| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 331046000 | PLURAL OSCILLATORS | 74 |
| 20130038397 | OSCILLATION DEVICE - An oscillation device for reducing memory capacity includes a frequency difference detecting unit and a compensation value obtaining unit. When oscillation frequencies of the first and second oscillation circuits are respectively f | 02-14-2013 |
| 20090189702 | CIRCUIT AND METHOD FOR DETECTING A VOLTAGE CHANGE - A circuit arrangement for detecting voltage changes, comprising supply terminals configured to apply a first potential and a second potential, a first oscillator and a second oscillator, which are operated with the first potential and the second potential, a voltage dependence of the frequency of the first oscillator differing from a voltage dependence of the frequency of the second oscillator, a first evaluation circuit configured to evaluate the frequency of the first oscillator and a second evaluation circuit configured to evaluate the frequency of the second oscillator, and a comparison circuit configured to compare a value based on the evaluated frequencies of the first oscillator and of the second oscillator with a predetermined threshold value, and to output a voltage change signal indicating an impermissible voltage change between the first potential and the second potential depending on the result of the comparison. | 07-30-2009 |
| 20110169579 | METHOD AND APPARATUS FOR INCREASING DISTRIBUTION OF JITTER WITHIN A RANDOM NUMBER GENERATOR - A random number generator comprises a first high frequency (HF) oscillator, a second low frequency (LF) oscillator, a delay buffer, a multiplexer, and a sampling circuit. The HF oscillator generates a high frequency oscillating signal. The LF oscillator generates a low frequency oscillating signal. The multiplexer selects from the LF oscillating signal and one or more delayed version of the LF oscillating signal to generate a third oscillating signal. The third oscillating signal is then used to sample the HF oscillating signal to output a random bit stream. In one preferred embodiment, the random bit stream is feedback to the multiplexer to make randomized selection. As a result, the original jitter distribution of the LF oscillating signal is increased to a larger jitter distribution of the third oscillating signal to increase the random behavior of the output bit stream. | 07-14-2011 |
| 20090289727 | OSCILLATOR FOR GENERATING DIFFERENT OSCILLATIONS - An oscillator is provided that includes a first oscillation generating device for generating an oscillation in response to an excitation signal, whereby the first oscillation generating device has a first terminal and a second terminal; a second oscillation generating device for generating an oscillation in response to an excitation signal, whereby the second oscillation generating device has a third terminal and a fourth terminal; an excitation device, which is formed in a first mode to apply an excitation signal between the first and second terminal of the first oscillation generating device, and in the first mode to apply the excitation signal between the third terminal and the fourth terminal of the second oscillation generating device to obtain a first oscillation with a first characteristic value, and in a second mode to apply an excitation signal between the first terminal of the first oscillation generating device and the third terminal of the second oscillation generating device and in the second mode to apply the excitation signal between the second terminal of the first oscillation generating device and the fourth terminal of the second oscillation generating device to obtain a second oscillation with a second characteristic value. | 11-26-2009 |
| 20090140819 | POWER MONITORING DEVICE AND METHODS THEREOF - To determine performance degradation at functional module in a normal power state due to a power control device, voltages are applied to oscillators at a power diagnostic module. A first voltage is a supply voltage for the data processing device, and a second voltage is a supply voltage applied at a functional module of the data processing device. Counters are adjusted based on the oscillators to determine the oscillators' respective frequencies. In addition, the power diagnostic module can include a timer to measure the length of time that the functional module is in a low-power state, and an analog to digital converter to measure the voltage applied to the functional module during transitions to and from the low-power state. | 06-04-2009 |
| 20100188157 | ELECTRONIC CIRCUIT - This invention makes it possible to reduce a power consumption of an electronic circuit (microcomputer, for example) while preventing malfunctioning of an oscillator by appropriately setting a power supply impedance of a low frequency oscillator corresponding to an operation mode. A high frequency oscillator, a medium frequency oscillator and a low frequency oscillator are provided as sources of system clocks. In addition, there is provided a quartz oscillator to generate a clock for a timepiece. When the high frequency oscillator is in operation, a power supply impedance of the quartz oscillator is reduced to improve a noise tolerance. In a waiting period during which the high frequency oscillator, the medium frequency oscillator and the low frequency oscillator are halted, on the other hand, the power supply impedance of the quartz oscillator is increased to suppress the power consumption. | 07-29-2010 |
| 20100253439 | Electronic Circuitry - Electronic circuitry comprising operational circuits of active switching type requiring timing signals, and conductive means for distributing said timing signals to the operational circuits, wherein the timing signal distribution means includes a signal path that has different phases of a drive signal are supplied via active means at different positions about the signal path where that path exhibits endless electro-magnetic continuity without signal phase inversion or has interconnections with another signal path having different substantially unidirectional signal flow where there is no endless electromagnetic continuity between those signal paths and generally has non-linear associated circuit means where the signal path is of a transmission line nature. | 10-07-2010 |
| 20080231377 | Random number generator based on oscillator noise - Embodiments of the invention are generally directed to systems, methods, and apparatuses for a random number generator (RNG) based on oscillator noise. In some embodiments, the RNG buffers effects of thermal noise from two independent oscillators impacted by effects of pseudo-stochastic processes and separates thermal noise from other effects. The RNG may then convert the thermal noise to a stochastic binary sequence based, at least in part, on a digital signal processing algorithm. | 09-25-2008 |
