Class / Patent application number | Description | Number of patent applications / Date published |
327269000 | Multiple outputs with plurality of delay intervals | 24 |
20080252352 | System and Method for Using a DLL for Signal Timing Control in an eDRAM - The present invention discloses an embedded dynamic random access memory (eDRAM) comprising a clock signal, at least one delay-locked loop (DLL) circuit coupled to the clock signal and configured to generate a plurality of control signals each having a predetermined delay from the clock signal, and at least one DRAM array coupled to the plurality of control signals, wherein the DRAM array operates in a plurality of steps controlled by the plurality of control signals. | 10-16-2008 |
20090033396 | SETUP/HOLD TIME CONTROL CIRCUIT - A setup/hold time control circuit includes a reference signal output unit that sets any one of multiple ports as a reference port and buffers a signal input through the reference port to output as a reference signal. The setup/hold time control circuit also includes a plurality of comparative signal output units that set the remaining ports as comparative ports. The comparative signal output unit synchronizes signals that are input from the comparative ports with the reference signal and outputs the signals as internal signals. The setup/hold time control circuit improves high speed operation of a semiconductor memory device by improving upon the setup/hold time difference between multiple ports. | 02-05-2009 |
20100271100 | MINIMAL BUBBLE VOLTAGE REGULATOR - A digital voltage regulator including a dual rail delay chain having large size, feed forward cross-coupled inverters that interconnect the two rails. Stages of the delay chain include a dual-ended output that provides a data signal and a substantially simultaneous data complement signal to a flip-flop component associated with a sampling circuit. In use, the enhanced resolution delay chain and the reduced metastability window flop-flop increase the precision of the digital voltage regulator. | 10-28-2010 |
20130214840 | SEMICONDUCTOR IC INCLUDING PULSE GENERATION LOGIC CIRCUIT - A pulse generation circuit includes storage elements disposed in a dispersed arrangement on a substrate and operating in response to a pulse signal, delay elements each proximate to a storage element receiving a clock signal and providing a delayed output signal, and a pulse generation logic circuit performing at least one logic operation on the clock signal and the plurality of delayed output signals to generate the pulse signal. | 08-22-2013 |
20140002164 | DELAY CIRCUIT AND DELAY METHOD USING THE SAME | 01-02-2014 |
20140176215 | METHOD OF IMPLEMENTING CLOCK SKEW AND INTEGRATED CIRCUIT ADOPTING THE SAME - To implement a clock skew in an integrated circuit, end-point circuits are grouped into a push group and a pull group based on target latencies of local clock signals respectively driving the end-point circuits. The push group is driven by slow clock gates, and the pull group is driven by fast clock gates. The slow clock gates are determined such that delays of output clock signals are aligned to a base latency. The fast clock gates are determined such that delays of output clock signals are aligned to a minimum pull latency smaller than the base latency. Buffer networks are disposed between the fast and slow clock gates and the end-point circuits such that the local clock signals have the target latencies, respectively. | 06-26-2014 |
20150097608 | SYSTEM AND METHOD FOR CONTROLLING CIRCUIT INPUT-OUTPUT TIMING - An integrated circuit (IC) includes a plurality of input/output (I/O) terminals through which signals pass into or out of the IC and an I/O timing module. The I/O timing module is configured to add propagation delay to signals passing between the I/O terminals and I/O subsystems of the IC. The I/O timing module includes a plurality of delay elements associated with each of the I/O terminals, a control register associated with each of the I/O terminals, a memory, and I/O delay control logic. The control register is coupled to each of the delay elements associated with the I/O terminal. The memory is encoded with delay information. The I/O delay control logic is configured to initialize the propagation delay associated with each of the I/O terminals by selecting which of the delay elements are to be applied to produce the propagation delay based on the delay information stored in the memory. | 04-09-2015 |
20150365076 | CLOCK BUFFERS WITH PULSE DRIVE CAPABILITY FOR POWER EFFICIENCY - A clock driver and corresponding method are provided. The clock driver includes a multi-stage delay cell having logic circuitry and a plurality of serially connected delay elements. An input of the delay elements receives an original version of a reference clock signal input to the clock driver and used to generate a global clock signal. An output of the delay elements connects to positive and negative pulse driving branches formed from the logic circuitry. The clock driver further includes a pulse generator forming positive and negative pulse generator portions respectively connected to outputs of the positive and negative pulse driving branches. The pulse generator generates, at any given time, one of a positive pulse and a negative pulse responsive to a positive pulse enable signal and a negative pulse enable signal, respectively, and the original version of the reference clock signal input to the clock driver without modification. | 12-17-2015 |
327270000 | Variable or adjustable | 12 |
20090251186 | SEMICONDUCTOR INTEGRATED CIRCUIT - Provided is a semiconductor integrated circuit which includes a logical, operation circuit, a clock generator, a relay circuit, and a signal generating unit that are integrated. The clock generator generates multiphase clocks. The relay circuit distributes the generated multiphase clocks to the logical operation circuit. The signal generating unit detects phase states of the distributed multiphase clocks and, based on the detected phase states, generates an analog voltage signal having a voltage value indicative of a phase error in the multiphase clocks. | 10-08-2009 |
