Entries |
Document | Title | Date |
20080211564 | Signal Input Circuit - A circuit for breaking a signal path has not only a switching means but also a low-pass or bandpass filter whose frequency characteristic is switchable or bypassable. The insulation between the input and the output when the switching means is open, which decreases with frequency in the case of ordinary switching means, is compensated for by the filter which is then connected. In one embodiment of the circuit, an out-of-band signal is applied to the circuit in addition to the useful signal. The out-of-band signal is intended to be supplied permanently to an evaluation circuit, regardless of the switching position of the switching means. To this end, the out-of-band signal is tapped off downstream of the filter, and the filter is designed such that the out-of-band signal can pass through the filter In the case of a circuit for selecting one of two inputs, at least one of the inputs is provided with switchable or bypassable filter, and the switching means is a selection means. Even when the input is not selected, an out-of-band signal is forwarded to an evaluation circuit. To this end, the out-of-band signal, as described above, is tapped off downstream of the filter and upstream of the selection means. | 09-04-2008 |
20080218242 | OUTPUT SIGNAL SWITCHING DEVICE - An output signal switching device includes a switching unit connected to a base board and a detection resistor. The voltage of the detection resistor is set to be constant by a resistor. The expansion board includes the detection resistor. When being connected to the expansion board, the switching unit interrupts a signal inputted to the switching unit from the base board. | 09-11-2008 |
20080218243 | SEMICONDUCTOR SWITCHING CIRCUIT AND SEMICONDUCTOR INTEGRATED-DEVICE - There is provided a switching circuit including, a semiconductor switching circuit comprising, a transistor, a first electrode of the transistor being connected to an electrical source via a load, a second electrode of the transistor being connected to a standard potential, a driving circuit outputting a signal to a control electrode of the transistor on a basis of a potential in the first electrode of the transistor so as to turn on and off the transistor, the driving circuit turning on when an input voltage applied from an input terminal being a first voltage higher than a threshold voltage of the transistor, the driving circuit turning off when the input voltage being a second voltage lower than the threshold voltage of the transistor. | 09-11-2008 |
20090051404 | INTERFACE CIRCUIT AND INTEGRATED CIRCUIT APPARATUS INCLUDING THE CIRCUIT - An interface circuit provided with a first input/output unit and a second input/output unit which respectively access external apparatuses to which electric power is supplied from power sources via different electric power supply lines includes an acquisition unit configured to acquire information whether electric power is supplied to the respective external apparatuses based on a command from the outside; a selection circuit configured to select an input/output unit corresponding to an external apparatus to which electric power is supplied, from the first input/output unit and the second input/output unit based on the information acquired by the acquisition unit; and a control circuit configured to output an instruction corresponding to the command, to the external apparatus to which electric power is supplied, via the input/output unit selected by the selection circuit. | 02-26-2009 |
20090091369 | System And Method For Equalizing Transition Density In An Integrated Circuit - A system for equalizing transition density in an integrated circuit includes a first circuit configured to transition according to a data stream; and a second circuit configured to transition at a time when the first circuit is not transitioning. | 04-09-2009 |
20090091370 | LARGE SCALE INTEGRATED CIRCUIT FOR DYNAMICALLY CHANGING RESONANT POINT - The semiconductor intergrated circuit comprises: a circuit that executes a predetermined process and a switching circuit that selects a power impedance, The switching circuit selects the power impedance, in accordance with a variation in voltage supplied to the circuit, so that a resonant frequency of the semiconductor integrated circuit is different from a operation frequency of the circuit. | 04-09-2009 |
20090115488 | Variability-Aware Asynchronous Scheme Based on Two-Phase Protocols Using a Gated Latch Enable Scheme - A system for automatically transforming a given synchronous circuit description into an equivalent and provably correct desynchronized circuit description. Included in the automated transformation are techniques for synthesizing a variability-aware controller using a two-phase protocol, techniques for synthesizing a variability-aware controller using gated clocks and testability circuits, techniques for synthesizing a variability-aware controller optimized for performance, techniques for initializing the synthesized controller, techniques for dynamically minimizing power requirements, and techniques for interfacing the desynchronized circuit with external synchronous circuits. Also disclosed are techniques for implementing a system for automatically transforming a synchronous circuit description into an equivalent and provably correct desynchronized circuit description within the context of an electronic design automation design flow. Exemplary circuits used in the application of the aforementioned techniques are provided. Application of mathematical models and techniques used for proving equivalence between the input description and the resulting desynchronized circuit are presented and explained. | 05-07-2009 |
