Differential Amplifier Patents (Class 327/274)
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Patent number: 11086353Abstract: A clock generator comprise a delta-sigma modulation, DSM, for generating a division control signal and a phase control signal, an oscillator, for generating an oscillation signal with a first frequency, an adjustable frequency divider, for performing a division operation on the oscillation signal according to the division control signal, to generate a first division signal and a second division signal with a second frequency, and a phase interpolator, PI, for performing a phase interpolation operation on the first and second division signals according to the phase control signal, to generate an output signal with an output frequency, wherein the first frequency is greater than the second frequency.Type: GrantFiled: October 12, 2018Date of Patent: August 10, 2021Assignee: Shenzhen Goodix Technology Co., Ltd.Inventors: Yen-Yin Huang, Jung-Yu Chang
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Patent number: 9647642Abstract: A clock generator comprises a voltage controlled oscillator including a ring oscillator which has a plurality of differential inverter circuits connected in a ring shape, and a phase controller to control an output of a differential inverter circuit which belongs to a second group, in a first state or a second state, for a predetermined time period. The differential inverter circuit which belongs to the second group is distinct from a differential inverter circuit which belongs to a first group. The differential inverter circuit which belongs to the second group, in the first state, outputs a first logic signal from a first differential output terminal and outputs a second logic signal from a second differential output terminal. Further, the differential inverter circuit which belongs to the second group, in the second state, outputs the second logic signal from the first differential output terminal and outputs the first logic signal from the second differential output terminal.Type: GrantFiled: July 27, 2015Date of Patent: May 9, 2017Assignee: MegaChips CorporationInventor: Hidetoshi Tsubota
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Patent number: 8942313Abstract: An open loop envelope tracking system calibration technique and circuitry are proposed. A radio frequency power amplifier receives a modulated signal. An envelope tracker power converter generates a modulated power amplifier supply voltage for the radio frequency power amplifier based on a control signal derived from the modulated signal. A first output power and a second output power of the radio frequency power amplifier are measured when the control signal is respectively delayed by a first delay period and a second delay period. A sensitivity of the output power of the radio frequency power amplifier is near a maximum near the first delay period and the second delay period. The first delay period and/or the second delay period are adjusted until the first output power substantially equals the second output power. The first delay period and the second delay period are used to obtain a calibrated fine tuning delay offset.Type: GrantFiled: February 7, 2012Date of Patent: January 27, 2015Assignee: RF Micro Devices, Inc.Inventors: Nadim Khlat, Karl Francis Horlander
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Patent number: 8797079Abstract: A differential delay line includes a series connection of a plurality of differential delay stages. Each differential delay stage includes a first delay element and a second delay element. The first delay element has a first input, a second input and an output. The second delay element has a first input, a second input and an output. The output of the first delay element of an n-th differential delay stage of the plurality of differential delay stages is coupled to an input of the second delay element of an (n+m)-th differential delay stage of the plurality of differential delay stages, wherein m is an even natural number larger than or equal to two.Type: GrantFiled: September 28, 2012Date of Patent: August 5, 2014Assignee: Intel Mobile Communications GmbHInventor: Markus Schimper
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Patent number: 8737450Abstract: High speed serial link techniques are provided. A system applying the high speed serial link technique comprises a relay unit and an amplifier. The relay unit receives a first pair of differential signals provided by a high speed transmitter of a first device, and provides the amplifier with at least one signal that is generated based on the first pair of differential signals. The amplifier amplifies and converts the signal provided by the relay unit to a second pair of differential signals to be received by a high speed receiver of a second device.Type: GrantFiled: August 31, 2009Date of Patent: May 27, 2014Assignee: Via Technologies, Inc.Inventor: Shun-Cheng Yang
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Patent number: 8295296Abstract: An HDMI cable carries high speed encoded data which are transmitted differentially over data channels, along with a clock. High-frequency loss and differential skew within a differential signal may be compensated by analog circuits embedded in the cable. These embedded circuits are tuned at production for best performance by observing the quality of the recovered analog signal. The embedded circuits are powered by a combination of power sources, both carried within the cable, and harvested from the high-speed signals themselves.Type: GrantFiled: July 18, 2007Date of Patent: October 23, 2012Assignee: Redmere Technology Ltd.Inventors: Aidan Gerard Keady, John Anthony Keane, Judith Ann Rea, Benjamin Griffin, John Martin Horan