20090256611 | Semiconductor device and timing adjusting method for semiconductor device - In a semiconductor device, a delaying circuit is configured to delay an input signal based on an internal setting data to output as a timing signal. A delay determining section is configured to determine a delay state of each of a plurality of delay signals obtained by delaying the timing signal, based on the plurality of delay signals. A program section is configured to change the internal setting data based on the delay state. | 10-15-2009 |
20110095801 | METHOD FOR CONTROLLING THE DYNAMIC POWER SIGNATURE OF A CIRCUIT - A method of determining a timing relationship between modules on a chip, each module being timed by an initiator. The timing relationship being determined on the basis of the power consumptions over time of the initiators and may be determined on the basis of e.g. a sum of the power consumptions or more complex calculations also incorporating the signal path or power delivery network, whereby a voltage drop or current drawn at a position in the chip may be determined. In addition, a parameter, which may be the sum or voltage drop, current or e.g. an energy content within a frequency range, may be determined. This parameter may be varied by e.g. providing different timing relations of initiators, in order to minimize the parameter or adapt it to a requirement as a maximum peak value, maximum difference between max and min peaks, a flatness criteria or the like. | 04-28-2011 |
20120119808 | SEMICONDUCTOR INTEGRATED CIRCUIT AND OPERATING METHOD THEROF - An integrated circuit is equipped with a reception mixer and a signal generator. A multistage delay circuit generates a plurality of clock pulses in response to a reception carrier signal. A phase detection unit detects differences between a voltage level of a specific clock pulse and voltage levels of a predetermined number of clock pulses generated prior to the specific clock pulse to thereby detect a predetermined phase of the specific clock pulse. A selector of a clock generation unit outputs a plurality of selection clock pulse signals respectively having a plurality of phases from the clock pulse signals. A first signal synthetic logic circuit performs logical operations on the selection clock pulses to thereby generate local signals supplied to the reception mixer. | 05-17-2012 |
20120194249 | Semiconductor Integrated Circuit - According to an embodiment, a semiconductor integrated circuit includes a first clock domain driven at a first frequency, a second clock domain adjacent to the first clock domain and driven at a second frequency which is different from the first frequency, a signal line provided between the first clock domain and the second clock domain, first and second DF/Fs connected to the first signal line and provided for the first clock domain and the second clock domain respectively and first and second multiplexers provided in correspondence with the first and the second DF/Fs respectively, to select one of the first frequency and the second frequency and output the selected frequency to the first and the second DF/Fs. | 08-02-2012 |
20140002165 | CHARGE-DOMAIN FILTER AND METHOD THEREOF AND CLOCK GENERATOR | 01-02-2014 |
20140070863 | SEMICONDUCTOR INTEGRATED CIRCUIT - There is provided a semiconductor integrated circuit in which a ring oscillator is formed by a variable delay circuit to cause the ring oscillator to oscillate (S | 03-13-2014 |
20150028929 | System And Method For Pre-Skewing Timing Of Differential Signals - A circuit for skewing differential signals includes a coarse adjustment stage configured to receive a differential input signal having a true component and a complement component, the coarse adjustment stage configured to impart a first controllable delay to at least one of the true component and the complement component of the differential signal, and a fine adjustment stage configured to impart a second controllable delay to at least one of the true component and the complement component of the differential signal, the second controllable delay having a resolution different than a resolution of the first controllable delay, the first controllable delay and the second controllable delay providing a timing skew between the true component and the complement component of the differential signal. | 01-29-2015 |
20150109043 | ADJUSTABLE DELAY CALIBRATION IN A CRITICAL PATH MONITOR - A critical path monitor (CPM) having a set of split paths is configured in an integrated circuit (IC) that includes a corresponding set of critical paths. A first and a second split path is configured with a first and a second simulated delay sections and fine delay sections, respectively. A delay of each of the first and second fine delay sections is adjustable in several steps. The delay of the first fine delay section is adjustable differently from the delay of the second fine delay section in response to a common operating condition change. Differently adjusting the delays of the first and the second fine delay sections causes an edge of a pulse to be synchronized between a first edge detector located after the first simulated delay section and a second edge detector located after the second simulated delay section. | 04-23-2015 |
