Patent application number | Description | Published |
20120169496 | PORTABLE ELECTRONIC DEVICE WITH ANTI-THEFT FUNCTION AND ANTI-THEFT METHOD - A portable electronic device includes a plurality of touch sensing units for covering a surface of the portable electronic device. Each touch sensing unit is capable of generating touch sensing signals when the touch sensing units are touched. The portable electronic device stores at least one predetermined figure. The portable electronic device determines positions of the touched touch sensing units on the surface of the portable electronic device when the touch sensing unit is touched, and generates a touch figure according to the determined position of each touched touch sensing unit on the surface of the portable electronic device. The portable electronic device computes a similarity degree between the generated touch figure and the predetermined figure, and generates an alarm instruction to control an alarm unit to output an alarm signal if the computed similarity degree is greater than the predetermined value. | 07-05-2012 |
20130003985 | AUDIO OUTPUT CONTROLLER AND CONTROL METHOD - An output controller and an method for outputting a signal flow to one or more earphone jacks according to a connection status of each earphone jack. The output controller includes an interface unit having more than one earphone jacks and an output control unit. The output control unit includes a signal input terminal for receiving a signal flow, a detector, and a determining module. The detector detects whether each earphone jack is connected with an earphone and outputs one or more detected signals representing the connection status of the earphone jacks. The determining module outputs the signal flow directly to the connected earphone jack if only one earphone jack is connected to the earphone or distributes the signal flow being amplified correspondingly into each connected earphone jack if more than one earphone jack is connected to the earphones. | 01-03-2013 |
20130018601 | SENSING CIRCUITAANM ZHANG; JUN-WEIAACI Shenzhen CityAACO CNAAGP ZHANG; JUN-WEI Shenzhen City CNAANM CHUANG; TSUNG-JENAACI Tu-ChengAACO TWAAGP CHUANG; TSUNG-JEN Tu-Cheng TWAANM WONG; SHIH-FANGAACI Tu-ChengAACO TWAAGP WONG; SHIH-FANG Tu-Cheng TWAANM ZHANG; JUNAACI Shenzhen CityAACO CNAAGP ZHANG; JUN Shenzhen City CNAANM YU; QI-LONGAACI Shenzhen CityAACO CNAAGP YU; QI-LONG Shenzhen City CNAANM XIN; YANGAACI Shenzhen CityAACO CNAAGP XIN; YANG Shenzhen City CN - A sensing circuit includes a plurality of sensors, a controller, a multiway switch, a linear optocoupler, and a logical control unit. The plurality of sensors are capable of measuring physical quantity, and each of the plurality of sensors is capable of generating a sensing signal in accordance with the physical quantity. The controller is capable of receiving and analyzing the sensing signals, and transforming the sensing signals into sensing events. The multiway switch is capable of selectively connecting one of the plurality of sensors to the controller. The linear optocoupler is connected between the plurality of sensors and the controller. The logical control unit is capable of controlling the multiway switch to selectively connect one of the plurality of sensors to the optocoupler, and generating a control signal to the controller, wherein the control signal indicating the one of the plurality of sensors connected to the controller. | 01-17-2013 |
20130021701 | OVERVOLTAGE AND OVERCURRENT PROTECTION CIRCUIT - An overvoltage and overcurrent protection circuit includes a connection jack, an overvoltage protection switch connected to the connection jack, an overcurrent protection switch, a voltage reference module, an overvoltage and overcurrent detection module, a comparing module, and a current control module. The overcurrent protection switch is connected to the overvoltage protection switch in serials, and further connected to a load. The voltage reference module is to output a reference voltage. The overvoltage and overcurrent detection module is to detect the voltage of the load and the current of the path. The comparing module is to compare the voltage of the load with the reference voltage, when greater, turns off the overvoltage protection switch, when not greater, turns on the overvoltage protection switch. The current control module is to turn off the overcurrent protection switch if greater than the preset value, and turn on the overcurrent protection switch if not greater. | 01-24-2013 |
20130034173 | DIGITAL COMMUNICATION SYSTEM - A digital communication system comprising a host and a client, the host calls the client via two transmission lines. The host includes a processor, a first control unit, a second control unit, a high frequency transformer and an interface unit. The digital communication system utilizes the first control unit and the high frequency transformer to modulate outgoing signals. The digital communication system utilizes the second unit and the high frequency transformer to demodulate incoming signals. | 02-07-2013 |
20130147910 | MOBILE DEVICE AND IMAGE CAPTURING METHOD - A mobile device includes at least two cameras, a comparison circuit, and an image processor. The at least two cameras simultaneously capture at least two images, and the at least two images have at least one overlapping portion. The comparison circuit compares data of the at least two images and generates a comparison result according to the comparison. The image processor processes at least one of the at least two images, identifies the at least one overlapping portion, and merges the at least two images to form an integrated image, according to the comparison result. | 06-13-2013 |
20130155886 | APPARATUS AND METHOD FOR DETECTING TIME DIVISION DUPLEX NOISE OF COMMUNICATION DEVICE - A method for detecting time division duplex (TDD) noise of a communication device, the communication device includes a radio frequency (RF) unit, a voice generation unit, a voice signal acquisition unit, an audio processing unit, and a processor. The RF unit emits a plurality of radio signals. The voice generation unit generates voice signals and outputs the voice signals. The voice signal acquisition unit acquires the voice signals. The audio processing unit converts the acquired voice signals into digital audio signals, and analyzes the digital audio signals to detect whether the digital audio signals contain time division duplex (TDD) noise. The processor generates a result indicating the digital audio signals contain or do not contain the TDD noise according to the analysis of the digital audio signals, and displays the result on a display of the communication device. | 06-20-2013 |
20130210492 | COMMUNICATION DEVICE AND METHOD FOR AUTOMATICALLY RECORDING NUMERIC INFORMATION IN SPEECH - A communication device includes a communication unit, a speech recognition module, and a processor. The communication unit builds a communication between the communication unit and an external communication device. The processor records speech between the communication device and the external communication device. The speech recognition module compares each word of the recorded speech with voice samples to determine whether numbers have been spoken. The processor further determines if successive numbers are recorded in a predetermined period, and stores the successive numeric in a storage unit. | 08-15-2013 |
20130252666 | COMMUNICATION TERMINAL DEVICE AND CONTROL METHOD - A communication terminal device includes a magnetic sensor, a processor, and a power control module. The magnetic sensor detects a current magnetic field generated by induction of internal current in internal circuits of the communication terminal device, and provides a value of strength of the current magnetic field to the processor. The processor compares the value of the strength of the current magnetic field with preset values, and obtains a comparison result. In a situation that the processor determines that the current magnetic field is anomalous according to the comparison result, the processor controls the power control module to withhold power to the communication terminal device. | 09-26-2013 |
20130273894 | IN COMING CALL WARNING DEVICE AND METHOD USING SAME - An incoming call warning device includes a storage unit, a communication unit, a detector, and an incoming call warning module. The storage unit stores a plurality of reference parameters. The communication unit determines whether a call is made to the incoming call warning device. The detector detects a plurality of detected parameters when a call is made to the incoming call warning device. The incoming call warning module receives and compares the reference parameters and the detected parameters, determines whether a user of the incoming call warning device is driving according to a comparison result, and warns the user not to answer an incoming call while driving. | 10-17-2013 |