| Patent application number | Description | Published |
|---|
| 20100123641 | MULTIBAND ANTENNA - A multiband antenna includes a first antenna unit for receiving/sending wireless signals having higher frequencies and a second antenna unit for receiving/sending wireless signals having lower frequencies than those frequencies received/sent by the first antenna unit. The first antenna unit includes a first main portion, a first resonating portion and a first connecting portion connected in order and positioned in a same plane. The second antenna unit includes a second connecting portion, a second resonating portion and a second main portion connected in order. The second connecting portion is coplanar with the first connecting portion, the second resonating portion is perpendicular to the second connecting portion, and the second main portion is perpendicular to both the first connecting portion and the second connecting portion. | 05-20-2010 |
| 20100277266 | DATA CABLE STRUCTURE OF ELECTRONIC DEVICES - A data cable structure includes an interface unit for connecting to electronic devices, a cable unit connected to the interface unit, and a radiation reducing unit mounted on the cable unit. The radiation reducing unit cooperates with the cable unit to form a choke structure to prevent electromagnetic radiation generated by the electronic devices from being emitted from the cable unit. | 11-04-2010 |
| 20110266049 | DATA CABLE STRUCTURE OF ELECTRONIC DEVICES - A data cable structure includes an interface unit for connecting to electronic devices, a cable unit connected to the interface unit, and a radiation reducing unit mounted on the cable unit. The radiation reducing unit is a winding surrounding a part of the cable unit and cooperating with the cable unit to form a choke structure to prevent electromagnetic radiation generated by the electronic devices from being emitted from the cable unit. | 11-03-2011 |
| 20120092231 | ELECTRONIC DEVICE WITH MULTIPLE ANTENNAS AND ANTENNA OPERATION METHOD THEREOF - An electronic device with multiple antennas includes a first antenna, a first proximity sensor, a second antenna, a second proximity sensor, a detection module, a control module and a processor. The detection module that detects a first approach signal from the first proximity sensor and a second approach signal from the second proximity sensor. The control module that initiates the second antenna to receive signals if the strength of the first approach signal is stronger then the strength of the second approach signal or initiates the first antenna to receive signals if the strength of the second approach signal is stronger then the strength of the first approach signal. The processor that controls the detection module, the comparison module and the control module. | 04-19-2012 |
| Patent application number | Description | Published |
|---|
| 20100231048 | POWER SOURCE SWITCHING CIRCUIT - A power source switching circuit includes a main source input terminal, an auxiliary source input terminal, a control circuit, a first switch, a second switch, and an output terminal. The control circuit is connected to the main source input terminal and the auxiliary source input terminal. The first switch is connected to the main source input terminal and the control circuit. The second switch is connected to the auxiliary source input terminal and the control circuit. The output terminal is connected to the first switch and the second switch. When the main source input terminal is at high level, the auxiliary source input terminal remains high level, the first switch is turned on, and the second switch is turned off by the control circuit. | 09-16-2010 |
| 20100321080 | PULSE WIDTH MODULATION CONTROL SYSTEM - A PWM control system includes a multi-phase PWM controller and at least one single-phase PWM controller. The multi-phase PWM controller is capable of generating a multi-phase PWM signal. The at least one single-phase PWM controller is capable of generating a single-phase PWM signal. A phase difference between the single-phase PWM signal and the multi-phase signal is greater than 0 degree and less than 180 degree. | 12-23-2010 |
| 20110278924 | POWER SUPPLY CIRCUIT FOR MOTHERBOARD - A power supply circuit for providing power and detecting a plurality of loads' input voltages on a motherboard includes a pulse width modulation (PWM) controller, a voltage output circuit and a voltage feedback circuit electrically connected to the PWM controller and the plurality of loads. The PWM controller outputs PWM control signals. The voltage output circuit receives the PWM control signals and outputs working voltage to the plurality of loads according to the received PWM control signals. The voltage feedback circuit detects the plurality of loads' input voltages and outputs feedback signals to the PWM controller according to the detected input voltages. The PWM controller adjusts its PWM control signal outputs, according to the received feedback signals, and adjusting working voltages to the plurality of loads. | 11-17-2011 |