20150323958 | CLOCK SKEW MANAGEMENT SYSTEMS, METHODS, AND RELATED COMPONENTS - Clock skew management systems are disclosed. Methods and related components are also disclosed. In an exemplary aspect, to offset the skew that may result across the tiers in the clock tree, a cross-tier clock balancing scheme makes use of automatic delay adjustment. In particular, a delay sensing circuit detects a difference in delay at comparable points in the clock tree between different tiers and instructs a programmable delay element to delay the clock signals on the faster of the two tiers. In a second exemplary aspect, a metal mesh is provided to all elements within the clock tree and acts as a signal aggregator that provides clock signals to the clocked elements substantially simultaneously. | 11-12-2015 |
20150323959 | CLOCK SKEW MANAGEMENT SYSTEMS, METHODS, AND RELATED COMPONENTS - Clock skew management systems are disclosed. Methods and related components are also disclosed. In an exemplary aspect, to offset the skew that may result across the tiers in the clock tree, a cross-tier clock balancing scheme makes use of automatic delay adjustment. In particular, a delay sensing circuit detects a difference in delay at comparable points in the clock tree between different tiers and instructs a programmable delay element to delay the clock signals on the faster of the two tiers. In a second exemplary aspect, a metal mesh is provided to all elements within the clock tree and acts as a signal aggregator that provides clock signals to the clocked elements substantially simultaneously. | 11-12-2015 |
20160162432 | SYSTEM AND METHOD FOR REDUCING CROSS COUPLING EFFECTS - A device includes a first driver circuit coupled to a first bus line, where the first driver circuit includes a first delay element. The first delay element is configured to receive a first input signal and generate a first output signal. The first output signal transitions logic levels after a first delay period when the first input signal transitions from a logic high level to a logic low level. The first output signal transitions logic levels after a second delay period when the first input signal transitions from the logic low level to the logic high level. The first delay element includes a sense amplifier. The first driver circuit is configured to transmit the first output signal over the first bus line. The device also includes a second driver circuit configured to transmit a second output signal over a second bus line. | 06-09-2016 |
327271000 | Including delay line or charge transfer device | 2 |
20140070864 | CLOCK FEATHERED SLEW RATE CONTROL SYSTEM - A slew rate control circuit configured to control a slew rate of driver circuit comprises a clock delay module that receives a half-rate clock signal and that includes a plurality of delay cells configured to generate a plurality of respective delayed clock signals each having a different time delay from one another. A driver module includes a plurality of multiplexers in electrical communication with a respective data cell to receive a corresponding delayed clock signal. The multiplexers are configured to output a respective full-rate data stream in response to the delayed clock signal. The slew driver module further includes an output stage circuit in electrical communication with each multiplexer to combine each full-rate data stream and to generate a final step-wise driving signal that controls the slew rate. | 03-13-2014 |
20150358010 | STACKED SEMICONDUCTOR APPARATUS BEING ELECTRICALLY CONNECTED THROUGH THROUGH-VIA AND MONITORING METHOD - A semiconductor apparatus includes a plurality of stacked chips. Each of the plurality of stacked chips includes a delay chain. Each of the plurality of stacked chips comprises a plurality of Through-Vias, wherein one of the plurality of Through-Vias formed in a first one of the plurality of stacked chips and electrically coupled to a predetermined location of a first delay chain on the first one of the plurality of stacked chips and one of the plurality of Through-Vias formed in a neighboring one of the plurality of stacked chips and electrically coupled to a predetermined location of a delay chain on the neighboring one of the plurality of stacked chips are configured to electrically couple the first one of the plurality of stacked chips to the neighboring one of the plurality of stacked chips. A signal transmitted from a first one of the plurality of stacked chips generates a feedback signal to the first one of the plurality of stacked chips through one or more of the plurality of Through-Vias. | 12-10-2015 |
327272000 | Having specific active circuit element or structure(e.g., FET, complementary transistors, etc.) | 2 |
20110181333 | STACKED TRANSISTOR DELAY CIRCUIT AND METHOD OF OPERATION - A delay circuit and method of operation has a plurality of series-connected stages including a first stage and a last stage that provides the delayed signal. Each of the series-connected stages has a plurality of series-connected transistors having an outermost transistor and an innermost transistor and one or more or none of a plurality of intervening transistors. Each of the plurality of series-connected transistors is connected in series to a respective different load stack. An input signal that is coupled to the first stage is propagated repeatedly between the first stage, intervening stages if any, and a last stage. The first stage has a signal input, one or more feedback inputs, and at least two output terminals. | 07-28-2011 |
327273000 | With counter | 1 |
20120187996 | Very High Precision Device for Measuring the Time a Signal is Input - The invention provides a device including a binary pulse input signal converter, the output of which is connected to a counter and to a delay line that includes a plurality of delay elements. The counter and the delay line also receive a clock signal as an input. The delay line is combined with a sampler and analog memory that includes a plurality of storage cells that receive the input signal as input. Each element of the a delay line includes an output connected to a corresponding storage cell of the analog so as to sequentially control the sampling and storage of the input signal in the storage cells. | 07-26-2012 |