provided by a plurality of sensors of a touch panel in each scan of total i scans, herein, the kth first output in the jth scan of the total i scans is the (i*(k−1)+j)th output in the continuous first outputs, i≧2, j≧1, k≧1, and i, j, k are natural numbers. Wherein, the differential unit has a plurality of subtractors and the inputs of the subtractors are connected in series. By doing so, the noises between a touch panel and a display can be eliminated. | 04-14-2011 |
20110012861 | METHOD AND DEVICE FOR DETECTING TERMINAL CONNECTION OF 4-TERMINAL OR 5-TERMINAL RESISTIVE TOUCH PANEL - A device and method for detecting connections of a 4- or 5-terminal resistive touch panel are disclosed. The device includes five terminals and a detecting unit. When the five terminals are connected to the touch panel, the detecting unit provides a high potential and a low potential to first and last of the five terminals, respectively, thereby determining whether the touch panel is a 4- or 5-terminal resistive touch panel by determining if there is a closed circuit between the two terminals. | 01-20-2011 |
20110012860 | METHOD AND DEVICE FOR DETECTING TERMINAL CONNECTION OF 4-TERMINAL OR 5-TERMINAL RESISTIVE TOUCH PANEL - A device and method for detecting connections of a 4- or 5-terminal resistive touch panel are disclosed. The device includes five terminals and a detecting unit. When the five terminals are connected to the touch panel, the detecting unit provides a high potential and a low potential to first and last of the five terminals, respectively, thereby determining whether the touch panel is a 4- or 5-terminal resistive touch panel by determining if there is a closed circuit between the two terminals. | 01-20-2011 |
20110012855 | METHOD AND DEVICE FOR PALM REJECTION - The present invention carries out palm rejection on a multi-touch panel. The panel is first touched by a palm before the detection of a finger or pen to define a rejection region and the touch location of the finger or pen is detected outside that rejection region. The present invention, when the rejection region and the touch location of the finger or pen have been detected, is able to continuously detecting a region touched by the palm using a detected range defined by the rejection region to determine whether the rejection region needs to be updated. | 01-20-2011 |
20110012847 | METHOD AND DEVICE FOR DETECTING TERMINAL CONNECTION OF 4-TERMINAL OR 5-TERMINAL RESISTIVE TOUCH PANEL - A device and method for detecting connections of a 4- or 5-terminal resistive touch panel are disclosed. The device includes five terminals and a detecting unit. When the five terminals are connected to the touch panel, the detecting unit provides a high potential and a low potential to first and last of the five terminals, respectively, thereby determining whether the touch panel is a 4- or 5-terminal resistive touch panel by determining if there is a closed circuit between the two terminals. | 01-20-2011 |
20110011651 | METHOD AND DEVICE FOR DETECTING TERMINAL CONNECTION OF 4-TERMINAL OR 5-TERMINAL RESISTIVE TOUCH PANEL - A device and method for detecting connections of a 4- or 5-terminal resistive touch panel are disclosed. The device includes five terminals and a detecting unit. When the five terminals are connected to the touch panel, the detecting unit provides a high potential and a low potential to first and last of the five terminals, respectively, thereby determining whether the touch panel is a 4- or 5-terminal resistive touch panel by determining if there is a closed circuit between the two terminals. | 01-20-2011 |
20100264938 | Method and Device for Position Detection - A method and the device for position detection are disclosed. The device comprises a plurality of conductive strips intersecting each other to form a plurality of intersecting regions. A pair of depressed strips intersecting on any intersecting region contact each other to form a depressed intersecting region. When a high voltage and a low voltage are separately provided to the first ends of each pair of overlapping strips, the voltages at the second ends of each pair of overlapping strips are detected so as to determine each depressed intersecting regions. | 10-21-2010 |
20100263943 | Method and Device for Resistive Multi-point Touch - A resistive multi-point touch device and method is disclosed. A plurality of wires intersect each other to form a plurality of intersecting regions. The intersecting wires are separated from each other by a plurality of insulating particles. First, suppressed intersecting regions are sensed, and then contact points on the suppressed intersecting regions are sensed based on the suppressed intersecting regions. Sensing of the suppressed intersecting regions is performed by first sensing suppressed wires, and then determining possibly suppressed intersecting regions based on the suppressed wires, and sensing suppressed intersecting regions based on these possibly suppressed intersecting regions. | 10-21-2010 |