| 20120038335 | PULSE MODULATION CIRCUIT AND METHOD - A pulse modulation method for adjusting pulse signals according to a working voltage of a load, the method includes the following steps. The working voltage of the load is detected by a feedback terminal of a PWM controller. Whether the load is a light load or a heavy load is determined, if the load is a light load, a pulse skipping mode is entered; the voltage output to the load is detected by the feedback terminal. Whether the voltage output to the load is normal is determined, if the voltage output to the load is low, the pulse skipping mode is stayed for a number of clock cycles; the voltage output to the load is detected to determine whether the voltage is normal. If the voltage output to the load is still low, the pulse skipping mode is jumped out and a normal working mode is entered. | 02-16-2012 |
| Patent application number | Description | Published |
|---|
| 20090158024 | DUAL BIOS CIRCUIT - A dual BIOS circuit includes a first BIOS chip, a second BIOS chip, and a transistor. The first and the second BIOS chip include a setup program configured for setting the voltage of a GPIO pin of a Southbridge chip. The first and the second BIOS chip are connected to the Southbridge chip. The gate of the transistor is connected to the GPIO pin of the Southbridge chip. The drain of the transistor is connected to a power supply via a resistor, and connected to a detecting pin of the Southbridge chip. The source of the transistor is grounded. The power supply is connected to a signal pin of the Southbridge chip. The first or second BIOS chip is selected to operate according to the voltage level at the detecting pin of the Southbridge chip. | 06-18-2009 |
| 20090158025 | DUAL BIOS CIRCUIT - A dual BIOS circuit includes a first BIOS chip, a second BIOS chip, a power supply, and a switch. The first BIOS chip is connected to a Southbridge chip of a motherboard via a bus. The second BIOS chip is connected to the Southbridge chip of a motherboard via another bus. The power supply is connected to signal pin of the Southbridge chip. The switch includes a handle. The first terminal of the switch is connected to the a detecting pin of the Southbridge chip. The second terminal of the switch is connected to the power supply. The third terminal of the switch is grounded. The first or second BIOS chip is selected to operate according to the voltage level at the detecting pin of the Southbridge chip. | 06-18-2009 |
| 20090230781 | SWITCHING POWER SUPPLY SAVING SYSTEM - A switching power supply saving system includes a power interface, a power converting circuit, a relay, a relay driving circuit, a trigger, and a timing sequence circuit. The power converting circuit is configured to receive the AC power from the power interface. The power converting circuit is capable of transforming the AC power to direct current (DC) power to supply to a motherboard. When the timing sequence circuit receives a power on signal, the timing sequence circuit is capable of controlling the relay driving circuit via the trigger to cause the relay to connect the power converting circuit to the power interface. When the timing sequence circuit receives a power off signal, the timing sequence circuit is capable of controlling the relay driving circuit via the trigger to cause the relay to cut off connection between the power converting circuit and the power interface. | 09-17-2009 |
| 20100026255 | POWER SWITCH CIRCUIT - A power switch circuit includes a connector connected to a power supply, a detecting circuit, a first switch circuit, and a first conversion circuit. The connector is connected to the detecting circuit and connected to a first power terminal of a motherboard. The connector is connected to a second power terminal of the motherboard via the first conversion circuit and the first switch circuit, the detecting circuit outputs a corresponding control signal according to a type of the power supply to turn the first switch circuit and the first conversion circuit on or off to supply power for the motherboard. | 02-04-2010 |
| 20100284206 | POWER ADAPTER AND POWER SUPPLY METHOD THEREOF - A power adapter for an electronic device selectively works in different modes according to a working state signal of the electronic device. When the electronic device is powered off or on with a battery in a determined charge state, the power adapter controls a relay to turn off the relay to disconnect power to the electronic device. | 11-11-2010 |
| Patent application number | Description | Published |
|---|
| 20090063155 | ROBOT APPARATUS WITH VOCAL INTERACTIVE FUNCTION AND METHOD THEREFOR - The present invention provides a robot apparatus with a vocal interactive function. The robot apparatus receives a vocal input, and recognizes the vocal input. The robot apparatus stores a plurality of output data, an output count of each of the output data, and a weighted value of each of the output data. The robot apparatus outputs output data according to the weighted values of all the output data corresponding to the vocal input, and adds one to the output count of the output data. The robot apparatus calculates the weighted values of all the output data corresponding to the vocal input according to the output count. Consequently, the robot apparatus may output different and variable output data when receiving the same vocal input. The present invention also provides a vocal interactive method adapted for the robot apparatus. | 03-05-2009 |
