Class / Patent application number | Description | Number of patent applications / Date published |
327149000 | With variable delay means | 39 |
20080204091 | Semiconductor chip package and method for fabricating semiconductor chip - A semiconductor chip package and a semiconductor chip fabricating method are provided. A semiconductor chip package comprises at least two semiconductor chips having a stacked configuration, the semiconductor chips at least one of: sharing DC signals of DC generating circuits provided by one of the semiconductor chips; and sharing a DLL clock signal of a DLL circuit provided by the semiconductor chip having the DC generating circuits or provided by another semiconductor chip. Power consumption can be reduced, and sharing a DLL clock is valid. In addition, a stabilized DC supply can be guaranteed and an increase for level trimming range and productivity can be improved. | 08-28-2008 |
20080238502 | Delay cell and phase locked loop using the same - A phase locked loop that generates an internal clock by controlling a delay time of a delay cell according to conditions of PVT, thereby improving a jitter characteristic of the internal clock. The delay cell includes a first current controller for controlling first and second currents in response to a control voltage, and a second current controller for controlling the first and second currents in response to frequency range selection signals. The phase locked loop includes a phase comparator for comparing a reference clock with a feedback clock, a control voltage generator for generating a control voltage corresponding to an output of the phase comparator, and a voltage controlled oscillator for generating an internal clock having a frequency in response to the control voltage and one or more frequency range control signals, wherein the feedback clock is generated using the internal clock. | 10-02-2008 |
20080284475 | Semiconductor device having delay locked loop and method for driving the same - A delay locked loop includes: a control voltage generator configured to generate a voltage control signal having a voltage level corresponding to a phase difference between an external clock and a feedback clock; a voltage controlled delay line configured to generate a plurality of output signals by reflecting a different delay time on the external clock in response to the voltage control signal; an internal clock multiplexer configured to output one of the plurality of output signals as an internal clock in response to a skew information signal; a delay replica model configured to output the feedback clock by reflecting a delay of an actual clock/data path on the internal clock; and a skew information signal generator configured to generate the skew information signal. | 11-20-2008 |
20090066379 | Delay Stage-Interweaved Analog DLL/PLL - A methodology is disclosed that enables the delay stages of an analog delay locked loop (DLL) or phase locked loop (PLL) to be programmed according to the operating condition, which may depend on the frequency of the input reference clock. The resulting optimized delay stages allow for a broad frequency range of operation, fast locking time over a wide range of input clock frequencies, and a lower current consumption at high clock frequencies. Better performance is achieved by allowing the number of analog delay stages active during a given operation to be flexibly set. The deactivation or turning off of unused delay stages conserves power at higher frequencies. The high frequency range of operation is increased by using a flexible number of delay stages for various input clock frequencies. Because of the rules governing abstracts, this abstract should not be used to construe the claims. | 03-12-2009 |
20090079477 | DATA DRIVER CIRCUIT AND DELAY- LOCKED LOOP - A data driver circuit and a delay-locked loop (DLL) are provided. The data driver circuit and DLL can operate normally in spite of errors, etc., caused when an analog data signal is applied to a display panel. The DLL, which receives a first clock signal and outputs a second clock signal, includes a phase detector for outputting a phase difference signal according to the first clock signal, the second clock signal and at least one delay signal, and a delay line for generating the second clock signal and the delay signal by delaying the first clock signal. Here, the phase difference signal has a value corresponding to a phase difference between the first clock signal and the second clock signal, according to the first clock signal or the second clock signal, and a value corresponding to a case in which there is no phase difference according to the delay signal, and a first delay that is a delay of the second clock signal with respect to the first clock signal changes according to the phase difference signal. | 03-26-2009 |