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Patent number: 8254402Abstract: An HDMI cable carries high speed encoded data which are transmitted differentially over data channels, along with a clock. High-frequency loss and differential skew within a differential signal may be compensated by analog circuits embedded in the cable. These embedded circuits are tuned at production for best performance by observing the quality of the recovered analog signal. The embedded circuits are powered by a combination of power sources, both carried within the cable, and harvested from the high-speed signals themselves. Methods are provided for deskewing, equalizing, and boosting the differential signals in the embedded circuits that are mounted on a PCB.Type: GrantFiled: February 17, 2009Date of Patent: August 28, 2012Assignee: Remere Technology Ltd.Inventors: Aidan Gerard Keady, John Anthony Keane, Judith Ann Rea, Benjamin Griffin, John Martin Horan
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Patent number: 8248135Abstract: A circuit (10) includes a circuit input (12), a circuit output (16) and a one or more delay elements (22) positioned between the circuit input (12) and the circuit output (16). The delay elements (22) each include a differential input pair (234), a latch stage (236) and a delay controller (244A1, 244A2, 244B1, 244B2). The delay controller (244A1, 244A2, 244B1, 244B2) selectively apportions current between the differential input pair (234) and the latch stage (236) to achieve a desired delay value for the circuit (10). The circuit (10) can also include a feedback loop (18) that calibrates a DC offset of the delay elements (22). The delay elements (22) can include two or more sets of resistive loads (238A, 238B) and a rate controller (241). The rate controller (241) controls an on/off state of the resistive loads (238A, 238B) to selectively switch between full resistance and half resistance.Type: GrantFiled: January 15, 2010Date of Patent: August 21, 2012Assignee: Integrated Device Technology, Inc.Inventors: Yue Yu, Han Bi
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Patent number: 8089320Abstract: In one embodiment, the differential amplifier (DA) includes a first inverter inverting a first input signal and outputting the inverted first input signal to a current supply controller and a current drain controller. A second inverter inverts the first input signal and outputs the inverted first input signal as an output signal of the DA. The current supply controller supplies current to the first and second inverters in response to the inverted first input signal output from the first inverter during a first period. The current drain controller drains current from the first and second inverters in response to the inverted first input signal output from the first inverter during a second period. The output signal of the DA and the first input signal have differential phases with respect to each other and oscillate between logic high and low levels during the first period and the second period.Type: GrantFiled: January 8, 2010Date of Patent: January 3, 2012Assignee: Samsung Electronics Co., Ltd.Inventor: Chan-kyung Kim
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Patent number: 8072254Abstract: 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.Type: GrantFiled: May 6, 2011Date of Patent: December 6, 2011Assignee: Hynix Semiconductor Inc.Inventors: Taek-Sang Song, Kyung-Hoon Kim, Dae-Han Kwon
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Patent number: 7977994Abstract: A hybrid digital pulse width modulator (DPWM) with digital delay-locked loops (DLLs) is provided. In this implementation, the digital pulse-width-modulator is synthesizable and includes a digital delay-locked loop around a delay-line to achieve constant frequency clocked operation. In this implementation, the resolution of the modulator is consistent over a wide range of process or temperature variations. The DPWM may implement trailing-edge, leading-edge, triangular, or phase-shift modulation. In an implementation suitable for DC-DC converters with synchronous rectifiers, for example, the DPWM may include two or more outputs for programmable dead-times. In another implementation, a digital pulse-width-modulator with a digital phase-locked loop is also provided.Type: GrantFiled: June 13, 2008Date of Patent: July 12, 2011Assignee: The Regents of the University of Colorado, A Body CorporateInventors: Vahid Yousefzadeh, Anthony Carosa, Toru Takayama, Dragan Maksimovic
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Patent number: 7961026Abstract: 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.Type: GrantFiled: December 31, 2007Date of Patent: June 14, 2011Assignee: Hynix Semiconductor Inc.Inventors: Taek-Sang Song, Kyung-Hoon Kim, Dae-Han Kwon
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Patent number: 7884660Abstract: A programmable delay element, variable-length delay chain, and ring oscillator are disclosed. The programmable delay element performs phase interpolation of input signals in response to a control signal and can be used in combination with other delay elements to create a highly-modular, variable-length delay chain or ring oscillator. The ring oscillator can be used as part of a digitally-controlled oscillator (DCO) in a digital clock synthesizer to adjust the frequency and phase of a clock signal by fractional unit delay steps. Within the variable-length delay chain, some programmable delay elements can be configured to scale the delay-step of other programmable delay elements so that a plurality of step sizes can be implemented with identical delay elements. Also, variations of the delay chain generate in-phase and quadrature phase (I/Q) signals in either an end-tap or center-tap configuration.Type: GrantFiled: April 26, 2010Date of Patent: February 8, 2011Assignee: PMC-Sierra, Inc.Inventors: Jean-Francois Delage, Hormoz Djahanshahi, Guillaume Fortin