20090153222 | Non-reflective MPNT switch - A non-reflective ring topology MPNT switching device comprises at least two poles, at least four throws, plural main switches, and plural bridge switches. The bridge switches enable all throws to be non-reflective throughout a wide frequency range. Each main switch is connected between one of the poles and one of the throws. Each bridge switch is connected between two of the throws, and each throw is connected to at least M+1 of the bridge switches, M being the pole count. In operation, each of M of the main switches has a first (ON) state and is connected to one of M active throws. For each active throw, each bridge switch connected to the active throw has a second (OFF) state. For each non-active throw, one bridge switch connected to the non-active throw has the first (ON) state and each other connected bridge switch has the second (OFF) state. | 06-18-2009 |
20090231018 | Circuit Arrangement and a Method for Galvanically Separate Triggering of a Semiconductor Switch - A circuit arrangement ( | 09-17-2009 |
20100033229 | Clock gating circuit - Provided is a clock gating circuit which receives a first clock signal and controls an output of a second clock signal corresponding to the first clock signal in response to a control signal. The clock gating circuit includes: a first latch that latches a signal value of the control signal in synchronization with the first clock signal; an AND that receives the first clock signal and controls an output of the second clock signal in response to an output signal of the first latch; and a second latch that latches a signal value of the output signal of the first latch in synchronization with the first clock signal, and outputs a latched value. This enables execution of a scan test with a simple circuit configuration. | 02-11-2010 |
20100039159 | CONTROL DEVICE AND CONTROL METHOD - This control device includes: a rectifier to rectify a received signal; an amplifier having an amplifying element to amplify the signal rectified by the rectifier and an assisting element being connected to the amplifying element to assist the amplifying element; a determination unit to determine presence or absence of the signal amplified by the amplifier; and a controller to control the connection of the assisting element with the amplifying element at a predetermined timing. | 02-18-2010 |
20100045360 | DETECTOR - A device for measuring the position of a first body relative to a second body comprising: a first body which further comprises an electrical intermediate device; a second body which further comprises at least two inductors energised with an alternating current and at least one of which is formed by a planar spiral winding on a printed circuit board normal to the measurement axis and attached to the second body; arranged such that displacement of the electrical intermediate device causes a change in inductance of the planar spiral winding and whereby measurement of the ratio of the inductances indicates the position of the first body relative to the second. | 02-25-2010 |
20100090746 | SWITCH CIRCUIT - A switch circuit includes: a first charge/discharge circuit having a fixed first time constant; a second charge/discharge circuit having a second time constant associated with the operation statuses of a plurality of switches; first and second input/output ports to which the first and second charge/discharge circuits are connected, respectively; and a control section adapted to measure the first and second time constants by charging or discharging the first and second charge/discharge circuits and determine the operation statuses of a plurality of switches based on the ratio of the measured first and second time constants. | 04-15-2010 |
20100188133 | POWER CONTROL CIRCUIT - Apparatus for controlling an integrated circuit comprises a power control device for controlling the power to at least part of the integrated circuit, the power control device is connected to a first input, for receiving a power-down signal, and a second input, for receiving a power-up signal, the power control device is adapted to power-up the at least part of the integrated circuit if a power-up signal is received at the second input when the at least part of the integrated circuit is in a powered-down state, and the power control device is further adapted to maintain the at least part of the integrated circuit in the powered-up state regardless of any signal received at the second input when the at least part of the integrated circuit is in a powered-up state, the apparatus is arranged so that the second input is also connected to a component of the integrated circuit and the apparatus comprising means for sending a signal to the component of the integrated circuit via the second input when the at least part of the integrated circuit is in the powered-up state. | 07-29-2010 |
20100295600 | Method and Apparatus for Providing Through Silicon VIA (TSV) Redundancy - An apparatus includes a first die having a first bus, a second die having a second bus stacked on the first die, a plurality of through silicon vias connecting the first bus to the second bus, and first control logic for sending data to identified ones of the plurality of through silicon vias. Also, optionally, second control logic for determining a first set of the plurality of through silicon vias that are nonfunctional, wherein the second control logic is configured to send information to the first control logic identifying the first set of the plurality of through silicon vias or identifying a second set of through silicon vias that are functional. Also a method of sending signals through a plurality of through silicon vias. | 11-25-2010 |