20090102523 | LINEAR DIGITAL PHASE INTERPOLATOR AND SEMI-DIGITAL DELAY LOCKED LOOP (DLL) - Provided are a digital phase interpolator, which performs linear phase interpolation irrelevantly to input order of two input signals, and a semi-digital delay locked loop (DLL), which includes and controls the same. The phase interpolator includes: a first clocked inverter controlled by a phase indicating signal and providing a first output signal to a common output terminal by inverting a first input signal, and a second clocked inverter controlled by the phase indicating signal and providing a second output signal to the common output terminal by inverting the second input signal. The second clocked inverter is clocked by the first input signal when the phase indicating signal is in a first logic state, and the first clocked inverter is clocked by the second input signal when the phase indicating signal is in a second logic state. The phase indicating signal indicates a lead/lag phase relationship between the first and second input signals and is generated in a controller of a circuit of the semi-digital DLL. | 04-23-2009 |
20090115471 | DELAY LOCKED LOOP AND OPERATING METHOD THEREOF - A delay locked loop (DLL) includes a delay-locking unit configured to generate first and second delay clocks corresponding to first and second clock edges of a reference clock for achieving a delay-locking; a phase detection unit configured to detect a phase difference between the first and second delay clocks to output a weight selection signal; a weight storage unit configured to store the weight selection signal obtained during a predetermined period from a point of time when the first and second delay clocks are delay locked; and a phase mixing unit configured to mix phases of the first and second delay clocks to output a DLL clock by applying a weight corresponding to the stored weight selection signal in the weight storage unit. | 05-07-2009 |
20090121757 | DATA CENTER TRACKING CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT INCLUDING THE SAME - A data center tracking circuit includes a clock tree, a sensing block, and a delay compensation block. The clock tree includes a plurality of clock buffers connected in series, buffers a clock, and outputs an output signal. The sensing block senses the phase change of the output signal on the basis of the clock, and outputs a sensing signal. The delay compensation block adjusts current to be supplied to the clock tree in response to the sensing signal, and adjusts the phase of the output signal. | 05-14-2009 |
20090128201 | CLOCK GENERATORS AND CLOCK GENERATION METHODS THEREOF - Clock generators are provided. A phase locked loop generates an output clock, a delay line is coupled to an input of the phase locked loop, and a modulation unit integrates an input signal with a constant level to generate a modulation signal controlling the delay line, thereby modulating a phase of a first input clock of the phase locked loop, such that frequency of the output clock is locked at a desired frequency. | 05-21-2009 |
20090167379 | Method and Apparatus for Digital VCDL Startup - Methods and apparatus are provided fox improved startup of a voltage controlled delay loop that has an injection clock and a return clock. A control signal is determined for a plurality of delay elements in a voltage controlled delay loop by obtaining a histogram count of a number of occurrences of at least one predefined logic value for a plurality of delay settings of the voltage controlled delay loop; determining a histogram count that approximately corresponds to an alignment of at least one edge in the injection and return clocks; and determining the control signal based on the determined histogram count that approximately corresponds to the alignment. The control signal can be, for example, a delay control current or a delay control voltage. The voltage controlled delay loop can be started using the determined control signal. The histogram count can be obtained for a plurality of PVT combinations and the control signal can then be determined for each PVT combination. The determined control signal can optionally be stored in a table for each of the plurality of PVT combinations | 07-02-2009 |
20090278578 | DELAY LOCKED LOOP CIRCUIT AND DELAY LOCKING METHOD - A delay locked loop circuit includes a phase detecting unit for detecting a phase difference between a reference clock signal and a feedback clock signal, and for producing a phase difference detection signal, a code generating unit for producing a digital code signal according to the phase difference detection signal, a control current generating unit for generating a control current using the digital code signal, and a current controlled delay line for producing the feedback clock signal by delaying the reference clock signal by a delay time varied by the control current. | 11-12-2009 |