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Patent number: 7880521Abstract: A differential driver includes first and second pull-up resistors respectively connected to first and second output terminals, a plurality of differential-input transistor pairs connected each to the first and second output terminals, current sources connected each to the differential-input transistor pairs, and a slew rate controller adapted to generate differential input signals to be applied each to the differential-input transistor pairs in response to an input signal. The slew rate controller may output the differential input signals simultaneously or sequentially.Type: GrantFiled: August 2, 2007Date of Patent: February 1, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Hitoshi Okamura, Byung-Hyun Lim
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Patent number: 7787526Abstract: An interface circuit for a multi-differential embedded-clock channel for communicating data provides efficient utilization of the bandwidth of the channel. The interface circuit includes at least four first signals, at least four second signals, and a multi-differential amplifier. The multi-differential amplifier is coupled to the first and second signals. The multi-differential amplifier is adapted to generate the second signals by amplifying, for all combinations of two of the first signals, differential transitions between the two of the first signals. Each of a plurality of symbols of the data has a corresponding one of the differential transitions, and the differential transitions are serially communicated through the channel.Type: GrantFiled: July 12, 2005Date of Patent: August 31, 2010Inventor: James Ridenour McGee
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Patent number: 7733149Abstract: A programmable delay element, variable-length delay chain, and ring oscillator are disclosed. The programmable delay element performs phase interpolation of input signals in response to a control signal and can be used in combination with other delay elements to create a highly-modular, variable-length delay chain or ring oscillator. The ring oscillator can be used as part of a digitally-controlled oscillator (DCO) in a digital clock synthesizer to adjust the frequency and phase of a clock signal by fractional unit delay steps. Optionally, the programmable delay element utilizes current-mode logic (CML) and the control signal is a thermometer coded digital signal. Within the variable-length delay chain, some programmable delay elements can be configured to scale the delay-step of other programmable delay elements so that a plurality of step sizes can be implemented with identical delay elements.Type: GrantFiled: June 11, 2008Date of Patent: June 8, 2010Assignee: PMC-Sierra, Inc.Inventors: Jean-Francois Delage, Hormoz Djahanshahi, Guillaume Fortin
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Publication number: 20100019817Abstract: Current-controlled CMOS (C3MOS) fully differential integrated delay cell with variable delay and high bandwidth. A novel implementation includes a wideband differential transistor pair and a cross-coupled differential transistor pair. The wideband differential transistor pair can be implemented with appropriate input and output impedances to extend its bandwidth for use in broadband applications. These two stages, (1) buffer stage (or data amplifier stage) and (2) cross-coupled differential pair stage, are both very fast operating stages. This design does not incur any increased loading to previous or subsequent stages in a device. In addition, there is no increase in the total amount of current that is required.Type: ApplicationFiled: October 1, 2009Publication date: January 28, 2010Applicant: BROADCOM CORPORATIONInventor: Jun Cao
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Patent number: 7629856Abstract: A delay stage for a semiconductor device includes at least one delay branch and at least one controllable switching apparatus. The at least one controllable switching apparatus is configured to connect a predefined amount of the at least one delay branch to a supply voltage.Type: GrantFiled: October 27, 2006Date of Patent: December 8, 2009Assignee: Infineon Technologies AGInventor: Edwin Thaller
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Patent number: 7616070Abstract: Disclosed are multiphase oscillators comprising a plurality of delay stages serially coupled in a loop by a plurality of nodes, with the loop being folded to provide two concentric rings of delay stages with equal numbers of allocated nodes. A second plurality of negative-resistance elements are provided, each element having a first output coupled to a node on the first concentric ring and a second output coupled to a node on the second concentric ring. Each such output switches between first and second voltage levels, and provides a negative resistance to a signal coupled to it during at least a portion of the transition between voltage levels. The outputs of an element switch to opposite voltage levels. With this construction, a high-voltage pulse propagates around the loop of delay stages, with a low-voltage pulse propagating behind it. Also disclosed are circuits to control the direction of pulse propagation.Type: GrantFiled: November 5, 2007Date of Patent: November 10, 2009Assignee: Fujitsu LimitedInventors: Nestor Tzartzanis, William W. Walker
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Patent number: 7598788Abstract: Current-controlled CMOS (C3MOS) fully differential integrated delay cell with variable delay and high bandwidth. A novel implementation includes a wideband differential transistor pair and a cross-coupled differential transistor pair. The wideband differential transistor pair can be implemented with appropriate input and output impedances to extend its bandwidth for use in broadband applications. These two stages, (1) buffer stage (or data amplifier stage) and (2) cross-coupled differential pair stage, are both very fast operating stages. This design does not incur any increased loading to previous or subsequent stages in a device. In addition, there is no increase in the total amount of current that is required.Type: GrantFiled: December 28, 2005Date of Patent: October 6, 2009Assignee: Broadcom CorporationInventor: Jun Cao