20100315151 | POWER CONTROL CIRCUIT - Apparatus for controlling an integrated circuit comprises a power control device for controlling the power to at least part of the integrated circuit, the power control device is connected to a first input, for receiving a power-down signal, and a second input, for receiving a power-up signal, the power control device is adapted to power-up the at least part of the integrated circuit if a power-up signal is received at the second input when the at least part of the integrated circuit is in a powered-down state, and the power control device is further adapted to maintain the at least part of the integrated circuit in the powered-up state regardless of any signal received at the second input when the at least part of the integrated circuit is in a powered-up state, the apparatus is arranged so that the second input is also connected to a component of the integrated circuit and the apparatus comprising means for sending a signal to the component of the integrated circuit via the second input when the at least part of the integrated circuit is in the powered-up state. | 12-16-2010 |
20110012666 | NON-PREDICATED TO PREDICATED CONVERSION OF ASYNCHRONOUS REPRESENTATIONS - Methods, circuits and systems for converting of a non-predicated asynchronous netlist to a predicated asynchronous netlist are described. These may operate to identify one or more portions of an asynchronous netlist corresponding to a partially utilized portion of an asynchronous circuit. The asynchronous netlist may be modified to control the partially utilized portion. Additional methods, circuits, and systems are disclosed. | 01-20-2011 |
20110050320 | USING INTERRUPTED THROUGH-SILICON-VIAS IN INTEGRATED CIRCUITS ADAPTED FOR STACKING - In an integrated circuit (IC) adapted for use in a stack of interconnected ICs, interrupted through-silicon-vias (TSVs) are provided in addition to uninterrupted TSVs. The interrupted TSVs provide signal paths other than common parallel paths between the ICs of the stack. This permits IC identification schemes and other functionalities to be implemented using TSVs, without requiring angular rotation of alternate ICs of the stack. | 03-03-2011 |
20110057710 | Semiconductor integrated circuit - A semiconductor integrated circuit | 03-10-2011 |
20110057711 | ELECTRONIC DEVICE AND SYSTEM AND METHOD THEREOF FOR IDENTIFYING ELECTRONIC ACCESSORY AND CONTROLLING ELECTRONIC DEVICE - An electronic device connectable with an electronic accessory according to the present disclosure is provided. The electronic device includes a jack, a data signal transceiving unit, a measuring unit, a switching unit and a processing unit. The jack is adapted to receive an insertion of a plug of the electronic accessory and has a first contact terminal adapted to be in contact with a first contact of the plug. The data signal transceiving unit is adapted to transmit to or receive from the electronic accessory a data signal through the first contact terminal of the jack. The measuring unit is adapted to measure a parameter resulted from the contact of the first contact terminal of the jack with the first contact of the plug through the first contact terminal when the plug is inserted into the jack. The switching unit is adapted to selectively connect the first contact terminal of the jack electrically to the data signal transceiving unit or the measuring unit. The processing unit executes a corresponding function according to the measured parameter when the measured parameter has a first predetermined value. | 03-10-2011 |
20110074488 | PSEUDO-DIFFERENTIAL RECEIVING CIRCUIT - The invention relates to a receiving circuit for transmission through interconnections used for sending a plurality of electrical signals. | 03-31-2011 |
20110084753 | ELECTRICAL, CONTROL METHOD, SYSTEM AND APPARATUS - A system for addressing electrical signals is disclosed, comprising an electromagnetically conductive control element, at least one control signal, at least one electromagnetic pulse modulator associated with the control element, and a threshold element positioned proximate to the control element, having an electromagnetic resistance that is conditional and changes as a result of fluctuations in the electromagnetic field of the control element. | 04-14-2011 |
20110102052 | Hybrid Switch Circuit - A hybrid switch circuit includes a hybrid switch that couples an input conductor connected to an AC power supply to an output conductor connected to a load. The hybrid switch includes a power semiconductor in parallel with an electromagnetic relay. A control circuit turns on the hybrid switch by turning on the power semiconductor at a zero-voltage crossing of the AC voltage to provide a conductive path and then closing the relay to provide a conductive bypass path that bypasses the power semiconductor. The control circuit turns off the hybrid switch by opening the relay and subsequently turning off the power semiconductor at a zero crossing of the load current. The control circuit operates in response to at least one switch control signal that indicates whether an operating fault condition exists. | 05-05-2011 |
20110102053 | METHOD AND SOC FOR IMPLEMENTING TIME DIVISION MULTIPLEX OF PIN - A method for using pins in different mode during different time is provided. The method is able to make at least one pin of a SOC be used in a first interface mode or a second interface mode during different time; wherein the SOC comprises a first interface circuit, a first pin, a second interface circuit, and a second pin; the first interface circuit comprises a first bidirectional PAD unit, a first signal interface unit of the first interface mode and a interface unit of the second interface mode; the second interface circuit comprises a second bidirectional PAD unit, a second signal interface unit of the first interface mode. The method comprises: selecting the output of the first signal interface unit or the output of the interface unit of the second interface mode to be connected with the first pin through the first bidirectional PAD unit during different time. | 05-05-2011 |