| 20090083039 | ROBOT APPARATUS WITH VOCAL INTERACTIVE FUNCTION AND METHOD THEREFOR - The present invention provides a robot apparatus with a vocal interactive function. The robot apparatus receives a vocal input, and recognizes the vocal input. The robot apparatus stores a plurality of output data, a last output time of each of the output data, and a weighted value of each of the output data. The robot apparatus outputs output data according to the weighted values of all the output data corresponding to the vocal input, and updates the last output time of the output data. The robot apparatus calculates the weighted values of all the output data corresponding to the vocal input according to the last output time. Consequently, the robot apparatus may output different and variable output data when receiving the same vocal input. The present invention also provides a vocal interactive method adapted for the robot apparatus. | 03-26-2009 |
| 20090132250 | ROBOT APPARATUS WITH VOCAL INTERACTIVE FUNCTION AND METHOD THEREFOR - The present invention provides a robot apparatus with a vocal interactive function. The robot apparatus | 05-21-2009 |
| Patent application number | Description | Published |
|---|
| 20110185199 | EMBEDDED SYSTEM AND POWER SAVING METHOD THEREOF - An embedded system comprises a main chip generating a sleep signal, a network interface controller (MC) generating a wake-up signal, a microprogrammed control unit (MCU), a switch, and a power source. The MCU sends a closing signal upon receiving the wake-up signal and an opening signal upon receiving the sleep signal. The switch comprises a public terminal, a free terminal, and a control terminal. The free terminal connects to the main chip, the control terminal connects to the MCU, the public terminal connects to the free terminal upon receiving the closing signal, and the public terminal disconnects from the free terminal upon receiving the opening signal. The power source connects to the MC and the MCU to provide power, and further connects to the public terminal to provide power if the public terminal and the free terminal are connected, and stop power if disconnected. | 07-28-2011 |
| 20110225410 | ELECTRONIC DEVICE AND BOOTING UP METHOD - An electronic device includes a micro control unit (MCU), a non-volatile random access memory (NVRAM), and a watch dog. The electronic device detects a standby instruction and then enters a standby mode according to the standby instruction. A boot loader stored in the NVRAM boots the electronic device when the MCU detects a starting instruction. The electronic device triggers the watch dog to time a preset period when the boot loader boots the electronic device and boots up with a fast mode. The electronic device determines if the watch dog times out, and boots up with a normal mode when the electronic device does not boot up with the fast mode before the watch dog times out. | 09-15-2011 |
| 20120042117 | BOOT SYSTEM - A boot system of an electronic device includes a central processing unit (CPU), a NAND flash, a synchronous dynamic random access memory (SDRAM), and a pulse count unit. The NAND flash and the SDRAM are electronically connected with the CPU. The pulse count unit is electronically connected with the CPU and the NAND flash. The pulse count unit may initialize and enable the NAND flash. The CPU reads a pre-boot loader stored in the NAND flash and loads the pre-boot loader in the SDRAM. The CPU executes the pre-boot loader stored in the SDRAM to boot the electronic device. | 02-16-2012 |
| Patent application number | Description | Published |
|---|
| 20090278625 | BROADBAND FILTER - A broadband filter filtering noise over a first conductive wire, a second conductive wire, and a third conductive wire includes a differential-mode filtering circuit connected to both the first conductive wire and the second conductive wire and a common-mode filtering circuit connected to both the first conductive wire and the second conductive wire. The differential-mode filtering circuit includes two inductors and two capacitors for filtering differential-mode noise of different frequencies. The common-mode filtering circuit includes two inductors and six capacitors filtering common-mode noise of different frequencies. | 11-12-2009 |
| 20100030903 | MODEM AND CONFIGURATION METHOD THEREOF - A modem includes a dynamic host configuration protocol (DHCP) module, a point-to-point protocol over Ethernet (PPPoE) module, and a network monitor module. The DHCP module automatically establishes a DHCP connection over a communication network, and generates a first notification signal after the DHCP connection is established. The PPPoE module automatically establishes a PPPoE connection over the communication network and automatically configures parameters of an Internet access service over the communication network and generates a second notification signal after the PPPoE connection is established. The network monitor module determines current network properties of the communication network upon receipt of the first notification signal and/or the second notification signal, and selectively configures parameters of the Internet access service and a voice over Internet protocol (VoIP) service. | 02-04-2010 |
| 20100316214 | INTEGRATED ACCESS DEVICE AND OVERCURRENT PROTECTION METHOD - An integrated access device (IAD) protects overcurrent of a DAA chipset. The IAD periodically detects an on-hook/off-hook state of the DAA chipset, and periodically monitors an OPD state of the DAA chipset upon the condition that the on-hook/off-hook state of the DAA chipset is detected in off-hook state at least twice. The IAD further sets the on-hook/off-hook state of the DAA chipset as on-hook to avoid damage to the DAA chipset caused by overcurrent upon the condition that the OPD state of the DAA chipset indicates the DAA chipset is overcurrent. | 12-16-2010 |