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Patent number: 7541855Abstract: A current mode logic (CML) delay cell with linear rail-to-rail tuning range and constant output swing. The CML delay cell can include a tuning voltage input on a first and second transistor, contributing to a CML delay cell load, and a bias voltage input on a third transistor, as a current source I0, and a compensation circuit having switching point optimized inverters having a first plurality of transistors having a transconductance ?pN and a second plurality of transistors having a transconductance ?nN, wherein respective ratios of ?nN/?pN determine an inverter switching point of respective switching point optimized inverters, the first and second plurality of transistors having gates coupled to the tuning voltage input of the CML delay cell, wherein the switching point optimized inverters are followed by weighted tail current sources M0N that supply additional currents to the current source I0 at a drain node of the third transistor.Type: GrantFiled: May 21, 2008Date of Patent: June 2, 2009Assignee: International Business Machines CorporationInventors: Hayden C. Cranford, Jr., Marcel A. Kossel, Thomas E. Morf
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Patent number: 7521977Abstract: A voltage-controlled oscillator includes a plurality of variable delay circuits, wherein a first differential output signal of an adjacent previous stage is provided as a first differential input signal and a second differential output signal of a second previous stage is provided as a second differential input signal. Each variable delay circuit includes a loading circuit including first and second loading units, a first input circuit including first and second input transistors gated by the first differential input signal, a second input circuit including third and fourth input transistors gated by the second differential input signal, first and second current sources connected between a first common node and a second power source and in electrical parallel with each other, and third and fourth current sources connected between a second common node and the second power source and in electrical parallel with each other.Type: GrantFiled: July 12, 2007Date of Patent: April 21, 2009Assignee: TLI Inc.Inventor: Jae Gan Ko
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Patent number: 7498858Abstract: Embodiments of an interpolator system and method are disclosed. One embodiment of an interpolator system, among others, includes an interpolator having first and second output terminals providing output signals; a comparator coupled to the first and second output terminals and configured to detect a peak voltage level of the output signals and compare the peak voltage level with a reference voltage level; and an impedance element coupled to the comparator and the first and second output terminals, wherein the comparator is configured to provide a control signal to the impedance element to change the impedance of the impedance element to set a voltage variation of the output signals.Type: GrantFiled: November 1, 2004Date of Patent: March 3, 2009Assignee: Hewlett-Packard Development Company, L.P.Inventors: Jayen J. Desai, Bruce Doyle
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Patent number: 7477704Abstract: Methods and apparatuses for detecting digital signals in high speed signaling systems. In at least one embodiment, at least one received input signal is combined with a plurality of predetermined reference signals according to a plurality of prior digital signal output states to generate a signal for detecting a present digital signal output state. In one aspect of the invention, a method for determining a digital signal state in a differential signaling system includes: comparing a first differential input signal to a second differential input signal; determining a prior digital signal output state; comparing the first differential input signal to one of a first reference voltage and a second reference voltage; comparing the second differential input signal to one of the first reference voltage and the second reference voltage; and determining a present digital signal output state from the prior digital signal output state and from all of the comparisons.Type: GrantFiled: April 16, 2003Date of Patent: January 13, 2009Assignee: Apple Inc.Inventor: William Cornelius
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Patent number: 7403057Abstract: A current mode logic (CML) delay cell with linear rail-to-rail tuning range and constant output swing. The CML delay cell can include a tuning voltage input on a first and second transistor, contributing to a CML delay cell load, and a bias voltage input on a third transistor, as a current source I0, and a compensation circuit having switching point optimized inverters having a first plurality of transistors having a transconductance ?pN and a second plurality of transistors having a transconductance ?nN, wherein respective ratios of ?nN/?pN determine an inverter switching point of respective switching point optimized inverters, the first and second plurality of transistors having gates coupled to the tuning voltage input of the CML delay cell, wherein the switching point optimized inverters are followed by weighted tail current sources M0N that supply additional currents to the current source I0 at a drain node of the third transistor.Type: GrantFiled: November 6, 2006Date of Patent: July 22, 2008Assignee: International Business Machines CorporationInventors: Hayden C. Cranford, Jr., Marcel A. Kossel, Thomas E. Morf
