| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 327131000 | Generating sawtooth or triangular output | 57 |
| 20080303563 | Triangular wave generator - Triangular wave oscillation circuits generate A-wave and B-wave with phases opposite to each other, and are capable of independently controlling oscillation levels of the A-wave and the B-wave. A slope switching circuit including an output voltage monitoring circuit, a slope switching control circuit, and an inverter, monitors output voltages of the triangular wave oscillation circuits, to switch an output voltage generation mode of one triangular wave oscillation circuit whose triangular wave reaches a high level, from an up-slope waveform mode to a down-slope waveform mode, and to switch an output voltage generation mode of the other triangular wave oscillation circuit, from the down-slope waveform mode to the up-slope waveform mode. An oscillation level control circuit controls an oscillation level of the other triangular wave oscillation circuit so that the output voltage of the other of the triangular wave oscillation circuit becomes a reference lower limit crest value during the switching. | 12-11-2008 |
| 20090085617 | RAMP VOLTAGE CIRCUIT - Implementations related to ramp voltage generating circuits and systems implementing the same are presented herein. | 04-02-2009 |
| 20090251178 | Ultra Low Power Servo-Controlled Single Clock Ramp Generator with Amplitude Independent to Clock Frequency - A low power servo-controlled single clock ramp generator ( | 10-08-2009 |
| 20090267656 | PRECISION TRIANGLE WAVEFORM GENERATOR - A triangle waveform generator is set forth that comprises a capacitive element, a regulator, and a control circuit. The regulator is configured to charge the capacitive element in responsive to a first control signal and to discharge the capacitive element in response to a second control signal. The control circuit is responsive to a reference waveform to generate the first and second control signals. In one example, the control circuit generates the first and second control signals in response to the amplitude, frequency, phase, and symmetry of the reference waveform. | 10-29-2009 |
| 20090309635 | CONSTANT SLOPE RAMP CIRCUITS FOR SAMPLED-DATA CIRCUITS - A circuit includes a level-crossing detector to generate a level-crossing detection signal when an input signal crosses a predetermined voltage level. A first stage set of capacitors is operatively coupled to the level-crossing detector. A ramp circuit is operatively coupled to the set of series-connected capacitors. A second stage set of capacitors is operatively coupled to the first stage set of capacitors and the ramp circuit. The ramp circuit includes a feedback capacitor and a preset switch to provide a linear ramp output. | 12-17-2009 |
| 20100007387 | TRIANGULAR WAVE GENERATING CIRCUIT HAVING SYNCHRONIZATION WITH EXTERNAL CLOCK - A triangular wave generating circuit includes: an integrating unit including a capacitor, the integrating unit having an output for providing a triangular wave signal; first and second constant current sources for charging and discharging the capacitor; a switch unit for coupling the first and second current sources to the integrating unit to charge and discharge the capacitor in response to an internal clock signal; a high/low level limiter including first and second comparing units for comparing the output of the integrating unit with upper and lower triangular wave peak limit reference voltages, respectively, and providing output signals indicating when the output of the integrating unit coincides with the peak limit reference voltages; a clock generator for providing the internal clock signal in response to the comparing unit output signals; and means for varying a peak-to-peak swing of the triangular wave signal over time to synchronize the internal clock signal with an externally supplied clock pulse. | 01-14-2010 |
| 20100052741 | DUAL INTEGRATOR CIRCUIT FOR ANALOG FRONT END (AFE) - A circuit includes a generating circuit that generates a current signal in response to an input signal, a first one of a plurality of integrators that generates a voltage signal from the current signal, a comparator that is responsive to the voltage signal to compare the voltage signal with a predefined voltage, a switching circuit that reconfigures a first capacitor and a second capacitor connected to the first one of the plurality of integrators to discharge the first capacitor and to enable the second capacitor to generate the voltage signal in response to the current signal, and an analog-to-digital converter to generate an output when a predefined time interval has elapsed. The output is obtained by adding a first charge value corresponding to a count of number of times the voltage signal reaches the predefined voltage in the predefined time interval and a second charge value from the analog-to-digital converter. | 03-04-2010 |
