Patent application number | Description | Published |
20090027091 | CLOCK FREQUENCY DIVIDING CIRCUIT - A first frequency dividing circuit and a second frequency dividing circuit are provided, and these circuits frequency-divide two-phase external clocks injected from an external part, to output four-phase clocks with phase guarantee. Each of the frequency dividing circuits includes a mixer, an adding circuit, and a phase circuit. The first frequency dividing circuit and the second frequency dividing circuit are coupled in loop shape via a first coupling circuit and a second coupling circuit. The first coupling circuit receives a first output signal of the first frequency dividing circuit to output a second external input signal to the second frequency dividing circuit, and the second coupling circuit receives a second output signal of the second frequency dividing circuit to output a first external input signal to the first frequency dividing circuit, and a clock frequency dividing circuit with a high loop gain and a wide lock range can be realized. | 01-29-2009 |
20090066394 | PEAKING CONTROL CIRCUIT - There are provided a peaking detection part detecting a peaking amount in an output part of an inductor peaking circuit and a control signal generation part varying a circuit parameter of the inductor peaking circuit based on the peaking amount detected by the peaking detection part. Particularly, the inductor peaking circuit has inductors and resistors inserted in series between the output part and a power supply, and capacitances coupled in parallel between the output part and an earth (GND), and depending on respective values of these inductors, resistors and capacitances, it is possible to suppress a peaking generated in the output part. | 03-12-2009 |
20090179674 | Phase-combining circuit and timing signal generator circuit for carrying out a high-speed signal transmission - A phase-combining circuit for combining cyclic timing waveforms that have been phase-controlled by control signals based on three or more input signals of different phases, has a weight signal generating circuit and a weighting circuit. The weight signal generating circuit generates weights according to the control signals, and the weighting circuit gives the weights to the respective input signals, with a positive or negative polarity for each one signal. | 07-16-2009 |
20090195281 | Timing Signal Generating Circuit, Semiconductor Integrated Circuit Device and Semiconductor Integrated Circuit System to which the Timing Signal Generating Circuit is Applied, and Signal Transmission System - A semiconductor integrated circuit device has a command decoder for issuing a control command in accordance with a supplied control signal, a DRAM core, and a timing adjusting circuit for supplying the control command, set active for a predetermined period, as a DRAM control signal to the DRAM core. The timing adjusting circuit generates n different clocks that are respectively shifted in phase with respect to a supplied reference clock, and generates the DRAM control signal by setting the control command active in a prescribed operation cycle for only a period starting at a first predetermined clock pulse of a first clock of the n clocks and ending at a second predetermined clock pulse of a second clock of the n clocks. In this way, timing design with relatively high accuracy of adjustment can be done in a short period. | 08-06-2009 |
20090220029 | CLOCK RECOVERY CIRCUIT AND DATA RECEIVING CIRCUIT - A clock recovery circuit has a boundary detection circuit detecting a boundary in an input signal in accordance with a first signal, and performs recovery of a clock by controlling the timing of the first signal in accordance with the detected boundary. The clock recovery circuit has a boundary detection timing varying circuit and a variation reducing circuit. The boundary detection timing varying circuit dynamically varies boundary detection timing in the boundary detection circuit by applying a variation to the first signal, and the variation reducing circuit reduces a phase variation occurring in the recovered clock in accordance with the dynamic variation of the boundary detection timing performed by the boundary detection timing varying circuit. | 09-03-2009 |
20100011265 | INTEGRATED CIRCUIT CHIP AND CIRCUIT NETWORK - An integrated circuit chip includes a plurality of two-way transceivers capable of simultaneously transmitting and receiving signals, a switch circuit coupled to the plurality of two-way transceivers and to a given node to provide switchable couplings between the plurality of two-way transceivers and the given node, an interconnection information storage unit to store interconnection information, and a control circuit to set the couplings of the switch circuit in response to the interconnection information. | 01-14-2010 |
20100019827 | INTEGRATED CIRCUIT - An integrated circuit includes a bypass signal path exchanging, between transceivers which are included in the integrated circuit, a signal transmitted/received between a transceiver of the transceivers and an internal logic circuit which processes data being input/output by transceiver with bypassing the internal logic circuit, a switch switching a pathway of the bypass signal path, and a switch changeover controller transferring a switch control signal that performs a changeover of the switch. | 01-28-2010 |
20100061498 | DATA RECEIVING CIRCUIT - A receiving circuit includes a clock generation circuit that generates a clock signal, an integration filter that stores a signal potential of an input signal and generates a first storage potential in a period in which the clock signal indicates one logic, a first analog-to-digital circuit that converts the first storage potential into a first digital value, and a data determination circuit that determines a logic of the input signal on a basis of the first digital value. | 03-11-2010 |
20100127906 | DATA RECOVERY CIRCUIT, DATA RECOVERY METHOD AND DATA RECEIVING APPARATUS - A data recovery circuit includes an analog-digital converter creating a digital code sequence, a phase detector calculating a position of a crossing point from the digital code sequence, a phase estimator acquiring a presumed position of a data center point of a data sequence based on the position of the crossing point, and a data determining circuit extracting the sequence of data determination values from the digital code sequence based on the position of the crossing point and the presumed position of the data center point. | 05-27-2010 |
20100141306 | PARALLEL-SERIAL CONVERSION CIRCUIT AND DATA RECEIVING SYSTEM - A parallel-serial conversion circuit includes: a plurality of data terminals each receiving a data signal; a selection circuit configured to select at least one of the data signals received through the plurality of data terminals; a first latch circuit configured to latch an output from the selection circuit based on a clock signal; a replica selection circuit configured to select one of a plurality of signals and output the selected signal; and a timing-signal generating circuit configured to generate a timing signal for controlling the selection circuit based on the output from the replica selection circuit, wherein the output from the replica selection circuit is latched based on the clock signal. | 06-10-2010 |