| 20100308923 | MAGNETIC VOLTAGE CONTROLLED OSCILLATOR - The disclosure is related to oscillators and more specifically voltage controlled oscillators. Magnetic voltage controlled oscillators are presented that comprise current-biased magnetic thin film structures that can exhibit microwave oscillations and are tunable with current as well as magnetic field. In a particular embodiment, an array of oscillators, which may be activated with a current while in a magnetic field, can be positioned adjacent a spin valve layer to produce a spinwave disturbance in the spin valve layer. An array of detectors that can sense periodic motion of the magnetization of the spin valve layer may also be positioned adjacent the spin valve layer. The detectors may produce an oscillating output signal from the detected periodic motion. | 12-09-2010 |
| 20110043291 | DYNAMIC LIMITERS FOR FREQUENCY DIVIDERS - Techniques for generating quadrature signals from a local oscillator signal, wherein the generated quadrature signals have a frequency half of the local oscillator frequency. In an exemplary embodiment, two oscillators, e.g., injection locked oscillators, are provided, each oscillator having a load, a cross-coupled transistor pair, an integrating capacitor, and current injection transistors. A differential pair is coupled to the leads of each of the integrating capacitors, and the drains of the differential pair are coupled to the outputs of the other oscillator to help increase the slew rate of the output voltages of the other oscillator. The inputs to the differential pair may be first amplified to improve the gain of the differential pair. In another exemplary embodiment, the power consumption of the differential pair may be reduced by operating them in a discontinuous mode, e.g., by coupling the source voltages of the differential pair to corresponding delayed versions of the drain voltages. | 02-24-2011 |
| 20110050352 | ELECTRIC CIRCUIT, SENSOR SYSTEM EQUIPPED WITH THE ELECTRIC CIRCUIT, AND SENSOR DEVICE EQUIPPED WITH THE ELECTRIC CIRCUIT - An electric circuit includes: a reference signal generation circuit that generates a reference signal based on a first oscillation signal that is an oscillation signal of a first oscillation circuit that vibrates a first vibrator; and a counter circuit that counts a second oscillation signal that is an oscillation signal of a second oscillation circuit that vibrates a second vibrator based on the reference signal, and outputs a count signal, wherein the count signal is a change of the count value in the second oscillation signal. | 03-03-2011 |
| 20110057732 | LOW PHASE NOISE VOLTAGE CONTROLLED OSCILLATOR - Embodiments of the present invention include a low phase noise oscillator circuit using a current-reuse technique to reduce power consumption and improve phase noise, where the oscillator circuit comprises a first VCO coupled to a second VCO, and the outputs of the first and second VCOs are coupled with passive elements, such as capacitors. The overall power consumption of both the first and second VCOs is about the same as a single VCO. Furthermore, the phase noise is lowered by around 3 dB. Thus, the phase noise performance is improved without increasing the power consumption of the oscillator circuit | 03-10-2011 |
| 20100259333 | FRACTIONAL DIVIDER - A divider control circuit includes a first and a second delta sigma modulator configured to generate a divider control signal for a fractional-N divider and a fractional signal indicative of a phase error in the divider output. The fractional signal is supplied for control of an interpolator circuit. The divider control circuit may be implemented as a look-ahead circuit where two or more divider control signals and fractional signals are generated during a single cycle to allow the divider control circuit to be run at a reduced clock rate. | 10-14-2010 |
| 20120126904 | Oscillators And Methods Of Manufacturing And Operating The Same - Oscillators and methods of manufacturing and operating an oscillator are provided, the oscillators include a base free layer having a variable magnetization direction, and at least one oscillation unit on the base free layer. The oscillation unit may include a free layer element contacting the base free layer and having a width less than a width of the base free layer, a pinned layer element separated from the free layer element, and a separation layer element between the free layer element and the pinned layer element. A plurality of oscillation units may be arranged on the base free layer. | 05-24-2012 |
| 20120161882 | SURFACE MOUNT CRYSTAL OSCILLATOR AND SUBSTRATE SHEET - Provided is a surface mount crystal oscillator and a substrate sheet to prevent a decrease in a frequency variable amount by reducing electrostatic capacitance of the crystal oscillator. The surface mount crystal oscillator and the substrate sheet are each configured such that one end of a crystal holding terminal is connected to a corner terminal, and another end of the crystal holding terminal is formed from a center of a short side to be shorter than the one end so as to form an area in which no pattern is formed, and a pattern of a GND terminal is formed on that portion of a rear surface of a substrate which is opposed to the area in which no pattern is formed, so that the pattern (a crystal-mounted pattern) of the crystal holding terminal and the pattern of the GND terminal are not opposed to each other across the substrate. | 06-28-2012 |
| 20120169426 | MULTI-BAND FREQUENCY OSCILLATING DEVICE - An oscillating device is provided that has several oscillators. Each oscillator has a capacitive inductive resonant circuit and a flow-through conduction circuit having a negative flow-through conduction. The inductive elements of the oscillators are mutually coupled. Each oscillator also has short-circuit or not short-circuit the capacitive element of the oscillator. The oscillating device also has a controllable commutating means arranged to activate one oscillator at a time. | 07-05-2012 |
| 20120256694 | ORTHOGONALLY REFERENCED INTEGRATED ENSEMBLE FOR NAVIGATION AND TIMING - An orthogonally referenced integrated ensemble for navigation and timing includes a dual-polyhedral oscillator array, including an outer sensing array of oscillators and an inner clock array of oscillators situated inside the outer sensing array. The outer sensing array includes a first pair of sensing oscillators situated along a first axis of the outer sensing array, a second pair of sensing oscillators situated along a second axis of the outer sensing array, and a third pair of sensing oscillators situated along a third axis of the outer sensing array. The inner clock array of oscillators includes a first pair of clock oscillators situated along a first axis of the inner clock array, a second pair of clock oscillators situated along a second axis of the inner clock array, and a third pair of clock oscillators situated along a third axis of the inner clock array. | 10-11-2012 |