| 20100182054 | Triangle Wave Generating Circuit - A triangle wave generating circuit comprising: a pulse generating circuit configured to generate a plurality of pulse signals with the same period and with phases different from one another; and a plurality of charge/discharge circuits configured to be supplied with the plurality of pulse signals, respectively, the plurality of charge/discharge circuits each including: a current supply circuit configured to supply to a capacitor a first current for charging at a predetermined current value or a second current for discharging at a predetermined current value; and a charge/discharge control circuit configured to switch between the first current and the second current when the pulse signals are supplied thereto and when a voltage across the capacitor reaches a predetermined reference voltage, the first current and the second current supplied from the current supply circuit to the capacitor. | 07-22-2010 |
| 20110109352 | Summation Circuit in DC-DC Converter - An integrated circuit includes a saw-tooth generator including a saw tooth node configured to have a saw-tooth voltage generated thereon; and a first switch having a first end connected to the saw tooth node. The integrated circuit further includes a second switch coupled between an output node and an electrical ground, wherein the first switch and the second switch are configured to operate synchronously. A first current source is connected to the saw tooth node. A second current source is connected to the output node. | 05-12-2011 |
| 20110279153 | HIGH-PRECISION OSCILLATOR SYSTEMS WITH FEED FORWARD COMPENSATION FOR CCFL DRIVER SYSTEMS AND METHODS THEREOF - System and method for generating one or more ramp signals. The method includes an oscillator configured to generate at least a clock signal, and a ramp signal generator configured to receive at least the clock signal and generate a first ramp signal. Additionally, the ramp signal generator is coupled to a first resistor including a first terminal and a second terminal. The first resistor is configured to receive an input voltage at the first terminal and is coupled to the ramp signal generator at the second terminal. Moreover, the first resistor is associated with a first resistance value. Also, the clock signal is associated with at least a predetermined frequency. The predetermined frequency does not change if the input voltage changes from a first magnitude to a second magnitude. The first magnitude is different from the second magnitude. | 11-17-2011 |
| 20110316591 | Spread Spectrum Clock System and Spread Spectrum Clock Generator - A spread spectrum clock generator includes a triangular wave generator, a digital wave modulator, a sigma delta modulator, and a selector. The triangular wave generator transforms one of the input clock signals into an original triangular wave signal, in which the input clock signals have the same frequency and phases different from each other. The digital wave modulator adjusts the waveform of the original triangular wave signal to generate an adjusted triangular wave signal and a first square wave signal according to an inputted control signal. The sigma delta modulator, electrically connected to the digital wave modulator, accumulates magnitude values of the adjusted triangular wave signal to generate a second square wave signal. The selector selects one of the input clock signals as an output clock signal based on voltage levels of the first square wave signal and the second square wave signal. | 12-29-2011 |
| 20130099834 | RAMP SIGNAL GENERATION CIRCUIT AND RAMP SIGNAL ADJUSTMENT CIRCUIT - A ramp signal generation circuit comprises a first input terminal that receives a clock signal, a plurality of second input terminals that receive high-level or low-level signals, and a discharge and charge circuit that discharges and charges the capacitor and that outputs a ramp signal corresponding to a voltage generated by the capacitor. The discharge and charge circuit comprises a discharge circuit that discharges the capacitor, and a charge circuit that is configured with a plurality of paired resistors and rectifying elements connected between the capacitor and the plurality of second input terminals. The discharge and charge circuit selects at least one of the plurality of second input terminals so as to change a current value for charging the capacitor by inputting the high-level signal to the selected one of the plurality of second input terminals. | 04-25-2013 |
| 20130147527 | HIGH-PRECISION OSCILLATOR SYSTEMS WITH FEED FORWARD COMPENSATION FOR CCFL DRIVER SYSTEMS AND METHODS THEREOF - System and method for generating one or more ramp signals. The method includes an oscillator configured to generate at least a clock signal, and a ramp signal generator configured to receive at least the clock signal and generate a first ramp signal. Additionally, the ramp signal generator is coupled to a first resistor including a first terminal and a second terminal. The first resistor is configured to receive an input voltage at the first terminal and is coupled to the ramp signal generator at the second terminal. Moreover, the first resistor is associated with a first resistance value. Also, the clock signal is associated with at least a predetermined frequency. The predetermined frequency does not change if the input voltage changes from a first magnitude to a second magnitude. The first magnitude is different from the second magnitude. | 06-13-2013 |