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Patent number: 7385426Abstract: A buffer circuit (318) including a first half circuit and a second half circuit. Each half circuit includes a first MOS transistor (M4, M9) as the input device and a source follower, a second MOS transistor (M23, M22) as a transconductance amplifier device, and a third MOS transistor (M5, M8) as a folded cascode device. The first half circuit receives a buffer input voltage as the input voltage and the second half circuit receives a reference voltage as the input voltage. The first and second half circuits providing a pair of differential output signals indicative of the buffer input voltage. The buffer circuit has a very low input capacitance where the input capacitance does not vary with the buffer input voltage and other operating conditions, such as fabrication process, temperature and power supply voltage variations.Type: GrantFiled: February 26, 2007Date of Patent: June 10, 2008Assignee: National Semiconductor CorporationInventors: Jun Wan, Peter R. Holloway
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Patent number: 7355488Abstract: A differential amplifier circuit for use in a ring oscillator includes first and second MOS transistors to each source of which an operating power source voltage is applied, and which individually respond to first and second input signals with mutually contrary phases applied to gates thereof; cross-coupled first and second-stage transistors of which each drain-source channel is connected between each drain of the first and second MOS transistors and a ground voltage level; a first variable resistance, which is connected between a drain of the first MOS transistor cross-connected to a second gate of the cross-coupled second-stage transistors, and a first gate of the cross-coupled first-stage transistors, and which is controlled by the operating power source voltage applied to a gate thereof; and a second variable resistance, which is connected between a drain of the second MOS transistor cross-connected to a second gate of the cross-coupled first-stage transistors, and a first gate of the cross-coupled secondType: GrantFiled: June 15, 2006Date of Patent: April 8, 2008Assignee: Samsung Electronics Co., Ltd.Inventor: Kwang-Il Park
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Patent number: 7307483Abstract: Disclosed are multiphase oscillators comprising a plurality of delay stages serially coupled in a loop by a plurality of nodes, with the loop being folded to provide two concentric rings of delay stages with equal numbers of allocated nodes. A second plurality of negative-resistance elements are provided, each element having a first output coupled to a node on the first concentric ring and a second output coupled to a node on the second concentric ring. Each such output switches between first and second voltage levels, and provides a negative resistance to a signal coupled to it during at least a portion of the transition between voltage levels. The outputs of an element switch to opposite voltage levels. With this construction, a high-voltage pulse propagates around the loop of delay stages, with a low-voltage pulse propagating behind it. Also disclosed are circuits to control the direction of pulse propagation.Type: GrantFiled: February 3, 2006Date of Patent: December 11, 2007Assignee: Fujitsu LimitedInventors: Nestor Tzartzanis, William W. Walker
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Patent number: 7283596Abstract: A PAM-4 data slicer includes first, second, and third comparators which provide first, second, and third thresholds, respectively. Each of the comparators has an offset. The first and third comparators have an offset generating arrangement at their outputs to provide the first and third comparator circuits with symmetrical offsets.Type: GrantFiled: July 8, 2003Date of Patent: October 16, 2007Assignee: Avago Technologies General IP (Singapore) Pte LtdInventor: William W. Brown
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Patent number: 7202726Abstract: A voltage-controlled oscillator design is disclosed that provides greater tuning range than a prior art differential amplifier design using “varactor” diodes. The design employs CMOS capacitors to replace varactor diodes. The CMOS capacitors are formed from PMOS transistors in which the drain of the transistor is electrically connected to the source of the same transistor, so that voltage-dependant capacitors are formed between the gate-to-source terminals and the gate-to-drain terminals of the PMOS transistor. Secondly, the monolithic inductors employed in the prior art are replaced by “active” inductors: the combination of a resistor connected in series with the gate of an NMOS transistor, where the potential at the drain of the NMOS transistor is held below that of the second terminal of the resistor by at least the threshold, or turn-on voltage, of the transistor. The resistor/transistor combination acts inductively at the frequency of oscillation of interest.Type: GrantFiled: January 6, 2005Date of Patent: April 10, 2007Assignee: Sires Labs Sdn. Bhd.Inventors: Mohan Krishna Kunanayagam, Shubha Sharma
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Patent number: 7187248Abstract: A differential oscillator circuit, including an oscillator having a first side and a second side and bias circuitry for applying a bias voltage to the first and second sides of the oscillator wherein the bias circuitry is arranged such that, upon start-up, the bias voltage is not applied to the second side of the oscillator until after the first side of the oscillator by a delay period.Type: GrantFiled: February 17, 2005Date of Patent: March 6, 2007Assignee: Sony United Kingdom LimitedInventor: Peter Wardlow Shadwell
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Patent number: 7176737Abstract: A differential delay cell is provided herein that not only receives a pair of differential input values, but also receives a pair of differential control values for delaying the differential input values to produce a pair of differential output values. As such, a delay cell is provided, which is truly differential, and therefore, capable of demonstrating a significant improvement in noise performance. The differential delay cell of the present invention also demonstrates high frequency stability around the center frequency, constant gain and increased tuning range capabilities. In this manner, the differential delay cell may be used in PLL or DLL designs as part of a low noise VCO or a low noise delay line, respectively.Type: GrantFiled: June 25, 2004Date of Patent: February 13, 2007Assignee: Cypress Semiconductor Corp.Inventors: Michael P. Baker, Steven C. Meyers