| 20120319783 | Inductance Enhanced Rotary Traveling Wave Oscillator Circuit and Method - A plurality of inductance enhanced interweaved rotary traveling wave oscillators (RTWO) is disclosed. Portions of the transmission line conductors are increased in length and run in parallel. Because the currents in these portions travel in the same direction, the inductance of these inductors is increased. By controlling the length of the transmission line conductors in these areas compared to the lengths where the currents in the oscillators travel in opposite directions, the overall impedance of the oscillators can be increased. Increased impedance leads to lower power and lower phase noise for the oscillators. Additionally, the interweaved oscillators are phase-locked to each other. | 12-20-2012 |
| 20120280756 | MATRIX STRUCTURE OSCILLATOR - An oscillator having a plurality of operatively coupled ring oscillators arranged in hyper-matrix architecture. The operatively coupled ring oscillators are either identical or non-identical and are coupled through a common inverter or tail current transistors. Due to the arrangement of the ring oscillators in a hyper-matrix structure, the ring oscillators are synchronized and resist any variation in frequency or phase thereby maintaining a consistent phase noise performance | 11-08-2012 |
| 20120092077 | CAPACITOR COUPLED QUADRATURE VOLTAGE CONTROLLED OSCILLATOR - A quadrature oscillator includes a first oscillator having a first second-order harmonic node, a second oscillator having a second second-order harmonic node, and at least one capacitor coupling the first second-order harmonic node and the second second-order harmonic node. The first oscillator is configured to supply an in-phase signal and the second oscillator is configured to supply a quadrature signal. | 04-19-2012 |
| 331047000 | Oscillator used to vary amplitude or frequency of another oscillator | 7 |
| 20100085123 | INJECTION-LOCKED CLOCK MULTIPLIER - Embodiments of a clock circuit are described. This clock circuit includes an oscillator, which includes a resonance circuit having a resonance frequency, that outputs a first clock signal having a first frequency. Furthermore, a digital controller is coupled to the oscillator. This digital controller modifies the resonance frequency of the oscillator during a first mode of operation of the clock circuit, and the modifying is ceased during a second mode of operation of the clock circuit. In addition, on injection circuit is coupled to the oscillator. This injection circuit provides a second clock signal having a second frequency to the oscillator. Note that the second clock signal injection locks a phase and/or the first frequency of the first clock signal. Also note that a ratio of the first frequency to the second frequency is greater than or equal to one. | 04-08-2010 |
| 20100090770 | MULTIPLYING OSCILLATOR AND WIRELESS APPARATUS IN WHICH THE SAME IS INSTALLED - An object of the invention is to provide a multiplying oscillator capable of generating a high frequency signal by small circuit scale and power consumption in an oscillator for generating a signal with a frequency of a microwave band or more, and a local oscillator using this multiplying oscillator. A multiplying oscillator of the invention obtains a frequency signal four times or more a fundamental wave by adding a frequency adjusting unit | 04-15-2010 |
| 20110063038 | ULTRA-COMPACT PLL WITH WIDE TUNING RANGE AND LOW NOISE - A design for an oscillator, and a PLL incorporating such an oscillator, which takes up little physical area but maintains a large tuning range and low phase noise. Two LC-tanks are nested and switched. Through tuning the inactive tank, the range of the active tank may be increased and finer tuning becomes possible. | 03-17-2011 |
| 20120161883 | COUPLED RING OSCILLATOR - A circuit including a first oscillator configured to oscillate at a first frequency; a second oscillator configured to oscillate at a second frequency, the second frequency being different from and one of a harmonic or sub-harmonic of the first frequency; and a coupling between the first oscillator and the second oscillator configured to injection lock at least one of the first oscillator and second oscillator to the other of the first oscillator and second oscillator. | 06-28-2012 |
| 20110037524 | OSCILLATOR AMPLIFIER WITH INPUT CLOCK DETECTION AND METHOD THEREFOR - An oscillator circuit has a crystal oscillator amplifier having only two clock input terminals, one being an input terminal and the other being an output terminal. The input terminal allows a user of the integrated circuit to choose between connecting a first clock signal generated from a crystal or a second clock signal generated by a non-crystal source to the input terminal. Control circuitry has a capacitor coupled in parallel with a transistor. Both are coupled in series with a resistive device at an output of the control circuitry to provide a control signal. Clock generation circuitry coupled to the crystal oscillator amplifier provides an oscillating output signal in response to an enable signal. In one form a comparator circuit provides the oscillating output signal. The control signal is used to ensure that inputs to the comparator circuit repeatedly cross each other over time. | 02-17-2011 |
| 20100231307 | METHOD AND SYSTEM FOR DRIFT REDUCTION IN A LOW POWER OSCILLATOR (LPO) UTILIZED IN A WIRELESS COMMUNICATION DEVICE - A radio circuit may be driven by a high frequency oscillator such as a crystal oscillator that may have sleep and wake time intervals. The sleep time interval length may be adjusted. A low frequency oscillator or low power oscillator (LPO) that may experience frequency drift may regulate the sleep and/or wake time intervals. The frequency drift may be detected based on two or more LPO calibrations and/or one or more clock adjustments. The LPO frequency drift may be detected based on an LPO frequency sampled after a first LPO calibration and a corresponding LPO clock adjustment, a second LPO frequency sampled after a second LPO calibration and a time interval between the two frequency samples. The LPO may be calibrated based on the HFCXO output. Sleep time intervals may be adjusted by adding and/or subtracting a time interval to an expected time to wake the radio circuit. | 09-16-2010 |
| 20120286881 | OSCILLATOR ARCHITECTURE HAVING FAST RESPONSE TIME WITH LOW CURRENT CONSUMPTION AND METHOD FOR OPERATING THE OSCILLATOR ARCHITECTURE - An oscillator architecture and a method for powering up/down the oscillator architecture are described. In one embodiment, an oscillator architecture includes a reference generator configured to generate reference signals and an in-phase/quadrature (IQ) oscillator configured to generate oscillation signals based on the reference signals. The reference generator includes a distributed start-up circuitry that includes multiple start-up circuits. The IQ oscillator includes at least one turbo comparator having a low power functional mode and a turbo functional mode. Other embodiments are also described. | 11-15-2012 |