20110128064 | MONITORING OF POWER SWITCHING MODULES - A method of monitoring an electrical power switching module of an underwater installation, the power switching module being operable to switch AC power in use, comprises the steps of: | 06-02-2011 |
20110140762 | Resistive Switching in Nitrogen-doped MgO - Nitrogen-doped MgO insulating layers exhibit voltage controlled resistance states, e.g., a high resistance and a low resistance state. Patterned nano-devices on the 100 nm scale show highly reproducible switching characteristics. The voltage levels at which such devices are switched between the two resistance levels can be systematically lowered by increasing the nitrogen concentration. Similarly, the resistance of the high resistance state can be varied by varying the nitrogen concentration, and decreases by orders of magnitude by varying the nitrogen concentrations by a few percent. On the other hand, the resistance of the low resistance state is nearly insensitive to the nitrogen doping level. The resistance of single Mg | 06-16-2011 |
20110234294 | POWER SWITCH CIRCUIT - A power switch circuit includes first and second power switches, first to fourth inverters, first and second diodes. An input of the first inverter is connected to a first positive terminal of the first power switch. An input of the second inverter is connected to an output of the first inverter. A cathode of the first diode is connected to an output of the second inverter. An anode of the first diode is connected to a power-on terminal of a motherboard. An input of the third inverter is connected to a second positive terminal of the second power switch. An input of the fourth inverter is connected to an output of the third inverter. A cathode of the second diode is connected to an output of the fourth inverter. An anode of the second diode is connected to the power-on terminal. | 09-29-2011 |
20110248767 | MICROWAVE GENERATOR AND PROCESSES THEREOF - A microwave generator and/or methods thereof. A microwave generator may include a plurality of connected sequential sections in cascade. A microwave generator may include a first section and an output section. Each section may include an intermediate conductor, an upper conductor and a lower conductor. A first isolating material having a first thickness may be connected between an intermediate conductor and an upper conductor. A second isolating material having a second thickness may be connected between an intermediate conductor and a lower conductor. A switch may be connected between an intermediate conductor and an upper conductor and/or a lower conductor, forming a switched thickness and an unswitched thickness. The unswitched thickness of an output section is larger than the unswitched thickness of the first section and the increase in unswitched thickness from the first section to the output section includes a monotonic increase. | 10-13-2011 |
20110254611 | Connecting Apparatus for Field Device and Method for Operation - A connecting apparatus for field devices in an explosion-hazard zone, comprising an input terminal area for a first connecting line, an output terminal area for a second connecting line, a covering device for protecting at least one of the terminal areas, a first switching element for passing an electric current from the input terminal area to the output terminal area, a control unit for controlling the first switching element, a first sensor device that detects opening of the covering device, where the first sensor device is connected to the control unit and the control unit is configured to operate the first switching element. | 10-20-2011 |
20110279166 | ELEMENT SUBSTRATE AND PRINTED WIRING BOARD - An element substrate includes a plurality of terminals, a first receiving circuit and a second receiving circuit each receiving a differential signal via one of the terminals included in the plurality of terminals, a driving circuit including a first input unit for inputting a first signal and a second input unit for inputting a second signal and driving a driving element based on the first signal and the second signal, and a setting circuit for setting a first connection state of connecting an output from the first receiving circuit to the first input unit and connecting an output from the second receiving circuit to the second input unit, and a second connection state of connecting an output from the first receiving circuit to the second input unit and connecting an output from the second receiving circuit to the first input unit based on an externally input signal. | 11-17-2011 |
20110291735 | SWITCH CIRCUIT - A switch circuit, particularly suitable for dimmer switches, detects zero-crossing or similar points in the supply and uses those to make predictions of future zero-crossing occurrences. The predicted occurrences may be used to time the operation of the switch itself to chop the supply which results in less variation in the power supplied (flicker if the switch circuit is operating a lamp) since the positions of the measured zero-crossings can be subject to noise but flicker is reduced if the switch is operated at times with respect to the true supply waveform. The predicted times may be obtained from a local oscillator having a period set by, for example, low pass filtering the period of the measured zero-crossings. The phase of the oscillator may be adjusted such that an error between the predicted and measured zero-crossings is reduced. | 12-01-2011 |