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Patent number: 7148726Abstract: A delay circuit is provided with a plurality of variously sized equalization transistors, a plurality of equalization resistors having different resistance values, a plurality of equalization capacitors having difference capacitance values, and switch circuits. The switch circuits are used to make selections from among the equalization transistors, equalization resistors, and equalization capacitors for the purpose of adjusting the amplitude level and delay amount of a digital inverse signal.Type: GrantFiled: October 12, 2004Date of Patent: December 12, 2006Assignee: Mitsubishi Denki Kabushiki KaishaInventors: Toshihide Oka, Hironobu Ito
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Patent number: 7106142Abstract: A ring-type voltage-controlled oscillator with a good duty cycle for use in a PLL frequency synthesizer. The delay cell circuit used in the ring-type VCO comprises two first inverters, two resistance units, and a differential delay circuit. The inverters receive respective differential input signals and generate respective differential signals to resistance units. The differential delay circuit is coupled to the resistance units, generating differential output signals which are a delayed version of the differential input signals. The resistance units have a resistance value adjusted according to a resistance control voltage for controlling the strength of inverters so as to alter the time delay of the first and second differential output signals.Type: GrantFiled: January 3, 2005Date of Patent: September 12, 2006Assignee: Via Technologies Inc.Inventor: Yu-Hong Lin
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Patent number: 6967515Abstract: A circuit to provide a differential signal output in response to a single-ended signal input, the circuit allowing for a wide common-mode input signal by providing complementary amplifier structures.Type: GrantFiled: March 24, 2004Date of Patent: November 22, 2005Assignee: Intel CorporationInventors: Fabrice Paillet, David Rennie, Tanay Karnik, Jianping Xu
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Patent number: 6963251Abstract: A ring oscillator circuit, such as a VCO, with a relatively high level of noise rejection for noise originating from both the voltage supply and ground. The ring oscillator circuit is composed of a plurality of differential delay circuits, each differential delay circuit generating a differential output signal that is a delayed (and preferably inverted) version of a differential input signal. ‘Each differential delay circuit includes first and second input transistors for receiving the differential input signal. Each differential delay circuit also includes first and second load transistors coupled in parallel with the respective first and second input transistors. Each differential delay circuit further includes a first current source coupled between the first input transistor and a first power supply terminal (e.g.Type: GrantFiled: November 18, 2004Date of Patent: November 8, 2005Assignee: Broadcom CorporationInventor: Bin Liu
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Patent number: 6943608Abstract: A structure for a delay cell in a Voltage-Controlled Oscillators (VCO) and method for operating the delay cell. The delay cell comprises a latch and an impedance circuit (comprising resistance and capacitance elements). The impedance circuit electrically couples different nodes of the latch, a supply voltage, and ground. By adjusting the resistance of the impedance circuit, the time needed for the latch to switch states in response to the switching of an input coupled to the latch is adjusted accordingly. By choosing the appropriate nodes of the delay cell as input and output nodes of the delay cell, the delay time of the delay cell can be adjusted by adjusting the resistance of the impedance circuit. As a result, the operating frequency range of the VCO can be widened compared with prior art. Similar impedance circuits can be added to the delay cell to expand the operating frequency range of the VCO.Type: GrantFiled: December 1, 2003Date of Patent: September 13, 2005Assignee: International Business Machines CorporationInventor: Ram Kelkar
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Patent number: 6909316Abstract: Variable delay circuits and methods for delaying a waveform by an adjustable time delay are disclosed herein. One such variable delay circuit comprises a delay range limitation circuit having a first differential input, a first differential output, and a second differential output. The first differential input is configured to receive an input waveform. The first differential output is configured to output the waveform with a maximum delay, and the second differential output is configured to output the waveform with a minimum delay. The variable delay circuit further comprises a delay mixing circuit having second and third differential inputs, first and second control inputs, and a third differential output. The second differential input is connected to the first differential output. The third differential input is connected to the second differential output. The first and second control inputs are configured to receive control voltages V1 and V2, which are related to a selected time delay.Type: GrantFiled: February 21, 2003Date of Patent: June 21, 2005Assignee: Agilent Technologies, Inc.Inventors: Ronnie E. Owens, Barbara J. Duffner