| 331048000 | Adjustable frequency | 13 |
| 20130082785 | Tunable signal source - The present disclosure provides a tunable signal source having a plurality of oscillator cores having a coupling input, a coupling output, and a power output that is common to each of the plurality of oscillator cores. Also included is a plurality of tunable phase shifters wherein corresponding ones of the plurality of tunable phase shifters are communicatively coupled between the coupling input and the coupling output of corresponding ones of the plurality of oscillator cores, thereby forming a loop of alternating ones of the plurality of oscillator cores and alternating ones of the plurality of tunable phase shifters. | 04-04-2013 |
| 20090302952 | Systems And Methods For Distributing A Clock Signal - Systems and methods for distributing a clock signal are disclosed. In some embodiments, systems for distributing a clock signal include a plurality of resonant oscillators, each comprising an inductor; and a differential clock grid that distributes the clock signal. The differential clock grid is coupled to the plurality of resonant oscillators and the clock signal, and the inductances of the inductors are configured such that a resonant frequency of the plurality of resonant oscillators is substantially equal to the frequency of the clock signal. | 12-10-2009 |
| 20120194280 | OSCILLATION DEVICE - An oscillation device capable of highly accurate temperature compensation of an output frequency is provided. The oscillation device includes: first and second oscillator circuits oscillating first and second quartz-crystal resonators with overtones respectively; a frequency difference detecting part finding a value corresponding to a difference value between values corresponding to differences between f | 08-02-2012 |
| 20080224784 | METHOD FOR REDUCING INTER MODULATION DISTORTION PRODUCTS OF A COMBINED CARRIER WAVE USING PHASE ALIGNMENT OF THE CARRIER COMPONENTS - A method is provided for reducing inter modulation distortion products using multi-carrier phase alignment of the type where a combined carrier signal is generated from the combined output carried waves of a plurality of numerically controlled oscillators in which the frequency of the carrier wave can be altered by changing an input value into the oscillator. In particular the initial phase of the output carrier waves is adjusted so that the peak amplitude of the combined carrier signal is minimized so that compression of the higher amplitude portions of the combined signal is reduced. | 09-18-2008 |
| 20120032745 | Frequency-Coupled LCVCO - In one embodiment, a method includes generating, by a LCVCO, a first signal having a first phase based on a resonant frequency of a first LC tank; generating, by a second LCVCO, a second periodic signal having a second phase based on a resonant frequency of a second LC tank; determining a phase offset between the first LC tank and the second LC tank based on the first and second signals; generating a first output signal and a second output signal based on the determined phase offset; and adjusting the phase offset such that the phase offset is substantially equal to a predetermined phase offset. In one embodiment, the adjusting comprises modulating a first impedance of the first LC tank based on the first output signal, and/or modulating a second impedance of the second LC tank based on the second output signal. | 02-09-2012 |
| 20110215876 | METHOD AND ARRANGEMENT FOR VOLTAGE CONTROLLED OSCILLATOR DEVICE - Embodiments of the present invention relate to a self injection locked voltage controlled oscillator arrangement, a pair of coupled first and second voltage controlled oscillator devices are arranged on a chip, an amplifier device is arranged on the same of the refection type chip, and an off-chip delay line is arranged with one terminal connected to an output terminal of the coupled first and second voltage controlled oscillator devices, and on terminal adapted to reflect a signal from the output terminal, the amplifier device being arranged to amplify an injection signal from said output terminal and to supply the amplified injection signal to one of said first and second voltage controlled oscillation devices to provide a VCO arrangement that exhibits low phase noise and a small size. | 09-08-2011 |
| 20090134944 | CAPACITIVE-DEGENERATION DOUBLE CROSS-COUPLED VOLTAGE-CONTROLLED OSCILLATOR - A capacitive-degeneration double cross-coupled voltage-controlled oscillator is provided. The capacitive-degeneration double cross-coupled voltage-controlled oscillator includes a main cross-coupled oscillating unit including an oscillation transistor pair cross-coupled to first and second output nodes of a resonating unit to perform an oscillation operation; and an auxiliary cross-coupled oscillating unit including a positive-feedback transistor pair cross-coupled to the first and second output nodes and the transistor pair of the main cross-coupled oscillating unit and a degeneration capacitance connected between emitters of the positive-feedback transistor pair so as to increase a negative resistance of the main cross-coupled oscillating unit. Accordingly, it is possible to increase a maximum attainable oscillation frequency and to decrease an input capacitance. | 05-28-2009 |
| 20100308924 | APPARATUS AND METHOD FOR FREQUENCY GENERATION - A wideband frequency generator has two or more oscillators for different frequency bands, disposed on the same die within a flip chip package. Coupling between inductors of the two oscillators is reduced by placing one inductor on the die and the other inductor on the package, separating the inductors by a solder bump diameter. The loosely coupled inductors allow manipulation of the LC tank circuit of one of the oscillators to increase the bandwidth of the other oscillator, and vice versa. Preventing undesirable mode of oscillation in one of the oscillators may be achieved by loading the LC tank circuit of the other oscillator with a large capacitance, such as the entire capacitance of the coarse tuning bank of the other oscillator. Preventing the undesirable mode may also be achieved by decreasing the quality factor of the other oscillator's LC tank and thereby increasing the losses in the tank circuit. | 12-09-2010 |