20100259505 | System and Method for Scanning Control of a Capacitive Touch Panel - This invention provides a system for scanning control of a capacitive touch panel. The system includes a driving unit driving a partially neighboring of a plurality of first axial conductive strips of the capacitive touch panel, wherein the plurality of first axial conductive strips are parallel to each other, and a first detecting unit detecting one of the partially neighboring of first axial conductive strips. By doing so, the influence caused by unintended conducting materials can be kept from the touch point detection for the capacitive touch panel, and the electro-magnetic interference of the capacitive touch panel can be also decreased. | 10-14-2010 |
20100007631 | Touch Method and Device for Distinguishing True Touch - This invention discloses a touch device for distinguishing true touch. The touch device includes a touch screen, a driving unit, and a sensing unit. The touch screen has a plurality of first conductive lines and second conductive lines where the first and second conductive lines are electrically isolated from each other and stacked to form a plurality of coupling intersections. The driving unit operatively drives the first conductive lines. The sensing unit determines the first conductive lines touched or approached by a plurality of objects and also determines the coupling intersections touched or approached by the objects when the first conductive lines touched or approached by the objects are driven. By doing so, the true touch and the false touch caused by the objects can be determined and distinguished. | 01-14-2010 |
20100007630 | METHOD AND DEVICE FOR CAPACITIVE SENSING - This invention discloses a capacitive sensing device. The device includes a plurality of first conductive lines electrically isolated from each other; a plurality of second conductive lines electrically isolated from each other and electrically isolated from and stacked with the first conductive lines to form a plurality of intersecting points; and a plurality of electrical conductors electrically isolated from each other and correspondingly crossing the first and the second conductive lines and being around the intersecting points, wherein the first and second conductive lines and the electrical conductors are electrically isolated from each other. By doing so, when an electrical signal is driven to any first conductive lines, the first conductive lines is capacitively coupled to the second conductive lines with which it intersects, and the electrical conductors crossing the first conductive lines are respectively capacitively coupled to the first conductive lines and the second conductive lines which intersect with the first conductive lines to provide a higher compound capacitance. | 01-14-2010 |
20100007629 | METHOD AND DEVICE FOR CAPACITIVE SENSING - This invention discloses a capacitive sensing device. The device includes a plurality of first conductive lines electrically isolated from each other; a plurality of second conductive lines electrically isolated from each other and electrically isolated from and stacked with the first conductive lines to form a plurality of intersecting points; and a plurality of electrical conductors electrically isolated from each other and correspondingly crossing the first and the second conductive lines and being around the intersecting points, wherein the first and second conductive lines and the electrical conductors are electrically isolated from each other. By doing so, when an electrical signal is driven to any first conductive line, the first conductive line is capacitively coupled to the second conductive lines with which it intersects, and the electrical conductors crossing the first conductive line are respectively capacitively coupled to the first conductive line and the second conductive lines which intersect with the first conductive line to provide a higher compound capacitance. | 01-14-2010 |
20090255737 | Device and Method for Preventing the Influence of Conducting Material from Point Detection of Projected Capacitive Touch Panel - This invention provides a device for preventing the influence of conducting material from point detection of projected capacitive touch panel. The device includes a first sensing layer having a plurality of first axial conductive lines isolated from each other and electrically connected to a plurality of first outside-connection conducting wires correspondingly, a second sensing layer having a plurality of second axial conductive lines isolated from each other and electrically connected to a plurality of second outside-connection conducting wires correspondingly, a signal driving line electrically connecting to the first and the second outside-connection conducting wires to provide a first sensing signal, and a sensing unit electrically connecting the first and the second outside-connection conducting wires to sense the sensing signal on the first and the second axial conductive lines. Wherein, the second sensing layer is on a dielectric layer, the first sensing layer, and a substrate in sequence. | 10-15-2009 |
20090211817 | TOUCH PANEL DEVICE OPERABLE BY MULTIPLE USERS AND A METHOD FOR CONTROLLING THE TOUCH PANEL - A touch panel device has a capacitive touch panel, a current sensing unit, a control unit and a switch. The control unit computes a coordinate of a press position based on current changes occurring at all corners of the touch panel, and provides an AC signal being output through multiple output terminals of the switch in turn. When the AC signal is applied to different users and then conducted to the touch panel, the control unit recognizes which user is pressing the touch panel. Therefore, the touch panel device has the capability of being operated my multiple users. | 08-27-2009 |