20110291736 | Switching methods and apparatus - Embodiments of the invention controlling power distribution in an ablation control apparatus or the like. In one embodiment, a power switching apparatus comprises a first switch assembly having an input end to receive a power input signal, the first switch assembly having a plurality of output channels; a second switch assembly coupled to the output channels of the first switch assembly; a plurality of power receiving members coupled to the second switch assembly; and a controller controlling the first switch assembly to selectively transmit the power input signal to the output channels one at a time in a cyclical manner according to a first switching rate. The controller controls the second switch assembly to transmit the power input signal from the output channels of the first switch assembly to one subset of the power receiving members at a time according to a second switching rate, so as to transmit the power input signal to a subset of power receiving members one power receiving member at a time within the subset of power receiving members according to the first switching rate. | 12-01-2011 |
20120025893 | SWITCHED CAPACITOR CIRCUIT - A switched capacitor circuit includes a capacitor and switches located on an input side and an output side of the capacitor. The switched capacitor circuit also includes an operational amplifier of a later stage which receives an output of the capacitor, wherein a current value of a current supplied to the operational amplifier is switched according to at least one open/closed state of at least one of the switches. | 02-02-2012 |
20120062305 | Antenna Matching System and Device - A system comprising an antenna, an antenna matching network, an amplifier of a radio frequency (RF) module, a matching circuit, and a switch. The switch is configured to selectively connect said amplifier to test apparatus via said matching circuit when in a first position, and to said antenna via said antenna matching network when it is in a second position. | 03-15-2012 |
20120075002 | HIGH-FREQUENCY SWITCH MODULE - A high-frequency switch module that significantly reduces deterioration of high-frequency characteristics and improves harmonic wave distortion characteristics includes a high-frequency switch and SAW filters mounted on a multilayer substrate. Low pass filters are provided within the multilayer substrate. The terminals of the high-frequency switch are located on the bottom surface of the semiconductor substrate. The high-frequency switch includes a high-frequency circuit ground terminal and a control circuit ground terminal, the multilayer substrate includes therein a ground electrode which is electrically connected to a top surface connection electrode to which the high-frequency circuit ground terminal is connected, and a wiring electrode electrically connected to a top surface connection electrode to which the control circuit ground terminal is connected is arranged so as to be insulated from the ground electrode. | 03-29-2012 |
20120146706 | ENGINE LEVEL POWER GATING ARBITRATION TECHNIQUES - An integrated circuit, in accordance with embodiments of the present technology, includes a plurality of engines, a plurality of engine level power gating (ELPG) controllers, and a power gating arbiter for implementing engine level power gating arbitration techniques. The power gating arbiter may receive requests from one or more ELPG controllers to turn on their respective engines or portions therein. The power gating arbiter prioritizes the request and sends an acknowledgment to a given ELPG controller to turn on or off its corresponding engine according to the prioritized predetermined order. After receiving the acknowledgement, the given ELPG controller turns on or off its corresponding engine and returns an indication to the power gating arbiter that the corresponding engine is turned on or off. The process may be iteratively repeated for each received request after receiving the indication from the previously serviced ELPG controller that its corresponding engine is turned on or off. | 06-14-2012 |
20120161846 | CAPACITIVE TO VOLTAGE SENSING CIRCUIT - A circuit for converting a measured variable capacitance to an output voltage signal includes a charge amplifier circuit selectively coupled to an integrator circuit. The charge amplifier circuit, in one implementation, is configured as a high pass filter. In another implementation, the charge amplifier circuit is configured as a combination high pass and low pass filter. The charge amplifier circuit is selectively coupled to the integrator circuit when the circuit forces a switch in voltage across a measurement capacitor. | 06-28-2012 |
20120223762 | PASS TRANSISTOR CIRCUIT WITH MEMORY FUNCTION, AND SWITCHING BOX CIRCUIT INCLUDING THE PASS TRANSISTOR CIRCUIT - A pass transistor circuit according to an embodiment includes: a first input/output terminal connected to a first signal line; a second input/output terminal connected to a second signal line; a first device having a first terminal connected to a first power supply and a second terminal; a second device having a third terminal connected to the second terminal and a fourth terminal connected to a second power supply; a first transistor having one of source/drain connected to the second terminal, a gate receiving a first control signal; and a second transistor having a gate connected to the other one of source/drain of the first transistor, one of source/drain connected to the first input/output terminal, and the other one of source/drain connected to the second input/output terminal. One of the first and second devices is a nonvolatile memory device, the other one of the first and second devices is a MOSFET. | 09-06-2012 |