| 20110083952 | KEY ASSEMBLY USED IN AN ELECTRONIC DEVICE - A key assembly used in an electronic device includes a printed circuit board (PCB) including two optical couplers, a key body and a supporting assembly. The key body is rotatably supported on the PCB and includes a circular disk and a plurality of teeth. The plurality of teeth extend from periphery edge of the circular disk toward the PCB and are spaced apart from each other. The supporting assembly supports the key body on the PCB. When the key body is rotated, the plurality of teeth interact with the two optical couplers to generate one or more control signals to control corresponding one or more operations of the electronic device. | 04-14-2011 |
| Patent application number | Description | Published |
|---|
| 20110096109 | INKJET PRINTER - An inkjet printer includes an inkjet cartridge, an inkjet head, a controller, a viscosity adjustment device and a viscometer. The inkjet cartridge is filled with ink. The inkjet head is connected to the inkjet cartridge. The catcher plate is opposite to the inkjet head, and connected to the cartridge. The viscometer is configured for determining a viscosity of ink in the inkjet cartridge. The viscosity adjustment device is configured for adjusting viscosity of ink in the inkjet cartridge. The controller is electrically connected to the inkjet head, the viscometer, and the viscosity adjustment device, respectively. | 04-28-2011 |
| 20110123706 | CONTINUOUS COATING SUPPLY SYSTEM AND METHOD - A continuous coating supply system includes a first coating storage unit, a second coating storage unit, a coating intake, a coating outlet, conduits and a plurality of valves. The conduits connect the first storage unit, the second coating storage unit, the coating intake and the coating outlet and are positioned on the conduits. The control unit is respectively connected to the first storage unit and the second storage, to determine a volume of coating in the first storage unit and the second storage unit, thus deciding to opened and close the valves. The pressure unit is respectively connected to the first storage unit and the second storage unit, to apply air pressure to the first coating storage unit and the second coating storage unit. | 05-26-2011 |
| Patent application number | Description | Published |
|---|
| 20100136825 | CONNECTOR APPARATUS - A connector apparatus includes a main body and a cover. The main body includes a fixed member and an receiving member. A plurality of connectors is fixed in the fixed member. The receiving member is configured for receiving another connector. The cover is detachably mounted to the receiving member to cover the another connector in response to the another connector being installed in the receiving member. | 06-03-2010 |
| 20100136847 | CONNECTOR APPARATUS - A connector apparatus includes a main body. The main body includes a first module, and a second module. The first and second modules are detachably assembled together. At least one connector is fixed in each of the first and second modules. | 06-03-2010 |
| 20110194266 | ELECTRONIC DEVICE - An electronic device includes a main frame structure, a plurality of functional modules fixed to the main frame structure, a plurality of cables connecting the functional modules, a cable collector board fixed to the main frame structure, and a motherboard detachably connected to the main frame structure. The cable collector board includes a plurality of first printed circuits electrically collecting the cables, and a first connector electrically collecting the first printed circuits. The motherboard includes a plurality of second printed circuits and a second connector collecting the second printed circuits. The second connector is detachably electrically connected to the first connector. | 08-11-2011 |
| 20110216493 | ALL-IN-ONE COMPUTER - An all-in-one computer includes a monitor, a motherboard, a power supply, and a support mechanism supporting the monitor. The support mechanism includes a base, and a support stand fixed on the base and connected to the monitor. The support stand defines a cavity to receive the motherboard and the power supply. The motherboard and the power supply are electrically connected to the monitor. | 09-08-2011 |
| 20110235267 | HARD DISK RETENTION ASSEMBLY AND ELECTRONIC DEVICE UTILIZING THE SAME - A retention assembly for securing a hard disk to a frame of an electronic device, the retention assembly includes a bracket and a connector. The bracket is fixed to the hard disk. One of the frame and the bracket defining a guide groove, the other one forming a slide rail slidably received in the guide groove. The connector fixed to the frame and adjacent to the guide groove or the slide rail. The hard disk is electrically connected or disconnected to the connector by sliding the bracket along the guide groove or the slide rail. | 09-29-2011 |
| 20110235268 | OPTICAL DISC DRIVE RETENTION ASSEMBLY AND ELECTRONIC DEVICE UTILIZING THE SAME - A retention assembly for securing a optical disc drive (ODD) to a main frame of an electronic device includes a bracket and a connector. The bracket is fixed to the ODD. One of the main frame and the bracket defines a guide groove, and the other includes a slide rail movably received in the guide groove. The connector is fixed to the main frame and adjacent to the guide groove or the slide rail. The ODD is aligned to electrically connect to the connector by the at least one guide groove or the at least one slide rail. | 09-29-2011 |