| 20150333749 | CIRCUIT ARRANGEMENT AND METHOD FOR CONTROLLING SEMICONDUCTOR SWITCHING ELEMENT - In order to reduce the problems with sharp-edged control voltages of semiconductor switching elements, it is provided that the control terminal ( | 11-19-2015 |
| 20160079963 | APPARATUS AND METHOD FOR GENERATING RAMP SIGNAL - Provided is a ramp signal generating apparatus. The ramp signal generating apparatus includes N (N is a natural number) ramp signal generating cells that are connected in series to each other. Each of the ramp signal generating cells includes a power voltage unit for supplying current source, a latch unit for latching an output voltage of the power voltage unit, and a switch unit for outputting the voltage latched by the latch unit as an output voltage in response to an input signal. | 03-17-2016 |
| 20160099719 | SPREAD SPECTRUM CLOCK GENERATOR, ELECTRONIC APPARATUS, AND SPREAD SPECTRUM CLOCK GENERATION METHOD - A spread spectrum clock generator includes a phase comparator that compares a reference clock with a feedback clock, a low-pass filter that passes a predetermined low-frequency component, a phase lock loop that includes a voltage-controlled oscillator generating an output clock whose frequency corresponds to the filtered signal, a triangular wave controller that generates a triangular wave signal for frequency-modulating the spread spectrum clock based on the output clock, a delay controller that generates the feedback clock by controlling delay of the output clock based on the triangular wave signal, a first counter that counts the output clock and output a first count value, a second counter that counts the reference clock and output a second count value, and a phase error correction circuit that compares the first count value with the second count value and corrects phase error of the output clock. | 04-07-2016 |
| 327132000 | With current source or current mirror | 9 |
| 20090160503 | TRIANGLE WAVE GENERATOR AND SPREAD SPECTRUM CONTROL CIRCUIT THEREOF - A triangle wave generator with function of spreading frequency spectrum is provided. The triangle wave generator includes a switch control circuit, a current generator, an integrator, and a spread spectrum control circuit. The switch control circuit provides an internal clock and a switch control signal. The current generator is coupled to the switch control circuit and provides charge current according to the switch control signal. The integrator is coupled to the current generator and provides a triangle wave signal. The spread spectrum control circuit is coupled to the switch control circuit and the current generator for providing a current control signal according to the internal clock. | 06-25-2009 |
| 20100045350 | Semiconductor Device and Amplification Device Generating Triangular Wave Synchronized with Clock Signal - A semiconductor device includes a current control circuit for outputting and sinking a current in synchronization with a received clock signal; and a current/voltage conversion circuit having a first capacitor charged and discharged by the current control circuit outputting and sinking the current, respectively, and outputting a triangular wave based on the charge stored in the first capacitor. | 02-25-2010 |
| 20100164563 | SLOPE COMPENSATION CIRCUIT - A slope compensation circuit includes apparatus includes an oscillator for generating a first clock signal having a reference frequency, a ramp signal generator for generating a ramp signal having a duty ratio of about 50% or higher based on the first clock signal, and a slope compensation signal generator for outputting a slope compensation current based on the ramp signal. | 07-01-2010 |
| 20110254596 | SPREAD SPECTRUM CIRCUIT - A spread-spectrum circuit including an inverter, a current source, a control unit and a shaping circuit is provided. An input terminal of the inverter receives an original clock signal. The current source is coupled to a current transmission terminal of the inverter. The control unit includes a control circuit, and changes the current magnitude of the current source according to the original clock signal to control the charging/discharging speed of an output terminal of the inverter, so that the output terminal outputs a voltage signal. The shaping circuit shapes the voltage signal into a spread-spectrum clock signal. | 10-20-2011 |