20120268193 | SELECTING FOUR SIGNALS FROM SIXTEEN INPUTS - An apparatus for selecting a plurality of input signals from a plurality of y signals in a device has a switching matrix with a plurality of n to 1 mulitplexers, wherein each n to 1 multiplexer is assigned to a different input set of n of the y signals wherein a subset of less than n input signals of each set of input signals of each of the n to 1 multiplexers is also a subset of input signals of another n to 1 multiplexer. | 10-25-2012 |
20120274383 | ORTHOGONAL CHANNEL DATA SWITCH - An integrated circuit device for switching data has a plurality of input channels and a plurality of output channels. The device includes a switch for selectively connecting a subset of the output channels, mutually orthogonal, to the input channels by providing signal paths between the selected mutually orthogonal output channels and the input channels. The selected output channels are not orthogonal to the output channels that are not selected. | 11-01-2012 |
20120286844 | METHOD AND APPARATUS FOR CONTROLLING DEVICE IN ELECTRONIC EQUIPMENT - A method and apparatus for controlling a device in electronic equipment having a plurality of devices are provided. The apparatus includes a power supply for supplying power, a slave device including a driving circuit operated according to the supplied power for transmitting and receiving data to and from another device, a switching circuit for connecting the driving circuit to a ground terminal when the switching circuit is turned-on and for opening the driving circuit from the ground terminal when the switching circuit is turned-off, and a host device for transmitting a control signal for turning-on the switching circuit when driving the slave device and for turning-off the switching circuit when not driving the slave device. When the device is not driven, the switching circuit may open a driving circuit from a ground terminal, thereby cutting-off leakage of an electric current through the device. | 11-15-2012 |
20120293236 | NONVOLATILE NANO-ELECTROMECHANICAL SYSTEM DEVICE - A nonvolatile nano-electromechanical system device is provided and includes a cantilever structure, including a beam having an initial shape, which is supported at one end thereof by a supporting base and a beam deflector, including a phase change material (PCM), disposed on a portion of the beam in a non-slip condition with a material of the beam, the PCM taking one of an amorphous phase or a crystalline phase and deflecting the beam from the initial shape when taking the crystalline phase. | 11-22-2012 |
20120299634 | SEMICONDUCTOR ELEMENT DRIVING CIRCUIT AND SEMICONDUCTOR DEVICE - A driving circuit outputs an output voltage as a driving signal to the gate of a semiconductor element based on a control signal given from an input circuit. The output voltage is at “H” (ON level) if it is determined by a power supply voltage VCC, and is at “L” (OFF level) if it is determined by a ground voltage GND. A reference power supply section includes a series connection of resistors. The reference power supply section obtains a voltage determined by dividing a potential difference between the power supply voltage VCC and the ground voltage GND by a predetermined dividing ratio (resistance ratio between the resistors) as a reference voltage. A buffer circuit applies an output voltage as a reference signal determined by the reference voltage to the source of the semiconductor element. | 11-29-2012 |
20120306560 | INFORMATION GENERATING APPARATUS AND OPERATION METHOD THEREOF - An information generating apparatus and an operation method thereof are provided. The information generating apparatus includes a first logic contact, a second logic contact, an information output contact and a plurality of switches SW | 12-06-2012 |
20130093496 | POWER-SAVING RECEIVER CIRCUITS, SYSTEMS AND PROCESSES - An electronic circuit includes a receiver circuit (BSP) operable to perform coherent summations having a coherent summations time interval, and a power control circuit ( | 04-18-2013 |
20130106489 | SIGNAL INPUT CIRCUIT/CHIP | 05-02-2013 |
20130141153 | ELECTRONIC DEVICE AND TRANSMITTER DC OFFSET CALIBRATION METHOD THEREOF - An embodiment of the invention provides an electronic device. The electronic device includes a digital-to-analog converter (DAC), a transmitter front-end (TX FE), an amplifier, an analog-to-digital converter (ADC), and a swap circuitry. The TX FE has a first and a second input end coupled to a first and a second output end of the DAC, respectively. The ADC has a first and a second input end coupled to a first and a second output end of the amplifier, respectively. The swap circuitry is configured to couple the first and second output ends of the DAC to a first and a second input end of the amplifier in a normal state, respectively, and couple the first and second output ends of the DAC to the second and first input ends of the amplifier in a swapped state, respectively. | 06-06-2013 |
20130169343 | USING INTERRUPTED THROUGH-SILICON-VIAS IN INTEGRATED CIRCUITS ADAPTED FOR STACKING - In an integrated circuit (IC) adapted for use in a stack of interconnected ICs, interrupted through-silicon-vias (TSVs) are provided in addition to uninterrupted TSVs. The interrupted TSVs provide signal paths other than common parallel paths between the ICs of the stack. This permits IC identification schemes and other functionalities to be implemented using TSVs, without requiring angular rotation of alternate ICs of the stack. | 07-04-2013 |