20090309637 | DELAY LINE OFF-STATE CONTROL WITH POWER REDUCTION - A method and apparatus is provided for controlling a delay line for achieving power reduction. The device comprises a delay lock loop to provide an output signal based upon a phase difference between a reference signal and a feedback signal, said delay lock loop comprising at least one delay circuit comprising a plurality of logic gates configured to provide for substantially uniform degradation of a plurality of NAND gates in a static state. | 12-17-2009 |
20100013530 | DLL-Based Multiplase Clock Generator - The present invention relates to a delay-locked loop-based multiphase clock generator that generates a plurality of multiphase clocks from an input clock signal using a voltage controlled delay line including a plurality of dummy cells. The delay-locked loop-based multiphase clock generator includes an anti-harmonic lock circuit that receives an input clock and a reference clock of multiple clocks, determines whether a pulse signal derived from the input clock is within a normal locking range of the reference clock, and outputs a compulsory control signal to compulsorily control an output signal of a phase detector if it is determined that the pulse signal is not within the normal locking range. | 01-21-2010 |
20100039148 | APPARATUS AND METHOD FOR MODELING COARSE STEPSIZE DELAY ELEMENT AND DELAY LOCKED LOOP USING SAME - A reference circuit and method for mitigating switching jitter and delay-locked loop (DLL) using same are provided. The reference circuit and method determine a number of steps of a fine delay line (FDL) that are equivalent to a step of a coarse delay line (CDL). Switching jitter of the DLL is reduced since the delay of the step of the CDL that is switched when on an underflow or overflow condition of the FDL is detected is equivalent to the delay of the provided number of steps of the FDL. | 02-18-2010 |
20100052745 | DELAY LOCKED LOOP CIRCUIT - A delay locked loop circuit includes a delay locking unit configured to output a first internal clock and a second internal clock, a rising edge of which is synchronized with that of the first internal clock by delaying a compensated external clock for compensating a skew of a semiconductor memory device; a duty ratio compensation unit configured to generate the compensated external clock by compensating a duty ratio of an external clock of the semiconductor memory device and to compensate duty ratios of the first and second internal clocks; and a clock control unit configured to control an activation state of the second internal clock after the duty ratio compensation of the external clock. | 03-04-2010 |
20100123489 | PROCESS INSENSITIVE DELAY LINE - A delay line including a phase detector having two inputs and one output. The first input of the phase detector is connected to an input of the delay line. The second input of the phase detector is connected to an output of the delay line. The output of the phase detector is connected to a control circuit which controls current flow at a control node to produce a control voltage at the node. A voltage-controlled delay unit is responsible to the control voltage to control a delay applied to a signal at an input of the delay line. | 05-20-2010 |
20100164566 | DELAY LOCKED LOOP CIRCUIT AND OPERATIONAL METHOD THEREOF - A delay locked loop circuit includes a clock buffering block to generate first and second internal clocks corresponding to first and second edges of a source clock in response to a clock buffering control signal, respectively, wherein generation of the second internal clock is controlled by a duty correcting operation terminating signal and a delay locking signal, a delay locking block to compare phases of the first and second internal clocks with those of first and second feedback clocks, respectively, to enable the delay locking signal according to a delay locking and delay the first and second internal clocks as many as times corresponding to the comparison results, respectively, thereby outputting first and second delay locking clocks, a duty correcting block to mix phases of the first and second delay locking clocks, and a first signal generating block to generate the duty correcting operation terminating signal. | 07-01-2010 |
20100237914 | CLOCK DISTRIBUTION DEVICE AND CLOCK DISTRIBUTION METHOD - A clock distribution device to an exemplary aspect of the invention includes: a first clock output unit outputting a first clock synchronized to a reference clock; a second clock output unit outputting a second clock synchronized to the reference clock; a first clock distribution unit including a first branch point, branching the first clock at the first branch point and outputting a third clock; a second clock distribution unit including a second branch point, branching the second clock at the second branch point and outputting a fourth clock; and a phase difference detecting unit detecting a first phase difference between a phase of the third clock and a phase of the fourth clock, and the second clock output unit controls a second phase difference between a phase of the first clock and a phase of the second clock so that the first phase difference is reduced. | 09-23-2010 |