| 20110285428 | SAWTOOTH OSCILLATOR - A sawtooth generator circuit comprises a first triangular waveform generator with equal ramp up and ramp down rates and a second triangular waveform generator with equal ramp up and ramp down rates and which are equal to the ramp up and ramp down rates of the first triangular waveform generator. The first and second triangular waveform generators are controlled to be 180 degrees out of phase. A switching arrangement alternately switches the increasing or decreasing ramps of the first and second triangular waveform generators to an output of the sawtooth generator circuit. | 11-24-2011 |
| 20120212263 | WAVEFORM GENERATION CIRCUIT - Waveform generation circuits are provided. A waveform generation circuit includes a waveform generation block configured to generate a waveform signal corresponding to a driving control signal, and a control signal generation block configured to generate the driving control signal to compensate the waveform signal for an environmental factor affecting the waveform generation circuit. | 08-23-2012 |
| 20130154692 | LOW-POWER PROGRAMMABLE OSCILLATOR AND RAMP GENERATOR - A circuit for generating a signal comprising a first transistor having a drain, a gate and a source. A second transistor having a drain, a source and a gate coupled to the gate of the first transistor to form a current mirror. A current source coupled to the source of the first transistor. A diode-connected transistor having a drain coupled to the source of the second transistor, a source and a gate that forms an output. A variable resistor having a first terminal coupled to the source of diode-connected transistor and a second terminal. A capacitor coupled to the second terminal of the variable resistor. | 06-20-2013 |
| 20130307594 | SAWTOOTH WAVE GENERATION CIRCUIT - The sawtooth wave generation circuit includes: a switch circuit configured to switch a connection state thereof between a first connection state, in which a current from a current source is flowed from a first terminal of the output capacitor to a second terminal of the output capacitor, and a second connection state, in which a current from the current source is flowed from the second terminal of the output capacitor to the first terminal of the output capacitor; a switch control circuit configured such that, in each connection state of the switch circuit, if an output voltage has reached a predetermined threshold which is set in relation to an intermediate voltage, the switch control circuit controls the switch circuit to switch the connection state to the other connection state at least during a part of a predetermined period thereafter. | 11-21-2013 |
| 20140218075 | ADAPTIVE SLOPE GENERATOR - An adaptive slope generator can include a current mirror configured to receive a multiplied current that varies as a function of an output voltage and a switching frequency of a switching current. The output voltage can characterize the switching current provided to a load coupled to an inductor. The current mirror can also be configured to receive an oscillation current. The oscillation current can have an amplitude that corresponds to the switching frequency of the switching current. The current mirror can be further configured to generate an output current substantially equivalent to the product of the oscillation current and the output voltage. The adaptive slope generator can also include a ramp generator configured to generate a compensation signal based on the output current. The compensation signal can have a sawtooth shape and a slope that varies as a function of the output voltage. | 08-07-2014 |
| 327133000 | With distortion control (e.g., linearization, etc.) | 6 |
| 20080265954 | Reduced Transition Time Ramp Waveform Generator - A system and method for generating a reduced transition time ramp waveform signal are disclosed. Two offset, synchronized ramp waveform signals are generated. Each ramp waveform signal has a repeating sequence including a linear development segment, an upper transition segment, a return segment, and a lower transition segment. The ramp waveform signals are offset synchronized such that the linear development segment of each ramp waveform signal begins before the linear development segment of the other ramp waveform signal ends. Each ramp waveform signal is sampled during its linear development segment to generate a reduced transition time ramp waveform signal. | 10-30-2008 |
| 20120086480 | CIRCUIT AND METHOD FOR SUB-HARMONIC ELIMINATION OF A POWER CONVERTER - A circuit and method are provided for a power converter to select one from a plurality of current limit signals as a final current limit signal according to the present duty ratio of a power switch for the pulse width modulation of the next cycle, so that the duty ratio of the power switch in the next cycle is prevented from acute variation to eliminate sub-harmonic which otherwise may happen. | 04-12-2012 |