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Patent number: 6888389Abstract: A digital control variable delay circuit includes n amplitude control units which are connected in parallel and each of which receives a pair of input clock signals to be supplied to a differential pair and receives m-bit digital control signals, and a waveform shaping unit which is connected to the outputs of the n amplitude control units. Each amplitude control unit is capable of varying the amplitude of each of the pair of clock signals into (m+1) values using the m-bit digital control signals, and outputs a pair of amplitude-varied clock signals. The waveform shaping unit receives a pair of added clock signals obtained by adding and combining the pairs of amplitude-varied clock signals outputted from the n amplitude control units and outputs a pair of resultant clock signals as output signals.Type: GrantFiled: September 11, 2003Date of Patent: May 3, 2005Assignee: NEC CorporationInventor: Mitsuo Baba
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Patent number: 6870415Abstract: A delay circuit generates delayed signals. The delay circuit includes a delay locked loop having an input terminal coupled to a periodic input signal, the delay locked loop generating one or more delayed periodic signals and a control signal for controlling the time delay between the periodic input signal and the delayed periodic signals. The delay circuit also includes a controlled delay circuit for generating one or more delayed periodic signals. The controlled delay circuit has an input terminal for receiving at least one of the delayed periodic signals from the delay locked loop and a delay control terminal coupled to the control signal from the delay locked loop for controlling the time delay between the delayed periodic input signal received from the delay locked loop and the one or more delayed periodic signals generated by the controlled delay circuit.Type: GrantFiled: September 12, 2002Date of Patent: March 22, 2005Assignee: Broadcom CorporationInventors: Bo Zhang, Guangming Yin
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Patent number: 6828866Abstract: A ring oscillator circuit, such as a VCO, with a relatively high level of noise rejection for noise originating from both the voltage supply and ground. The ring oscillator circuit is composed of a plurality of differential delay circuits, each differential delay circuit generating a differential output signal that is a delayed (and preferably inverted) version of a differential input signal. ‘Each differential delay circuit includes first and second input transistors for receiving the differential input signal. Each differential delay circuit also includes first and second load transistors coupled in parallel with the respective first and second input transistors. Each differential delay circuit further includes a first current source coupled between the first input transistor and a first power supply terminal (e.g.Type: GrantFiled: October 6, 2003Date of Patent: December 7, 2004Assignee: Broadcom CorporationInventor: Bin Liu
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Patent number: 6737901Abstract: A delay device has multiplexers connected in series in a differential configuration. First connections of the multiplexers are connected to the output of an upstream multiplexer. Second inputs of the multiplexers are connected to the input connection to which the signal that is to be delayed can be supplied. A control signal controls the switch position of one of the multiplexers such that its output is connected to the input of the delay device. All the other multiplexers are in the other switch position. This results in the delay device producing a specific delay time. When used in a delay control loop, this results in a jitter-free output signal, even if the operating conditions are fluctuating.Type: GrantFiled: October 8, 2002Date of Patent: May 18, 2004Assignee: Infineon Technologies AGInventors: Thomas Hein, Patrick Heyne
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Patent number: 6696897Abstract: A system and method are provided for controlling the phase of a voltage controlled oscillator output. The method comprises: accepting a plurality of VCO outputs coarsely differentiated by phase; selecting one of the VCO outputs; finely modifying the phase of the selected VCO output; and, supplying the phase modified VCO output. In one aspect, accepting VCO outputs coarsely differentiated by phase includes: accepting a first VCO output (I0); accepting a second VCO output (I1), differentiated approximately 90 degrees from the first VCO output; accepting a third VCO output (Q0), differentiated approximately 90 degrees from the second VCO output; and, accepting a fourth VCO output (Q1), differentiated approximately 90 degrees from the third VCO output. Finely modifying the phase of the selected VCO output includes modifying the selected VCO output in the range between +45 and −45 degrees. In one aspect, the output is modified in 16 discrete steps.Type: GrantFiled: August 14, 2002Date of Patent: February 24, 2004Assignee: Applied MicroCircuits Corp.Inventors: Shyang Kye Kong, Hongming An, Bruce Harrison Coy
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Patent number: 6677825Abstract: The ring oscillator circuit is made by connecting K units of inverter circuits U11, U12, . . . , U1K in a ring shape. The inverter circuit U11 comprises a CMOS inverter IV1 which includes MOS transistors MP4 and MN4, a P-channel MOS transistor MP3 which functions as the current source for a CMOS inverter IV1, an N-channel MOS transistor MN3 which functions as the current source for a CMOS inverter IV1, and a CMOS inverter IV2 which is connected in parallel to the CMOS inverter IV1 and includes MOS transistors MP5 and MN5.Type: GrantFiled: May 20, 2002Date of Patent: January 13, 2004Assignee: Seiko Epson CorporationInventor: Minoru Kozaki