| 20110210797 | Highly accurate temperature stable clock based on differential frequency discrimination of oscillators - An apparatus and a method for compensating for a mismatch in temperature coefficients of two oscillator frequencies to match a desired frequency ratio between the two oscillator frequencies over a temperature range. In one embodiment of a temperature sensor, first and second oscillators of different temperature characteristics are coupled to a differential frequency discriminator (DFD) circuit. The DFD circuit compensates for the different characteristics in order to match a frequency difference between the first and second frequencies over a temperature range. | 09-01-2011 |
| 20110187463 | OSCILLATOR CIRCUIT FOR RADIO FREQUENCY TRANSCEIVERS - Oscillator circuit for radio frequency transceivers. An oscillator circuit includes a first oscillator that generates a signal having a first frequency and a second oscillator that generates a signal having a second frequency. The oscillator circuit includes a mixer that is responsive to the signal having the first frequency and the signal having the second frequency to provide a signal having a third frequency and one or more frequency components. The oscillator circuit includes a filter that is responsive to the signal from the mixer to attenuate the one or more frequency components and provide a signal having a desired frequency. The oscillator circuit includes a correction circuit to correct a drift in at least one of the first frequency and the second frequency by controlling the second frequency, thereby correcting the drift in the third frequency and the desired frequency. | 08-04-2011 |
| 20090058539 | PERIOD SIGNAL GENERATOR OF SEMICONDUCTOR INTEGREATED CIRCUIT - A period signal generator comprises a first period signal generating unit for generating a first period signal of which period changes according to a temperature, a second period signal generating unit for generating a second period signal which has a constant period regardless of a temperature, and a period signal output control unit for comparing the first period signal with the second period signal and selecting and outputting the first period signal in case that the period of the first period signal is shorter than that of the second period signal. | 03-05-2009 |
| 20120182078 | QUADRATURE VOLTAGE-CONTROLLED OSCILLATOR AND METHOD OF PROVIDING FOUR-PHASE OUTPUT SIGNALS - A quadrature VCO includes a first oscillator unit and a second oscillator unit. Each of the first and second oscillator unit is composed of a DC bias source, a complementary cross-coupled pair, an LC resonator unit, a frequency-doubling sub-harmonic coupler unit, and a ground terminal. When the LC resonator units of the first and second oscillator units are operated, four signals of different phases can be outputted via the output terminals. In this way, the output phase difference of the two oscillator units can keep 180 degrees and allow the two oscillator units to mutually inject signals to generate quadrature output signals. | 07-19-2012 |
| 20130021106 | CLOCK FREQUENCY ADJUSTING METHOD AND CIRCUIT - A method for adjusting an oscillator clock frequency, comprising: providing a first oscillator, applying a first setpoint value to the first oscillator, determining a first oscillator frequency value within a first time frame, providing a second oscillator, applying a second setpoint value to the second oscillator, determining a second oscillator frequency value within a second time frame, determining a new frequency setpoint value from the first and second frequency values, the first and second setpoint values, and a desired frequency value, and applying the new frequency setpoint value to one of the first and second oscillators. | 01-24-2013 |
| 331049000 | Selectively connected to common output or oscillator substitution | 7 |
| 20130033331 | INJECTION-LOCKING A SLAVE OSCILLATOR TO A MASTER OSCILLATOR WITH NO FREQUENCY OVERSHOOT - An injection-locked oscillator circuit includes a master oscillator, a slave oscillator, and an injection lock control circuit. The slave oscillator is decoupled from the master oscillator (for example, due to an unlock condition). When the slave is free running, its oscillating frequency is adjusted (for example, as a function of a supply voltage). After an amount of time, the slave is to be relocked to the master (for example, due the unlock condition no longer being present). The slave oscillating frequency is made to be slightly lower than the master oscillating frequency. The slave is then only recoupled to the master upon detection of an opposite-phase condition between the master oscillator output signal and the slave oscillator output signal. By only recoupling the slave to the master during opposite-phase conditions, frequency overshoots in the slave oscillating frequency are avoided that may otherwise occur were the recoupling done during in-phase conditions. | 02-07-2013 |
| 20090091398 | OSCILLATING APPARATUS - Provided is an oscillating apparatus that includes a plurality of variable frequency oscillators, each of which is provided in correspondence with a different oscillating band from one another; and a selection section that selects an oscillating signal that is from a variable frequency oscillator provided in correspondence with a designated oscillating band, from among the plurality of variable frequency oscillators, and outputs the selected oscillating signal, where the selection section includes a plurality of selectors connected in a tree structure, each selector outputting a selected one of inputted two or more oscillating signals, and each of the plurality of variable frequency oscillators is connected to a selector positioned at an end of the tree structure of the plurality of selectors. | 04-09-2009 |
| 20080309415 | HIGH-FREQUENCY OSCILLATOR AND ELECTRONIC APPARATUS - In a high-frequency oscillator, a first resonance circuit and a second resonance circuit are respectively connected to a first amplifier circuit and a second amplifier circuit. A selection circuit includes a first switch circuit and a second switch circuit which selectively operate one of the first amplifier circuit and the second amplifier circuit. A grounded capacitor is connected to output sides of the first amplifier circuit and the second amplifier circuit. The grounded capacitor is commonly used by both the first amplifier circuit and the second amplifier circuit. An auxiliary grounded capacitor is connected between the first switch circuit and the first amplifier circuit. Accordingly, the grounded capacitor and the auxiliary grounded capacitor are connected to each other in parallel only when the first amplifier circuit is activated. | 12-18-2008 |
| 20090102566 | OSCILLATOR PHASE MATCHING - A system comprises a primary oscillator that provides a first signal having a first phase and a backup oscillator that provides a second signal having a second phase. The system also comprises trim logic coupled to the backup oscillator logic. Prior to failure of the primary oscillator, the trim logic adjusts the second phase to match the first phase. Upon failure of the primary oscillator, the second signal is used in lieu of the first signal. | 04-23-2009 |