| 20130314133 | METHOD AND APPARATUS FOR PRODUCING TRIANGULAR WAVEFORM WITH LOW AUDIO BAND NOISE CONTENT - A triangular waveform generator includes a square waveform clock circuit and an integrating circuit. The integration circuit receives input from the square waveform clock circuit and generates a triangular waveform output. A feedback circuit is operatively connected to the integrating circuit to reduce the audio band noise content in the triangular waveform output. The feedback circuit acts as a DC balance without significant sacrifice in the linearity of the triangular waveform output. | 11-28-2013 |
| 20140312939 | METHOD AND APPARATUS FOR REDUCING AUDIO BAND NOISE IN A PERIODIC WAVE SIGNAL - A triangular waveform generator includes a square waveform clock circuit and an integrating circuit. The integration circuit receives input from the square waveform clock circuit and generates a triangular waveform output. A feedback circuit is operatively connected to the integrating circuit to reduce the audio band noise content in the triangular waveform output. The feedback circuit acts as a DC balance without significant sacrifice in the linearity of the triangular waveform output. | 10-23-2014 |
| 20150028924 | OSCILLATOR CIRCUIT WITH OUTPUT SLOPE PROPORTIONAL TO SUPPLY VOLTAGE - A voltage-controlled oscillator (VCO) comprises a supply voltage node, configured to receive a supply voltage, a VCO output capacitor, configured to provide an oscillating output voltage across the capacitor, a discharge switch configured to discharge the capacitor according to an oscillation frequency of the oscillating output voltage, and a comparator circuit configured to provide, to a control terminal of the discharge switch, a control signal that is determined based on a comparison of the output voltage and a specified threshold voltage. The oscillating output voltage includes a pulse having a ramp slope that is determined as a function of a magnitude of the supply voltage, and is capable of being adjusted independently of the oscillation frequency. | 01-29-2015 |
| 20150109033 | METHOD AND APPARATUS FOR DRIVING HALF BRIDGE CONNECTED SEMICONDUCTOR POWER SWITCHES WITH A STABLE AND EXTREMELY SHORT INTERLOCK DELAY COMBINED WITH A SWITCHING TRANSITION SPEED INCREASE AND A DRIVING POWER CONSUMPTION REDUCTION - A driving circuit for driving half bridge connected electrically controlled power switches with a near zero interlock delay time between on-states of the power switches, wherein the driving circuit is configured to receive an input signal and to generate: —a first drive signal being adapted to switch a first power switch between the on and off state, —a second drive signal being adapted to switch a second power switch between the on and off state, wherein the signal curve of the first drive signal generated in response to a rising and falling edge of said input signal is mirrored with respect to the signal curve of the second drive signal along a time axis of a mirroring voltage value within a transition time, wherein the mirroring voltage value is adjusted such to be within the cutoff region of the power switches. | 04-23-2015 |
| 327134000 | With slope or duration control | 10 |
| 20090134921 | SLOPE COMPENSATION METHOD AND CIRCUIT FOR A PEAK CURRENT CONTROL MODE POWER CONVERTER CIRCUIT - A slope compensation method and circuit for a peak current control mode power converter circuit is provided. Since the power converter circuit has a synchronous signal of a driven signal of enabling the first primary switch and the second primary switch, a triangular wave signal is generated. The driven signals of the first and second primary switches determine the ramp up time of the triangular wave signal. The triangular wave signal is added to one of the output DC voltage feedback signal of the corresponding power converter circuit that are used to compare with a current peak value of the voltage feedback signals. Therefore, a high level triangular wave DC voltage feedback signal that is higher than the DC voltage feedback signal is formed, and the switching noises do not effect comparing result of a PWM controller of the power converter circuit. | 05-28-2009 |
| 20090174442 | Ramp generator and image sensor including the same - A ramp signal generator is provided. The ramp signal generator may include a ramp signal generation unit configured to generate a ramp signal based on an externally-supplied driving voltage and a ramp signal correction unit configured to feed back and compare the ramp signal with a reference signal and correct a driving voltage by generating a corrected voltage from a comparison value. The ramp signal generation unit may generate a corrected ramp signal where the slope changes based on a corrected driving voltage. | 07-09-2009 |
| 20100052742 | LIMIT SIGNAL GENERATOR, PWM CONTROL CIRCUIT, AND PWM CONTROL METHOD THEREOF - A PWM control circuit is disclosed. An oscillator generates a triangular signal, received by a limit signal generator to produce a limit signal accordingly. Corresponding to a rising period of the triangular signal, the limit signal sequentially experiences a first holding period, a rising period and a second holding period, wherein the limit signal has a first predetermined value during the first holding period and a second predetermined value during the second holding period. A compare/control circuit compares the limit signal with a detection signal corresponding to a current through a power switch, and controls the power switch accordingly. | 03-04-2010 |