| 20110237120 | CONNECTOR ASSEMBLY WITH CARD READER - A connector assembly includes a connector, a card reader, and a housing. The housing includes a top cover and a bottom cover. The top cover includes a first receiving portion for the connector and a second receiving portion for the card reader. The top cover includes a baseboard fixed on the first receiving portion and a shutter moveably positioned on the second receiving portion covering the card reader. | 09-29-2011 |
| 20120075824 | WIRELESS COMMUNICATION DEVICE FOR ELECTRONIC APPARATUS - An exemplary electronic apparatus includes a housing, a wireless communication device disposed on the housing, and a motherboard received in the housing. The wireless communication device includes a circuit board and a wireless communication module disposed on the circuit board. The circuit board is connected the motherboard by electrical wires. The wireless communication module is located at an outside of the housing. | 03-29-2012 |
| 20120097671 | DISPLAY DEVICE WITH DETACHABLE DISPLAY MODULE - An exemplary display device includes a rear housing, a front frame, a display module, a connecting assembly pivotally connecting the front frame to the rear housing, a latching member, and a clamping member. The clamping member can be triggered to latch or release with the latching member for securing or releasing the front frame relative to the rear housing. The display module can be detached from or secured into the front frame when the display device is at an open position. | 04-26-2012 |
| Patent application number | Description | Published |
|---|
| 20100036630 | SYSTEM AND METHOD FOR SIGNAL MEASUREMENT - A signal measurement method includes receiving a signal from a signal generating module; displaying a wave of the signal; reading a reference parameter of the signal, and adjusting the wave according to the reference parameter; measuring the signal according to the wave after adjustment; and displaying the measurement result. | 02-11-2010 |
| 20100070223 | TESTING SYSTEM AND METHOD FOR BUS PARAMETERS - A testing system for bus parameters includes a wave displaying unit and a control module connected to the wave displaying unit. The control module includes a decode unit, a testing unit connected to the decode unit, and an output unit connected to the testing unit. The decode unit is connected to the wave displaying unit. The wave displaying unit is configured for receiving an electronic signal from a bus to be tested. The decode unit is configured for decoding the electronic signal to determine if the electronic signal is valid. The testing unit tests parameters of the bus. The output unit displays testing results for the parameters. | 03-18-2010 |
| 20110057643 | OSCILLOGRAPH AND SIGNAL INTEGRITY TEST METHOD USING THE OSCILLOGRAPH - A oscillograph and a signal integrity test method are provided. The oscillograph measures a serial data bus to obtain captured signals transmitted by each communication channel of the oscillograph. By identifying a time sequence for the captured signals transmitted by each communication channel, a test signal is determined. The oscillograph measures a clock frequency of the test signal, sampling a part of the test signal, and testing the part according to pre-set test items. If a predetermined number of samples of the test signal is tested, the oscillograph constitutes a completed signal integrity test of the serial data bus and a test report is generated. | 03-10-2011 |
| 20110130999 | TEST SYSTEM FOR CONNECTORS - A test system includes a main selector, a first and a second switching connectors, a first and a second sub-selectors, and a processor. The main selector includes a number of first switches, a number of first contacts, and a number of second contacts. Each sub-selector includes a second switch, a third contact, and a fourth contact. The processor sends a first instruction and a second instruction to correspondingly control the main selector and a selected sub-selector. | 06-02-2011 |
| 20110141290 | SYSTEM AND METHOD FOR TESTING VIDEO GRAPHICS ARRAY SIGNAL GROUPS - A system and method for testing video graphics array (VGA) signal groups includes configuring a route parameter of each of the VGA signal groups, establishing a connection between an input channel and an output channel of a signal channel selector corresponding to each of the VGA signal groups, and transferring each of the VGA signal groups to the digital oscilloscope through the connection. The system and method further includes enabling the digital oscilloscope to analyze each of the VGA signal groups and acquire analysis results of each of the VGA signal groups. | 06-16-2011 |
| 20110227583 | TEST SYSTEM - A test system includes a serial advanced technology attachment (SATA) test apparatus, a number of test cables, and an oscillograph. Each test cable includes a soft sub-miniature-a wire and a sub-miniature-a connector. A first terminal of each sub-miniature-a wire is electrically fixed to an output of the SATA test apparatus. A second terminal of each sub-miniature-a wire is connected to the corresponding sub-miniature-a connector. Each sub-miniature-a connector is used to connect to an input of the oscillograph. | 09-22-2011 |