20130187700 | ENERGY REUSE CIRCUIT - The present invention provides an energy reuse circuit. The energy reuse circuit is connected among a plurality of converters at a releasing side or an absorbing side, and includes an energy absorbing portion, an energy releasing portion and an energy exchange portion, wherein the energy exchange portion is connected to the energy absorbing portion and the energy releasing portion, so as to make the energy absorbing portion and the energy releasing portion exchange potential energy in sequence and thus complete energy reuse. | 07-25-2013 |
20130200938 | SYSTEMS AND METHODS OF LEVEL SHIFTING FOR VOLTAGE DRIVERS - System and method for controlling one or more switches. The system includes a first converting circuit, a second converting circuit, and a signal processing component. The first converting circuit is configured to convert a first current and generate a first converted voltage signal based on at least information associated with the first current. The second converting circuit is configured to convert a second current and generate a second converted voltage signal based on at least information associated with the second current. The signal processing component is configured to receive the first converted voltage signal and the second converted voltage signal and generate an output signal based on at least information associated with the first converted voltage signal and the second converted voltage signal. | 08-08-2013 |
20130229221 | CONTROL CHIP FOR COMMUNICATING WITH WIRED CONNECTION INTERFACE BY USING ONE CONFIGURABLE PIN SELECTIVELY SERVING AS INPUT PIN OR OUTPUT PIN - A control chip includes a configurable pin and a control logic. The configurable pin is arranged for coupling a first pin and a second pin of a high-definition multimedia interface (HDMI) connector. The control logic is arranged for controlling the configurable pin to switch between a first operation mode and a second operation mode. The configurable pin serves as an input pin when operating in the first operation mode, and the configurable pin serves as an output pin when operating in the second operation mode. For example, the input pin is arranged for receiving a power supply signal derived from a + | 09-05-2013 |
20130234776 | CIRCUIT FOR TESTING MOTHERBOARD - A circuit includes first to third nodes, resistors with different resistance, capacitors with different capacitance, first switches corresponding to the same number of resistors, second switches corresponding to the same number of capacitors, and a third switch. A first terminal of each resistor is connected to the first node. A second terminal of each resistor is connected to a first terminal of a corresponding one first switch, a second terminal of each first switch is connected to the second node. A first terminal of the third switch is connected to the second terminal of each first switch. A second terminal of the third switch is connected to a first terminal of each capacitor. A second terminal of each capacitor is connected to a first terminal of a corresponding one second switch. A second terminal of each second switch is connected to the third node. | 09-12-2013 |
20130300491 | Subsea Power Switching Device and Methods of Operating the Same - It is described a switching device comprising a semiconductor switching unit; a contactor electrically coupled in series with the semiconductor switching unit; and a controller being configured for activating an electrically isolating state of the switching device and/or activating an electrically conducting state of the switching device based on a command signal or based on a comparison of a measured value and predetermined activation condition. | 11-14-2013 |
20140035654 | CONSTANT ON-TIME SWITCHING CONVERTERS WITH SLEEP MODE AND CONTROL METHODS THEREOF - A constant on-time switching converter includes a switching circuit, an on-time control circuit, a comparing circuit and a logic circuit. The switching circuit has a first switch and is configured to provide an output voltage to a load. The on-time control circuit generates an on-time control signal to control the on-time of the first switch. The comparing circuit compares the output voltage of the switching circuit with a reference signal and generates a comparison signal. The logic circuit generates a control signal to control the first switch based on the on-time control signal and the comparison signal. When the switching frequency of the switching circuit approaches an audible range, the switching converter enters into a sleep mode, the on-time control signal is reduced to increase the switching frequency of the switching circuit. | 02-06-2014 |
20140125401 | SYSTEM FOR CONTROLLIING GATINGS OF A MULTI-CORE PROCESSOR - A system for controlling gatings of a multi-core processor, the system includes a pulse width modulation generator for generating a control square wave; and a phase shifter for shifting a phase of the control square wave to generate control square waves with different phases, and respectively inputting the control square waves with the different phases to a gating of each of multiple processing engines in the multi-core processor. A multi-core processor is provided that includes multiple processing engines. Each processing engine includes a gating, and a system for controlling the gating. Accordingly, in the multi-core processor, the load to be processed in a certain period of a working cycle can be averaged to be processed in a longer period of the working cycle. Consequently, current noise and voltage noise and temperature growth due to the load change can be reduced. | 05-08-2014 |