| 20110006817 | TRIANGULAR WAVE GENERATOR, SSCG UTILIZING THE TRIANGULAR WAVE GENERATOR, AND RELATED METHOD THEREOF - A triangular wave generator, comprising: a first frequency divider, for utilizing a first positive integer to divide a first frequency of a first periodical signal to generate a first frequency-divided signal; a second frequency divider, for utilizing a second positive integer to divide a second frequency, which equals the first frequency multiplying a third positive integer, of a second periodical signal to generate a second frequency-divided signal; and an up/down counter, for generating a triangular wave first and second frequency-divided frequencies respectively belonging to first and second frequency divided signals; wherein a frequency of the triangular wave equals to the first frequency-divided frequency, and an amplitude of the triangular wave is determined according to a ratio of the first and second frequency-divided frequencies. | 01-13-2011 |
| 20110291709 | APPARATUS AND METHOD FOR GENERATING RAMP WAVEFORM - A ramp waveform generating apparatus generates a reference waveform by using an input signal and generates a driving control signal for turning on and off a switch having a first terminal connected to a load and a second terminal connected to a power supply by comparing the voltage of the reference waveform with the voltage of the load. While the switch is repetitively turned on and off in accordance with the driving control signal, a ramp waveform may be generated. | 12-01-2011 |
| 20130063190 | TRIANGULAR WAVEFORM GENERATOR HAVING DIFFERENTIAL OUTPUT SYNCHRONIZED WITH EXTERNAL CLOCK SIGNAL - One embodiment of the present invention relates to a waveform generator that includes a first pair of capacitors, a second pair of capacitors, an op amp and control logic. The op amp has inputs and provides a differential triangular waveform at its outputs as an output signal. The control logic includes capacitor control logic, ramp control logic, reset control logic and charge control logic. The capacitor control logic connects a current pair of the first and second capacitors to the inputs of the op amp. The ramp control logic provides ramp currents to the current pair. The reset control logic resets capacitors of a next pair to selected voltage(s), such as zero. The charge control logic charges the next pair of capacitors, typically after the next pair of capacitors has been driven to the selected voltage(s). | 03-14-2013 |
| 20150022249 | METHOD AND APPARATUS FOR GENERATING A RAMP SIGNAL - An apparatus and method for generating a ramp signal includes applying a constant reference voltage to a reference capacitor and controlling charging or discharging of the reference capacitor with a programmable current generator to provide the ramp signal at a ramp signal node. The method can include, buffering the ramp signal to an output node to drive a load. When generating the ramp signal having a negative slope, the programmable current generator includes a programmable current sink coupled to the ramp signal node. When generating the ramp signal having a positive slope, the programmable current generator includes a programmable current source that is coupled between a positive power supply node and the ramp signal node. When generating the ramp signal having a bidirectional slope, the programmable current generator includes a programmable current source and a programmable current sink. | 01-22-2015 |
| 20150054553 | PULSE WIDTH MODULATION CIRCUIT AND VOLTAGE-FEEDBACK CLASS-D AMPLIFIER CIRCUIT - The frequency characteristic of a voltage-feedback class-D amplifier circuit for driving an output load is improved. A triangular-wave correction circuit which compensates a gradient of a triangular wave is provided to a triangular-wave signal generator which supplies a triangular wave signal used as a PWM carrier to a comparison circuit for performing PWM modulation of an input signal. In an area where a duty of a command value for an output circuit drive becomes about 50%, a slew rate (gradient) of the triangular wave is decreased. | 02-26-2015 |
| 20160079969 | RANDOM SAMPLER ADAPTED TO ONE-DIMENSION SLOW-VARYING SIGNAL - A sampler adapted to a one-dimension slow-varying signal, including: a signal preprocessing unit configured to preprocess an input signal; a slope-controllable sawtooth wave signal generating unit configured to generate a slope-controllable sawtooth wave signal and perform zero-resetting; a signal comparing unit configured to compare the preprocessed input signal from the signal preprocessing unit with the sawtooth wave signal and to output a pulse signal to the generating unit and a signal outputting unit when the preprocessed input signal is equal to the sawtooth wave signal; a counting unit configured to count a number of clock signals while the sawtooth wave signal generating unit is generating the sawtooth wave signal and to transmit the counted number to the signal outputting unit; the signal outputting unit configured to, upon receipt of the pulse signal output from the signal comparing unit, output the number counted by the counting unit at the moment. | 03-17-2016 |