20100202578 | CLOCK GENERATION CIRCUIT AND SYSTEM - A clock generation circuit includes: a first determination circuit that detects an input signal at a first phase position based on first frequency signal; a second determination circuit that detects the input signal at a second phase position based on second frequency signal; a phase detector that compares output of the first determination circuit and output of the second determination circuit; a first summing circuit which sums comparison result and first control signal; a second summing circuit which sums comparison result and second control signal; a first voltage controlled oscillation circuit which receives output of the first summing circuit and outputs the first frequency signal; a second voltage controlled oscillation circuit which received output of the second summing circuit and outputs the second frequency signal; and a phase adjustment circuit which generates first control signal and second control signal based on first frequency signal and second frequency signal. | 08-12-2010 |
20100246734 | RECEIVER - A receiver that receives a train of a plurality of symbols representing digital data, includes: an isolated pulse detector that detects whether the digital data includes an isolated pulse in the symbol train, respectively; a phase detector that detects a timing at which the level of the symbols changes; a symbol value converter that converts the symbols into logical values on the basis of the timing detected by the phase detector; and a data selector that selects a logical value of the isolated pulse instead of the logical value converted by the symbol value converter when the isolated pulse detector detects the digital data containing the isolated pulse. | 09-30-2010 |
20110002374 | RECEIVER CIRCUIT, METHOD OF ADJUSTING OFFSET, AND TRANSMISSION/RECEPTION SYSTEM - A receiver circuit includes: an equalization circuit that equalizes a first signal to obtain a second signal, and adjusts a characteristic of an equalization in accordance with an error between the second signal and a third signal; and a first offset adjustment circuit that adjusts an offset of the first signal in accordance with an error signal indicating the error. | 01-06-2011 |
20110006850 | CLOCK SIGNAL DISTRIBUTING DEVICE - A clock signal distributing device includes a plurality of LC resonant oscillators, each resonating at a frequency conforming to values of a first inductor and a first capacitor to oscillate a signal, an injection locked LC resonant oscillator that resonates at a frequency conforming to values of a second inductor and a second capacitor to oscillate a signal which is synchronous with an input clock signal, and transmission lines that connect oscillation nodes of the plurality of LC resonant oscillators and the injection locked LC resonant oscillator with one another. | 01-13-2011 |
20110068847 | EQUALIZER CIRCUIT AND RECEPTION APPARATUS - An equalizer circuit includes: a plurality of amplifiers that convert a voltage signal into a current; a plurality of capacitive loads that are charged and discharged in accordance with respective outputs of the plurality of amplifiers; a charge discharge circuit provided for each of the plurality of capacitive loads to charge or discharge one of the plurality of capacitive loads; and a reset circuit provided for each of the capacitive loads to initialize the charge stored in the one of the plurality of capacitive loads, wherein a current according to the voltage signal is integrated in different periods for each of the plurality of capacitive loads and the capacitive load is discharged through the current in a first period and the capacitive load is charged through the current in a second period following the first period. | 03-24-2011 |
20110221506 | Phase-combining circuit and timing signal generator circuit for carrying out a high-speed signal transmission - A phase-combining circuit for combining cyclic timing waveforms that have been phase-controlled by control signals based on three or more input signals of different phases, has a weight signal generating circuit and a weighting circuit. The weight signal generating circuit generates weights according to the control signals, and the weighting circuit gives the weights to the respective input signals, with a positive or negative polarity for each one signal. | 09-15-2011 |
20110249519 | DATA REPRODUCTION CIRCUIT - This is a data reproduction circuit for receiving data and reproducing the data and its clock which has an over-sampling determination circuit for sampling the received data by a clock with frequency higher than the data rate of the received data and converting the sampled data into digital signals, a circuit for selecting and outputting the reproduced data, a phase error detection circuit for detecting a phase error from its timing deviation with the received data, based on the reproduced clock, a data selection circuit for adjusting its phase, based on the output of the phase error detection circuit, a phase adjustment circuit for adjusting the phase of the reproduced clock to reproduce a new clock and a clock generation circuit for supplying the over-sampling determination circuit and the data selection circuit with the newly reproduced clock. | 10-13-2011 |
20130194047 | CLOCK DISTRIBUTOR AND ELECTRONIC DEVICE - A clock distributor includes unit circuit parts each including an oscillator, a first element configured to convert output voltage of the oscillator into a current, a second element having a voltage current conversion characteristic of an opposite phase to that of the first element, the second element being feedback connected to the first element and the oscillator, a third element configured to convert output voltage of the oscillator into a current, a fourth element having a voltage current conversion characteristic of an opposite phase to that of the third element, the fourth element being feedback connected to the third element and the oscillator; a wiring part to connect a connection part of the first and second elements of a unit circuit part to a connection part of the third and fourth elements of another unit circuit part; and a synchronization circuit connected to the oscillator of a unit circuit part. | 08-01-2013 |
20130314142 | PHASE-COMBINING CIRCUIT AND TIMING SIGNAL GENERATOR CIRCUIT FOR CARRYING OUT A HIGH-SPEED SIGNAL TRANSMISSION - A phase-combining circuit for combining cyclic timing waveforms that have been phase-controlled by control signals based on three or more input signals of different phases, has a weight signal generating circuit and a weighting circuit. The weight signal generating circuit generates weights according to the control signals, and the weighting circuit gives the weights to the respective input signals, with a positive or negative polarity for each one signal. | 11-28-2013 |