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Patent number: 6657503Abstract: A ring oscillator circuit, such as a VCO, with a relatively high level of noise rejection for noise originating from both the voltage supply and ground. The ring oscillator circuit is composed of a plurality of differential delay circuits, each differential delay circuit generating a differential output signal that is a delayed (and preferably inverted) version of a differential input signal. Each differential delay circuit includes first and second input transistors for receiving the differential input signal. Each differential delay circuit also includes first and second load transistors coupled in parallel with the respective first and second input transistors. Each differential delay circuit further includes a first current source coupled between the first input transistor and a first power supply terminal (e.g.Type: GrantFiled: April 25, 2002Date of Patent: December 2, 2003Assignee: Broadcom CorporationInventor: Bin Liu
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Patent number: 6642761Abstract: A particular wide band interface circuit provides an interface between a very fast slope clock signal input and a very slow slope voltage controlled delay cell of a delay lock loop. The invention generates the internal clock signal to track the slope of each delay stage, whether it is a higher frequency for which the slope of the delay stage is faster or a lower frequency for which the slope of the delay stage is slower. The integrated circuit includes a voltage bias portion, an analog clock input portion, circuit devices for interfacing with clock frequency inputs over all the available frequency range, and an output portion for producing clock signals. The invention applies to the multiple delay stages of a delay lock loop.Type: GrantFiled: May 30, 2002Date of Patent: November 4, 2003Assignee: Etron Technology, Inc.Inventor: Li-Chin Tien
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Patent number: 6535070Abstract: The variable frequency oscillator is capable of operation at a low power supply voltage and oscillating at a high frequency. A phase locked loop and a clock synchronizer use the variable frequency oscillator and have a wide oscillation frequency range. The variable frequency oscillator has plural delay cells which are cascaded and the output of the final stage delay cell is fed back to the input of the first stage delay cell. Each of the delay cells includes a differential amplifier and a positive feedback circuit, connected with input and output terminals intersecting with each other. The feedback circuit has complementary amplifiers each having an input terminal formed by connecting together gates of a pMOS and an nMOS transistor and an output terminal formed by connecting together the drains thereof.Type: GrantFiled: January 5, 2001Date of Patent: March 18, 2003Assignee: Hitachi, Ltd.Inventors: Changku Hwang, Masaru Kokubo
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Patent number: 6512420Abstract: A variable frequency oscillator provides an output frequency that is adjustable by selectively combining different delay signals from separate signal paths. The present invention's oscillator includes first and second differential signal paths, each exhibiting a different time delay or “phase.” Each signal path includes a series coupling of multiple delay elements, where each delay element comprises a single differential amplifier transistor pair. Each signal path's delay is established by setting the biasing and geometry of the signal paths' differential amplifier transistor pairs. A combiner, separately coupled to each signal path, selectively combines signals from the paths to provide a representative output. This output is also fed back as input to both signal paths. As an example, the combiner may be provided by two non-nested differential amplifier transistor pairs.Type: GrantFiled: April 12, 2000Date of Patent: January 28, 2003Assignee: Applied Mirco Circuits CorporationInventors: Mehmet M Eker, Thomas Bryan
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Patent number: 6501317Abstract: A delay circuit is provided for use in a ring oscillator of a phase locked loop (PLL). The delay circuit includes a differential pair of NMOS transistors 102 and 103 with an NMOS transistor 101 providing the tail current for the differential pair. Complementary NMOS and PMOS load transistors 104,106 and 105, 107 provide loads for the differential transistor 102 and 103. Transistors 111-114 and 121-122 together with an amplifier 130 provide biasing for the delay device. The amplifier 130 has a non-inverting input set to VDD−VCLAMP. As configured, a constant output voltage swing from VDD to VDD−VCLAMP is provided at the outputs VOUT+ and VOUT− of the delay device, independent of a control voltage VCTL used to set the tail current. The NMOS load transistor 104, as opposed to the PMOS transistor 4 in FIG. 1, does not contribute to the gate parasitic capacitance enabling a high operation speed without consumption of more supply current.Type: GrantFiled: April 6, 2001Date of Patent: December 31, 2002Assignee: Elantec Semiconductor, Inc.Inventors: Xijian Lin, Barry Harvey, Alexander Fairgrieve
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Publication number: 20020175729Abstract: A high performance differential delay circuit for is revealed. The delay unit may be used in a variety of circuits requiring delay units, including voltage-controlled oscillators, voltage controlled delay lines, delay locked loops, phase accumulators, phase locked loops, and direct frequency syntheses. The circuit is desirably manufactured at one time with CMOS technology, and is therefore relatively immune to temperature changes, manufacturing process variations, input voltage fluctuations, and frequency ranges. The circuit achieves its goals by using a minimum number of transistors, and takes advantage of CMOS manufacturing techniques by balancing the NMOS and PMOS transistors used.Type: ApplicationFiled: May 25, 2001Publication date: November 28, 2002Applicant: Infineon Technologies North America Corp.Inventor: Sasan Cyrusian