| 20110074513 | Dual-Band Voltage-Controlled Oscillator Arrangement - In a dual-band capable voltage-controlled oscillator (VCO) device at least two voltage-controlled oscillator units (VCO1, VCO2) are coupled via a reactive component (A) and each said at least one voltage-controlled oscillator unit (VCO1, VCO2) further being connected to at least a respective external switching device (B1, B2) adapted to control an operating frequency of the A (VCO) device. | 03-31-2011 |
| 20090322434 | CONTROL METHOD FOR OPERATION MODES OF OSCILLATOR AND THE APPARATUS THEREOF - The present invention relates to a control method for the operation modes of an oscillator and the apparatus thereof, for which the method and the apparatus can be applied to the electronic circuits with multi-operation modes of the oscillator so as to correctly choose the desirable oscillator operation mode. Furthermore, an oscillator checking circuit sets up the oscillation mode automatically and judges if the oscillator operates properly. Hence, there is no need for the user to set up the oscillator operation mode manually. | 12-31-2009 |
| 20090066428 | DEVICE FOR PROVIDING AN A.C. SIGNAL - A circuit for providing an A.C. signal including a number N of nanomagnetic oscillators, N being an integer greater than or equal to 2, each nanomagnetic oscillator providing a periodic signal; a unit for providing a control signal that can take N values, each periodic signal being associated with one of the values of the control signal; and a multiplexer receiving the N periodic signals and the control signal and providing the A.C. signal equal to one of the periodic signals according to the value of the control signal. | 03-12-2009 |
| 331050000 | Cascade or tandem connected | 8 |
| 20100156543 | MATRIX STRUCTURE OSCILLATOR - An oscillator having a plurality of operatively coupled ring oscillators arranged in hyper-matrix architecture. The operatively coupled ring oscillators are either identical or non-identical and are coupled through a common inverter or tail current transistors. Due to the arrangement of the ring oscillators in a hyper-matrix structure, the ring oscillators are synchronized and resist any variation in frequency or phase thereby maintaining a consistent phase noise performance | 06-24-2010 |
| 20130082786 | CONFIGURABLE SPREAD SPECTRUM OSCILLATOR - A spread spectrum oscillator includes a high frequency oscillator circuit configured to oscillate at a first frequency, and a low frequency oscillator circuit configured to oscillate at a second frequency and resistively coupled to a current summing node of the high frequency oscillator circuit. The first frequency is higher than the second frequency. | 04-04-2013 |
| 20100277247 | OSCILLATOR CIRCUIT, OSCILLATOR CIRCUIT GROUP, ELECTRONIC APPARATUS, AND LAYOUT METHOD FOR OSCILLATION CIRCUIT GROUP - An oscillation circuit includes: a first oscillation circuit and a second oscillation circuit, wherein the first oscillation circuit includes a first input side electrode electrically connected to a first oscillator and a first output side electrode electrically connected to the first oscillator, and the second oscillation circuit includes a second input side electrode electrically connected to a second oscillator and a second output side electrode electrically connected to the second oscillator, wherein the distance between the first output side electrode and the second input side electrode is greater than the distance between the first input side electrode and the first output side electrode. | 11-04-2010 |
| 20090237168 | VOLTAGE-CONTROLLED OSCILLATOR - A voltage controlled oscillator comprises first and second voltage controlled oscillator cones ( | 09-24-2009 |
| 20120286882 | ELECTRONIC CIRCUITRY - Electronic circuitry comprising operational circuits of active switching type requiring timing signals, and conductive means for distributing said timing signals to the operational circuits, wherein the timing signal distribution means includes a signal path that has different phases of a drive signal are supplied via active means at different positions about the signal path where that path exhibits endless electro-magnetic continuity without signal phase inversion or has interconnections with another signal path having different substantially unidirectional signal flow where there is no endless electromagnetic continuity between those signal paths and generally has non-linear associated circuit means where the signal path is of a transmission line nature. | 11-15-2012 |
| 331051000 | Frequency dividers | 1 |
| 20090295491 | Carrier Generator - A carrier generator for generating a carrier at a frequency of interest in a wireless communications system comprises an oscillator exhibiting a first impedance, the oscillator comprising an energy storage tank configured to generate a periodic signal, the energy storage tank including at least one inductor and at least one capacitor, and an amplifier coupled with the energy storage tank, the amplifier being configured to amplify an amplitude of the periodic signal, an antenna exhibiting a second impedance smaller than the first impedance, and a network coupled between the oscillator and the antenna, the network including at least one inductor or at least one capacitor and being configured to provide a third impedance such that a resultant impedance of the second impedance and the third impedance as viewed from the oscillator toward the antenna is large enough to facilitate the oscillator to generate the carrier at the frequency of interest. | 12-03-2009 |
| 331052000 | Semiconductor (e.g., transistor) | 2 |
| 20120161884 | OSCILLATOR DEVICE AND METHODS THEREOF - A signal generator provides a plurality of oscillating signals, whereby each oscillating signal has a different peak voltage and has a predictable and consistent phase relationship with the other oscillating signals. The signal generator includes a plurality of stacked oscillators arranged between two reference voltages, such that each oscillator in the stack generates an oscillating signal having a different peak voltage. Each oscillator stage in a designated oscillator includes a transistor that is connected to a transistor of a corresponding stage in another oscillator. This arrangement of the oscillators provides for charge transfer between the corresponding stages to provide for similar voltage swings in each oscillating signal, as well as to provide for predictable phase relationship between the oscillating signals. | 06-28-2012 |