20100237915 | METHOD AND APPARATUS FOR DIGITAL VCDL STARTUP - Methods and apparatus are provided for improved startup of a voltage controlled delay loop that has an injection clock and a return clock. A control signal is determined for a plurality of delay elements in a voltage controlled delay loop by obtaining a histogram count of a number of occurrences of at least one predefined logic value for a plurality of delay settings of the voltage controlled delay loop; determining a histogram count that approximately corresponds to an alignment of at least one edge in the injection and return clocks; and determining the control signal based on the determined histogram count that approximately corresponds to the alignment. The voltage controlled delay loop can be started using the deter wined control signal. The histogram count can be obtained for a plurality of PVT combinations and the control signal can then be determined for each PVT combination. | 09-23-2010 |
20100237916 | DELAY LOCKED LOOP WITH FREQUENCY CONTROL - Some embodiments include a delay line configured to apply a delay to an input signal to provide an output signal; an input circuit configured to provide the input signal based on a first signal, such that the cycle time of the input signal is different from a cycle time of the first signal; an output circuit configured to provide a second signal based on the output signal, the second signal having a cycle time different from a cycle time of the output signal; and a controller configured to adjust the delay to control a timing relationship between the first signal and the second signal. Other embodiments are described and claimed. | 09-23-2010 |
20100271087 | DELAY LOCKED LOOP AND OPERATING METHOD THEREOF - A delay locked loop (DLL) includes a delay-locking unit configured to generate first and second delay clocks corresponding to first and second clock edges of a reference clock for achieving a delay-locking; a phase detection unit configured to detect a phase difference between the first and second delay clocks to output a weight selection signal; a weight storage unit configured to store the weight selection signal obtained during a predetermined period from a point of time when the first and second delay clocks are delay locked; and a phase mixing unit configured to mix phases of the first and second delay clocks to output a DLL clock by applying a weight corresponding to the stored weight selection signal in the weight storage unit. | 10-28-2010 |
20100295585 | SEMICONDUCTOR INTEGRATED CIRCUIT - The semiconductor integrated circuit includes a clock generating section having a digital control signal generating part operable to generate a clock signal and a digital control part. The clock generating section further includes a phase-frequency comparator and a control register. The comparator is supplied with a reference signal CLK | 11-25-2010 |
20110025384 | DEVICE FOR GENERATING CLOCK IN SEMICONDUCTOR INTEGRATED CIRCUIT - Various embodiments of a semiconductor integrated circuit. According to one exemplary embodiment, a semiconductor integrated circuit includes a multi-phase clock generator that is configured to generate a multi-phase internal clock; a first edge combining unit that is configured to generate a first output clock having a first frequency by combining rising edges of clocks included in the internal clock, and transmit the first output clock to a first port; and a second edge combining unit that is configured to generate a second output clock having a second frequency by combining rising edges of clocks included in the internal clock, and transmit the output clock to a second port. | 02-03-2011 |
20110102029 | DELAY LINES, METHODS FOR DELAYING A SIGNAL, AND DELAY LOCK LOOPS - Locked loops, delay lines and methods for delaying signals are disclosed, such as a delay line and delay lock loop using the delay line includes a series of delay stages, each of which consists of a single inverting delay device. The inputs and outputs of a selected stage are applied to a phase inverter that inverts one of the signals and applies it to a first input of a phase mixer with the same delay that the other signal is applied to a second input of the phase inverter. The delay of the signals from the selected delay element are delayed from each other by a coarse delay interval, and the phase mixer interpolates within the coarse delay interval by fine delay intervals. A phase detector compares the timing of a signal generated by the phase interpolator to the timing of a reference clock signal applied to the delay line to determine the selected delay stage and a phase interpolation value. | 05-05-2011 |