| 20160105164 | APPARATUS FOR GENERATING SWITCHING SIGNAL FOR ANALOG CONTROLLER - An apparatus for generating a switching signal for an analog controller includes: a voltage setting unit configured to set voltages V | 04-14-2016 |
| 327135000 | Having digital element | 1 |
| 20150303902 | RAMP GENERATION MODULE - A digitally controlled ramp generator has a constant current source, a first controllable switch coupled between the constant current source and an output node, a capacitor coupled with the output node, a second controllable switch coupled with the output node, a constant current sink coupled with the second controllable switch, and a control unit. The control unit is configured in a first operating mode to select control signals for the first and second controllable switch to generate a rising waveform by charging said capacitor through the first controllable switch and a falling waveform by discharging the capacitor through the second controllable switch wherein the control signals can be selected from the group of a time based control signal and a voltage based control signal. A variety of other control modes may be provided. | 10-22-2015 |
| 327136000 | Having particular delay or sync | 5 |
| 20080258784 | Controller IC, DC-AC conversion apparatus, and parallel running system of DC-AC conversion apparatuses - A DC power source voltage is supplied to a center tap of a primary winding, and first and second semiconductor switches alternately turned on are disposed between each of both ends of the primary winding and a common potential point, and a current flowing through a load is fed back and PWM control of each of the semiconductor switches is performed. Also, snubber circuits are respectively connected between a ground and the center tap of the primary winding, and an abnormal high voltage at the time of switching is reduced. Also, a parallel running of plural inverters is simply performed by disposing PWM comparators corresponding to the first and second semiconductor switches. | 10-23-2008 |
| 20090219064 | PULSE GENERATOR CIRCUIT AND COMMUNICATION APPARATUS - A pulse generator circuit that outputs pulses having a predetermined shape from an output terminal based on a start signal includes a timing generator circuit that generates (n) signals (n is an integer greater than or equal to 2), the phases of which sequentially change at predetermined time intervals from the point when the phase of the start signal changes, a pulse width signal generator circuit that generates a first pulse width signal and a second pulse width signal having a pulse width that corresponds to the duration of the pulses to be generated based on the start signal, a first filter circuit to which the first pulse width signal is inputted, the first filter circuit limiting the band of the first pulse width signal, a second filter circuit to which the second pulse width signal is inputted, the second filter circuit limiting the band of the second pulse width signal, first and second power supplies that supply predetermined potentials, a first variable impedance circuit whose impedance value is controlled by the output value from the first filter circuit, a second variable impedance circuit whose impedance value is controlled by the output value from the second filter circuit, and a switching circuit that alternately connects the output terminal to the first power supply via the first variable impedance circuit or the second power supply via the second variable impedance circuit using a logic function value based on at least part of the n signals. | 09-03-2009 |
| 20110115532 | MULTILEVEL CONVERTER OPERATION - A method of operating a neutral point clamped (NPC) three level converter is provided. The NPC converter includes at least two legs, each leg comprising first and second top switches connected in series at a first mid point. The converter further includes first and second bottom switches connected in series at a second mid point, and first and second middle switches connected in series at a third mid point therebetween. The first top and second bottom switches are connected in series at a DC link and the first and the second middle switches are connected between the first and the second mid points. Each of the top, bottom and middle switches has an antiparallel diode thereacross. The method includes alternately switching the first and second top switches to ON state when the first middle switch is in ON state and the second middle switch is in OFF state. The method also includes alternately switching the first and the second bottom switches to ON state when the first middle switch is in OFF state and the second middle switch is in ON state. | 05-19-2011 |