20090079709 | SENSING DEVICE OF SURFACE ACOUSTIC WAVE TOUCH PANEL - Described is a sensing device of a surface acoustic wave (SAW) touch panel having a new reflector columns and rows arrangement. As compared to the conventional design in the art where each of the reflector columns and rows are arranged from thinness to thickness, each of the arrangements of the reflector columns and rows herein is composed of a plurality of uniformly disposed reflectors having several sub-reflectors isolated with a gap or gaps. In this manner, a vibration wave transmitted through each of the reflector columns or rows can be reflected and then collected at a target transducer in an uniform pattern with respect to each portion of each of the reflecting columns and rows, thereby avoiding the problem encountered in the prior art. | 03-26-2009 |
20090058818 | DEVICE AND METHOD FOR DETERMINING TOUCH POSITION ON SENSING AREA OF CAPACITIVE TOUCH PANEL - Described is a device and a method for determining a touch position on a sensing area of a capacitive touch panel. In the device and method, an alternating current (AC) scan signal having a frequency and a current value is supplied to each of four corners of the capacitive touch panel. Next, the frequencies of the AC scan signals are each rapidly switched among a group of specific frequencies. The current values of the AC scan signals detected. In response, a group of selected frequencies is selected according to a noise filtering procedure from the group of specific frequencies based on the current values. Final current values are obtained by calculating the current values of the AC scan signals of the group of selected frequencies. Finally, the touch position on the capacitive touch panel is determined based on the final current values. | 03-05-2009 |
20090049505 | MULTI-PURPOSE PORTABLE ELECTRONIC DEVICE - Described is a multi-purpose portable electronic device which is capable of providing both TV and storage functions. By using the portable electronic device, a user can watch a TV program received externally, store the TV program in a single portable electronic device and watch the stored TV program on different computers at different locations. In addition, an application software necessary for operating the portable electronic device on the computer may be directly stored in the portable electronic device itself. As such, a promoted convenience and lower cost are achieved by the multi-purpose portable electronic device. | 02-19-2009 |
20090049504 | MULTIVIDEO-PURPOSE PORTABLE ELECTRONIC DEVICE - Described is a multivideo-purpose portable electronic device which is capable of providing TV and PC camera functions, and even a storage function. By using the multivideo-purpose portable electronic device, a user can watch a TV program received externally and get involved in a video conference/chat process concurrently, store the TV program and a content of the video conference/chat process and watch the stored TV program and the content of the video conference/chat process on different computers. In addition, a specific application software necessary for operating the multivideo-purpose portable electronic device on the computer may be directly stored in the multivideo-purpose portable electronic device itself. As such, a promoted convenience and lower cost are achieved. | 02-19-2009 |
20090046209 | MULTI-VIDEO/AUDIO PURPOSE PORTABLE ELECTRONIC DEVICE - Described is a multi-video/audio purpose portable electronic device which is capable of providing both TV and broadcast functions, and even a storage function. By using the multi-video/audio purpose portable electronic device, a user can watch or listen to a TV/broadcast program received externally, store the TV/broadcast program and watch the stored TV/broadcast program on different computers at different locations. In addition, an application software necessary for operating the portable electronic device on the computer may be directly stored in the portable electronic device itself. As such, a promoted convenience and lower cost are achieved for the multi-video/audio purpose portable electronic device. | 02-19-2009 |
20090044988 | DEVICE AND METHOD FOR DETERMINING FUNCTION REPRESENTED BY CONTINUOUS RELATIVE MOTION BETWEEN/AMONG MULTITOUCH INPUTS ON SIGNAL SHIELDING-BASED POSITION ACQUISITION TYPE TOUCH PANEL - Described is a device and method for determining a function represented by a specific continuous relative motion between/among multitouch inputs on signal shield-based position acquisition type touch panel. The method comprises the steps of acquiring a minimum and maximum ordinate and abscissa values between/among the multitouch inputs; forming a rectangle based on the minimum and maximum ordinate and abscissa values; monitoring a sequential variation of an contour of the rectangle; and determining a gesture associated with the specific continuous relative motion of the multitouch inputs based on the sequential variation of the rectangle and relating the gesture to the function. | 02-19-2009 |