20110285432 | CLOCK DATA RESTORATION DEVICE - A clock data restoration device | 11-24-2011 |
20110298504 | CLOCK GENERATOR AND METHODS USING CLOSED LOOP DUTY CYCLE CORRECTION - Closed-loop duty-cycle correctors (DCCs), clock generators, memory devices, systems, and methods for generating an output clock signal having a particular duty cycle are provided, such as clock generators configured to generate an output clock signal synchronized with a received input clock signal having a predetermined duty cycle. Embodiments of clock generators include closed-loop duty cycle correctors that receive an already-controlled and corrected output signal. For example, DLL control circuitry and DCC control circuitry may each adjust a delay of a variable delay line. The DLL control circuitry adjusts the delay such that an output clock signal is synchronized with an input clock signal. The DCC control circuitry detects a duty cycle error in the output clock signal and adjusts the delay of the variable delay line to achieve a duty cycle corrected output signal. By detecting the duty cycle error in the output signal, the clock generator may achieve improved performance that can correct accumulated duty cycle error and correct for duty cycle error introduced by the duty cycle corrector itself in some embodiments. | 12-08-2011 |
20120268176 | CIRCUIT AND METHOD FOR GENERATING MULTIPHASE CLOCK SIGNALS AND CORRESPONDING INDICATION SIGNALS - A circuit for generating multiphase clock signals and corresponding indication signals is provided. The circuit includes a multiphase clock generation circuit, a DLL circuit, a timing circuit, and a phase comparison circuit. The multiphase clock generation circuit receives an external clock to provide a plurality of first clock signals, phases of which differ from one another. The DLL circuit receives the external clock signal to provide a second clock signal. The timing circuit receives the second clock signal and a comparison signal to provide a plurality of indication signals. Each of the plurality of indication signals has rising edges which lead the rising edges of a corresponding one of the first clock signals. The phase comparison provides the comparison signal if a delayed phase of the corresponding one of the indication signals is within a phase of one of the first clock signals. | 10-25-2012 |
20120306551 | CIRCUIT AND METHOD FOR PREVENTING FALSE LOCK AND DELAY LOCKED LOOP USING THE SAME - The present invention relates to a false lock prevention circuit and method which is used to cause a delayed locked loop (DLL) to escape from false lock such as harmonic lock or stuck lock, when the false lock occurred in the DLL, and a DLL using the same. The false lock prevention circuit includes a harmonic lock detector configured to detect harmonic lock and a stuck lock detector configured to detect stuck lock. The harmonic lock detector includes a plurality of flip-flops configured to sample a plurality of delayed clocks and a logic unit. The harmonic lock detector compares a reference clock signal with the plurality of delayed clock signals, and detects whether or not the positive edges deviate from one cycle of the reference clock signal. | 12-06-2012 |
20120319747 | PHASE-LOCKED LOOP LOCK DETECT - Apparatus and methods for detecting a lock in a phase-locked loop (PLL) are disclosed. In one aspect, a lock detect component includes a reference multiplier and a lock detect. The reference multiplier can receive a reference signal, a divider signal, and a voltage-controlled oscillator (VCO) output generated by a VCO in a PLL from which the divider signal is generated. The reference multiplier can also generate a multiplied reference signal using the reference signal and the VCO output. The multiplied reference signal can have a frequency that is an integer multiple of a frequency of the reference signal. The lock detect can detect a phase lock of the reference signal and the divider signal based at least in part on comparing a signal generated from a delayed reference signal and a signal generated from a delayed divider signal for a predetermined period of time. | 12-20-2012 |
20130038363 | DELAY LOCKED LOOP - A delay locked loop includes a delay adjusting unit configured to delay a first clock signal in outputting a second clock signal phase-locked with the first clock signal and generate a delay control signal in response to the first clock signal and the second clock signal and a variable delay line configured to output a third clock signal by delaying the first clock signal in response to the delay control signal. | 02-14-2013 |