| 20100013564 | Device - A device can be coupled to an electrical load for supplying electrical power to the electrical load. The device contains an oscillator unit and an auxiliary oscillator unit. The oscillator unit is configured to generate an output signal of the device which can be supplied to the electrical load and which has a first frequency. The auxiliary oscillator unit is electrically coupled to the oscillator unit. The auxiliary oscillator unit is configured to excite the oscillator unit to oscillate at a second frequency greater than the first frequency. The auxiliary oscillator unit contains a timing element which is configured and arranged to terminate the excitation of the oscillator unit after the expiration of a pre-specified period of time after the start of the oscillator unit and the auxiliary oscillator unit. | 01-21-2010 |
| 331055000 | Synchronized, triggered or pulsed | 8 |
| 20090273403 | Trigger-mode distributed wave oscillator system - A Trigger-Mode Distributed Wave Oscillator that provides accurate multiple phases of an oscillation and a method of use of the same. An auxiliary oscillator triggers an oscillation on independent conductor loops or rings forming a differential transmission medium for the oscillation wave. Once the oscillation wave is triggered, the auxiliary oscillator can be powered down to turn it off, and the wave can sustain itself indefinitely through active amplifying devices which can compensate for losses in the conductors. | 11-05-2009 |
| 20110006850 | CLOCK SIGNAL DISTRIBUTING DEVICE - A clock signal distributing device includes a plurality of LC resonant oscillators, each resonating at a frequency conforming to values of a first inductor and a first capacitor to oscillate a signal, an injection locked LC resonant oscillator that resonates at a frequency conforming to values of a second inductor and a second capacitor to oscillate a signal which is synchronous with an input clock signal, and transmission lines that connect oscillation nodes of the plurality of LC resonant oscillators and the injection locked LC resonant oscillator with one another. | 01-13-2011 |
| 20080211589 | Phase locked loop circuit including digital voltage-controlled oscillator, ring oscillator and selector - A PLL circuit includes a polyphase reference clock output circuit, which outputs multiple reference clocks, each clock being of different phase. The PLL circuit further includes a digital voltage controlled oscillator, which, using any one of the multiple reference clocks chosen as an operating clock, outputs an output clock whose frequency varies according to a value of a frequency control signal, and which outputs a delay amount data representing a phase difference between the phase of the output clock and an ideal phase gained by computing based on the value of the frequency control signal. The PLL circuit further includes a selection circuit which is responsive to the delay amount data to select and output the output clock synchronized with one of the multiple reference clocks. | 09-04-2008 |
| 20100225403 | CRYSTAL- BASED OSCILLATOR FOR USE IN SYNCHRONIZED SYSTEM - A crystal oscillator-based module, which includes a crystal resonator receiving a conditioned signal from a first bus and passing a resonator signal to a sustaining stage amplifier. A synchronization range expansion circuit is connected between a gain control network and the resonator. A tri-state buffer has a main input connected to receive the resonator signal through a buffer. The output of the tri-state buffer is connected to a second bus, through a matching network if necessary. A synchronous clock system can be formed by connecting these modules alternately to the two busses. The tri-state buffer also has a control input, which may be connected to a delay circuit between Vcc and ground, so as to allow hot swapping and for other benefits. | 09-09-2010 |
| 20100219893 | RESONANT DEVICE WITH IMPROVED FEATURES - The device resonant comprises a plurality of synchronized oscillators. Each oscillator comprises a resonator which comprises detection means providing detection signals representative of oscillation of the resonator to a feedback loop connected to an excitation input of the resonator. The detection signals control the conductivity of the feedback loop of the oscillator. The excitation inputs of all the resonators are connected to a common point which constitutes the output of the resonant device. A capacitive load is connected between said common point and a reference voltage. | 09-02-2010 |
| 20120313716 | TWO OSCILLATOR SYNCHRONIZATION SYSTEM - An oscillator synchronization system employs two oscillators, each of which includes an integrator which provides a ramping signal at its output, a comparator which receives the ramping signal and a reference signal at respective inputs and toggles an output when the ramping voltage crosses the reference signal, and a one-shot circuit that generates the integrator's reset signal when triggered. The system is preferably arranged such that the oscillators can be operated independently, in which case each oscillator's one-shot is triggered by its own comparator output, or synchronously, in which case each oscillator's one-shot is triggered by the other oscillator's comparator output—with the ramp signal of each oscillator operating to reset the integrator of the other oscillator. The oscillators are typically out-of-phase when synchronized, with the phase difference varying with the magnitude of the reference signals applied to the comparators. | 12-13-2012 |
| 20120161885 | AGING DIAGNOSTIC DEVICE, AGING DIAGNOSTIC METHOD - There is provided an aging diagnostic device including: a reference ring oscillator ( | 06-28-2012 |
| 20120286883 | SYNCHRONIZED OUTPUT OF MULTIPLE RING OSCILLATORS - A circuit for producing a synchronized output of multiple ring oscillators is disclosed. In one embodiment, the circuit includes a first ring oscillator configured to generate a first periodic signal and a second ring oscillator configured to generate a second periodic signal. The circuit may further include a selection unit coupled to receive the first periodic signal and the second periodic signal. The selection unit is configured to convey a first clock edge into each of the first and second ring oscillators responsive to a most recently received rising edge from one of the first and second periodic signals. The selection unit is further configured to convey a second clock edge into each of the first and second ring oscillators responsive to a most recently received falling edge from one of the first and second periodic signals, wherein the first and second clock edges are opposite in direction. | 11-15-2012 |
| 331056000 | Parallel connected | 11 |
| 20120223779 | Voltage-controlled oscillator - This invention provides a voltage-controlled oscillator, comprising a first voltage-controlled oscillator circuit and a second voltage-controlled oscillator circuit. The first voltage-controlled oscillator circuit comprises a plurality of inductors, a plurality of variable capacitors, and a plurality of MOS transistors. The circuit configuration of the second voltage-controlled oscillator circuit is symmetrical to that of the first voltage-controlled oscillator circuit. The inductors of the first voltage-controlled oscillator circuit are cross-coupled to the inductors of the second voltage-controlled oscillator circuit. | 09-06-2012 |