20140167833 | DIGITAL CONTROLLERS AND DIGITAL CONTROL METHODS OF MULTI-PHASE SWITCHING CONVERTERS - A method for controlling a multi-phase switching converter with a plurality of switching circuits, including: sensing the output current of the switching circuit and generating a current sensing signal; generating a digital phase current signal based on the current sensing signal; subtracting the digital phase current signal from a current reference signal and generating a current error signal; proportionally integrating the current error signal and generating a first bias signal; conducting a sigma-delta modulation of the first bias signal and generating a second bias signal, wherein the first bias signal is a P-bit digital signal, the second bias signal is a Q-bit digital signal, and P is larger than Q; and adjusting a control signal controlling the switching circuit based on the second bias signal. | 06-19-2014 |
20140218096 | Electronic Device with Body-Biasing Circuit for Portable Equipment with USB Connector For Headset - An electronic USB or similar device | 08-07-2014 |
20140266391 | CONTROLLING THE CONDUCTIVITY OF AN OXIDE BY APPLYING VOLTAGE PULSES TO AN IONIC LIQUID - Electrolyte gating with ionic liquids is a powerful tool for inducing conducting phases in correlated insulators. An archetypal correlated material is VO | 09-18-2014 |
20140306748 | MULTI-CHIP PACKAGE - A multi-chip package having a plurality of slice chips coupled through a through-via, at least one slice chip may include an input unit suitable for receiving a slice activation signal, and outputting the slice activation signal to the through-via in response to a slice identification corresponding to the slice chip, a first output unit suitable for outputting the activation signal transferred through the through-via to an internal circuit of the slice chip in response to the corresponding slice identification, and a second output unit suitable for selectively outputting the activation signal transferred through the through-via to the internal circuit of the slice chip in a predetermined activation mode for the multi-chip package. | 10-16-2014 |
20150091633 | DESIGN METHOD AND DESIGN DEVICE - A design method is executed by a computer. The design method includes grouping logical modules in each of power domains arranged on a chip; provisionally arranging regular cells in each of logical module groups formed by the grouping; and arranging power switches around each of the logical module groups. | 04-02-2015 |
20150326214 | BYPASS CIRCUITS AND NETWORK SECURITY DEVICES USING THE SAME - A bypass circuit is provided. The bypass circuit is integrated in a single chip. The bypass circuit includes a first pin set, a second pin set, an output pin set, and a switching circuit. The first pin set receives a first input signal from outside of the single chip. The switching circuit is coupled to the first pin set and transmits the first input signal to the second pin set or the output pin set. | 11-12-2015 |
20160036429 | POWER GATING - A circuit and method for power gating is provided. The circuit includes a switch circuit and a modulation oscillator. The switch circuit is connected between a circuit module and a power network having a target level. The switch circuit receives a control signal at its control signal input terminal to gate a connection between the circuit module and the power network under the control of the control signal. The switch circuit is connected to the circuit module at a first node. A modulation oscillator enabling signal input terminal is connected to a gating signal for enabling the modulation oscillator, a modulation oscillator control signal input terminal is connected to the first node, and an modulation oscillator output terminal is connected to the control signal input terminal of the switch circuit. The oscillation signal outputted from the modulation oscillator is modulated by the level of the first node. | 02-04-2016 |
20160041238 | PUSH-PULL FLIPPED-DIE HALF-BRIDGE MAGNETORESISTIVE SWITCH - Push-pull half-bridge magnetoresistive switch, comprising two magnetic sensor chips, each magnetic sensor chip having a magnetic induction resistor and a magnetic induction resistor electrical connection pad. The two magnetic sensor chips are electrically interconnected and have opposite and parallel directions of induction, thus forming the push-pull half-bridge circuit. The magnetic induction resistor comprises one or a plurality of magnetoresistive elements connected in series. The magnetic induction resistor pads are located at adjacent edges of the magnetic sensor chips, and each pad may accommodate the welding of at least two bonding wires. The magnetoresistive switch may improve the sensitivity of a sensor, and decrease output voltage deviation and output voltage temperature drift, which is beneficial for decreasing the volume and increasing the performance of the switch sensor. | 02-11-2016 |
20160118975 | LIMITING OF TEMPERATURE VARIATIONS OF SEMICONDUCTOR COMPONENT - A method and an arrangement of limiting temperature variations in a semiconductor component of a switching converter, the method comprising determining a quantity relating to operation temperature of the switching converter, determining temperature of the semiconductor component, selecting a maximum value of switching frequency of the switching converter based on the determined quantity relating to operation temperature of the switching converter and the temperature of the semiconductor component, and limiting the switching frequency of the semiconductor component of the switching converter to the selected switching frequency. | 04-28-2016 |