20130043916 | Wave Clocking - Embodiments provide systems and methods for dynamically regulating the clock frequency of an integrated circuit (IC) based on the IC supply voltage. By doing so, the clock frequency is no longer constrained by a worst-case voltage level, and a higher effective clock frequency can be supported, increasing the IC performance. Embodiments include a wave clocking system which uses a plurality of delay chains configured to match substantially the delays of respective logic paths of the IC. As the delays of the logic paths vary with supply voltage and temperature changes, the delay chains matched to the logic paths experience substantially similar changes and are used to regulate the clock frequency of the IC. | 02-21-2013 |
20130099837 | PHASE MIXER AND DELAY LOCKED LOOP INCLUDING THE SAME - A phase mixer includes a first driver configured to drive a first input signal to a mixing node with a driving force determined by a first setting value, a second driver configured to drive a second input signal to the mixing node with a driving force determined by a second setting value, and a slew rate control unit configured to control a slew rate at the mixing node. | 04-25-2013 |
20140002149 | CLOCK GENERATION CIRCUIT AND SEMICONDUCTOR APPARATUS INCLUDING THE SAME | 01-02-2014 |
20140097877 | SIGNAL FLOW CONTROL THROUGH CLOCK SIGNAL RATE ADJUSTMENTS - Control circuitry and adjustable clock signal generation circuitry is provided to control the signal transmission rate for electronic devices and systems of electronic devices. The control circuitry may receive status signals indicating current clock rates of a signal transmitting and receiving circuit as well as current processing capacity from the signal receiving circuit. The control circuitry may then generate control signals which control adjustable clock signal generation circuitry. The adjustable clock signal generation circuitry may be used to adjust the rate of generated clock signals for the signal transmitting and receiving circuits which can increase or decrease the signal transmission rate between those circuits. | 04-10-2014 |
20140118038 | PHASE CALIBRATION DEVICE AND PHASE CALIBRATION METHOD - A phase calibration device comprises: an oscillator for generating a reference clock; a phase-lock-loop for generating an input clock by the reference clock; a multiphase clock generator for generating a plurality of output clocks by the input clock; a selector for selecting one of the output clocks as an operation clock; an analog-to-digital convertor for performing analog-to-digital conversion to input data by the operation clock to generate a conversion result; a control circuit for generating parameters according to the conversion result and controlling the selector to do selection; and a phase calibration circuit for outputting a calibration signal and the input clock of the phase-lock-loop to the multiphase clock generator after restarting the phase-lock-loop, so that the multiphase clock generator can correctly regenerate the output clocks by the calibration signal and the input clock, and then the control circuit controls the selector to do selection by the parameters. | 05-01-2014 |
20140266336 | CLOCK SIGNAL TIMING-BASED NOISE SUPPRESSION - A method includes generating one of a first clock signal and a second clock signal from the other clock signal. The first clock signal is configured to be used to synchronize an operation of an analog system, and the second clock signal is configured to be used to synchronize an operation of a digital system. The method includes using a phase detector of the analog system to measure a timing of the first clock signal relative to the second clock signal; and the method includes controlling a delay element of the digital system to regulate the timing based on the measurement by the phase detector to suppress noise in the analog system. | 09-18-2014 |
20160013798 | OUTPUT CIRCUIT | 01-14-2016 |
20160049946 | ALL DIGITAL PHASE LOCKED LOOP WITH CONFIGURABLE MULTIPLIER HAVING A SELECTABLE BIT SIZE - An all digital phase locked loop comprises a time-to-digital converter and a configurable multiplier. The time-to-digital converter is configured to output a digital code based on a phase difference between a reference clock signal and a variable clock signal. The configurable multiplier is coupled with the time-to-digital converter. The configurable multiplier has a selectable bit size. The selectable bit size is based on a defined minimum number of bits to obtain a reciprocal of a variable clock period. The minimum number of bits is based on a comparison of a first number of bits of a divisor with a second number of bits of a quotient. The time-to-digital converter is configured to multiply the digital code by the reciprocal of the variable clock period to output a fractional error correction value. | 02-18-2016 |
20160182063 | DELAY LOCKED LOOP CIRCUIT | 06-23-2016 |