| 20130099870 | VOLTAGE CONTROLLED OSCILLATORS HAVING LOW PHASE NOISE - This disclosure involves systems for providing an oscillatory circuit having low phase noise featuring arrays of complementary VCO pairs connected in parallel. | 04-25-2013 |
| 20130127549 | CLOCK SIGNAL SYNCHRONIZATION AND DISTURBANCE DETECTOR - An electronic circuit including two ring oscillators, wherein the output of each ring oscillator is looped back on the input of this same oscillator as well on the input of the other oscillator. The application of such a circuit to the detection of a dynamic disturbance. | 05-23-2013 |
| 20110169580 | INVERTING GATE WITH MAXIMIZED THERMAL NOISE IN RANDOM NUMBER GENERTION - A random number generator comprises a first high frequency (HF) oscillator, a second low frequency (LF) oscillator, and a sampling circuit. The HF oscillator generates a high frequency oscillating signal. The LF oscillator generates a low frequency oscillating signal. The LF oscillating signal is used to sample the HF oscillating signal to generate a sequence of random bits. In one preferred embodiment, the LF oscillator comprises a plurality of stages of inverters, and each inverter comprises a number of series-stacked minimum length transistors. The LF oscillating signal has a jitter distribution due to thermal noise present in each transistor of the LF oscillator. By series stacking a number of minimum length transistors in each inverter, the overall thermal noise in the LF oscillator is maximized to increase the jitter distribution of the LF oscillating signal and thereby increase the random behavior of the sequence of random bits. | 07-14-2011 |
| 20110057734 | Oscillator Apparatus - An apparatus including a resonator electrode and a second electrode separated from the resonator electrode by a gap having a size that facilitates electron transfer across the gap, wherein the resonator electrode is a resonator electrode mounted for oscillatory motion relative to the second electrode that results in a size of the gap between the resonator electrode and the second electrode being time variable; a feedback circuit configured to convey an electron transfer signal dependent upon electron transfer across the gap as a feedback signal; and a drive electrode adjacent the resonator electrode configured to receive a feedback signal from a feedback circuit configured to provide a time-varying feedback signal dependent upon electron transfer across a gap. | 03-10-2011 |
| 20110057733 | Oscillator apparatus - An apparatus including a resonator electrode and a second electrode separated from the resonator electrode by a gap having a size that facilitates electron transfer across the gap, wherein the resonator electrode is a resonator electrode mounted for oscillatory motion relative to the second electrode that results in a size of the gap between the resonator electrode and the second electrode being time variable; a feedback circuit configured to convey an electron transfer signal dependent upon electron transfer across the gap as a feedback signal; and a drive electrode adjacent the resonator electrode configured to receive a feedback signal from a feedback circuit configured to provide a time-varying feedback signal dependent upon electron transfer across a gap. | 03-10-2011 |
| 20080284528 | RESONATOR, OSCILLATOR, AND COMMUNICATION APPARATUS - Disclosed is a resonator including a plurality of resonator elements each including at least oscillation parts and lower electrodes with an intervening space therebetween, in which the plurality of resonator elements are disposed in a closed system and the oscillation parts of the plurality of resonator elements are continuously formed in an integrated manner. | 11-20-2008 |
| 20120306581 | Quartz Pressure and Temperature Transducer Assembly With Dynamic Correction - A quartz transducer having four or more crystal-controlled oscillators intended for measurement of applied pressure and temperature. All four oscillators are controlled by crystal quartz resonators operating in the thickness-shear mode. Two crystals measure the pressure and temperature respectively. A third crystal is a reference, and the fourth crystal may be another reference crystal or a second temperature crystal. The output of the latter is either phase leading or phase lagging the thermal response of the main temperature sensor. | 12-06-2012 |
| 20120154060 | QUADRATURE VOLTAGE-CONTROLLED OSCILLATOR APPARATUS - A quadrature voltage-controlled oscillator (QVCO) apparatus including a first VCO, a second VCO, a first energy-storage element, a second energy-storage element, a third energy-storage element and a fourth energy-storage element is provided. The first VCO has a first and a second phase output ends. The second VCO has a third and a fourth phase output ends. A first and a second ends of the first energy-storage element respectively connect to the first and the third phase output ends. A first and a second ends of the second energy-storage element respectively connect to the second and the third phase output ends. A first and a second ends of the third energy-storage element respectively connect to the second and the fourth phase output ends. A first and a second ends of the fourth energy-storage element respectively connect to the first and the fourth phase output ends. | 06-21-2012 |
| 20110090015 | SEMICONDUCTOR INTEGRATED CIRCUIT AND ELECTRONIC DEVICE - A semiconductor integrated circuit includes a first ring oscillator to which a stress voltage is applied; a second ring oscillator to which the stress voltage is not applied; and a phase comparator configured to receive an output of the first ring oscillator and an output of the second ring oscillator, and to compare phases of the outputs. The first ring oscillator includes a switch circuit configured to switch between a first connection state in which ring connection of the first ring oscillator is disconnected to connect a predetermined node of the second ring oscillator to a predetermined node of the first ring oscillator, and a second connection state in which connection between the first ring oscillator and the second ring oscillator is disconnected to connect the first ring oscillator in a ring. | 04-21-2011 |
| 20120133446 | Quadrature Voltage Controlled Oscillator Including Transmission Line - A circuit includes an oscillator circuit including a first oscillator and a second oscillator. The first and the second oscillators are configured to generate signal having a same frequency and different phases. A transmission line is coupled between the first and the second oscillators. | 05-31-2012 |