| 20120200321 | METHOD FOR GENERATING A SIGNAL AND STRUCTURE THEREFOR - In accordance with an embodiment, a modulator includes a comparator and ramp generating circuitry. A first comparison signal is generated in response to comparing a first input signal with a compensation signal. A second comparison signal is generated in response to comparing a second input signal with the compensation signal. A first latch signal is generated in response to the first comparison signal and a second latch signal is generated in response to the second comparison signal. | 08-09-2012 |
| 20150116012 | Digital Voltage Ramp Generator - According to some embodiments, an all digital ramp generator may use a string of series connected delays or digital to time-based circuits to perform voltage ramp generation. Thus in some embodiments conventional operational amplifier circuits and relaxation oscillators may be replaced for generating triangular ramp waveforms for DC to DC or direct time-based DC to DC converters. The use of delay lines may produce sufficient resolution for many applications. Thus time domain techniques may afford a more digital approach that scales with process technology and allows high speed operation in some embodiments. A design based on use of inverters and capacitors may scale well with process technology. The decoder and drive logic may be integrated into the voltage ramp generation in some embodiments. | 04-30-2015 |
| 327137000 | Having feedback | 6 |
| 20080231330 | RAMP GENERATOR AND CIRCUIT PATTERN INSPECTION APPARATUS USING THE SAME RAMP GENERATOR - The present invention provides a ramp generator capable of appropriately setting a rise starting point of an output voltage of a ramp waveform and an output voltage at the time of stable output. A current adjustment unit including a differential pair of transistors and an amplifier constitute a feedback circuit. By controlling the charging/discharging of an integration capacitor by ON/OFF of a discharge current source connected to a common emitter terminal of the current adjustment unit, an output of the ramp waveform outputted from an output terminal disposed at the connection end of the integration capacitor is controlled. | 09-25-2008 |
| 20100033215 | Method and Apparatus for Constant On-Time Switch Mode Converters - The teachings presented herein provide a method and apparatus for operating constant on-time DC/DC converters, including pseudo constant on-time variants, with a virtual current-mode slope signal. Use of the slope signal provides, among other advantages and improvements, greater noise immunity and the ability to operate with a wider range of converter output filters. More particularly, incorporating a properly synchronized slope signal into the on-time triggering comparison provides for a maximum slope offset at on-time triggering. Doing so prevent double-pulsing (i.e., erroneous on-time retriggering) and other undesirable behavior of conventional constant on-time DC/DC converters and, as a particular but non-limiting advantage, allows ready and advantageous use of the slope-compensated converter as taught herein with low ESR capacitors in the output filter. | 02-11-2010 |
| 20110148481 | WAVEFORM GENERATION CIRCUIT - A waveform generation circuit includes: a waveform generation block configured to generate a waveform signal corresponding to a driving control signal; and a control signal generation block configured to generate a driving control signal for compensating the waveform signal for an environmental factor reflected into the waveform generation circuit. | 06-23-2011 |
| 20110193597 | METHOD AND APPARATUS FOR PRODUCING TRIANGULAR WAVEFORM WITH LOW AUDIO BAND CONTENT - A triangular waveform generator includes a square waveform clock circuit and an active integrator. The active integrator receives input from the square waveform clock circuit and generates a triangular waveform output. An active feedback network is operatively added to the active integrator to reduce the audio band noise content in the triangular waveform output. The feedback network acts as a DC balance without significant sacrifice in the linearity of the triangular waveform output. | 08-11-2011 |
| 20120223747 | Method and Apparatus for Producing Triangular Waveform with Low Audio Band Content - A triangular waveform generator includes a square waveform clock circuit and an integrating circuit. The integration circuit receives input from the square waveform clock circuit and generates a triangular waveform output. A feedback circuit is operatively connected to the integrating circuit to reduce the audio band noise content in the triangular waveform output. The feedback circuit acts as a DC balance without significant sacrifice in the linearity of the triangular waveform output. | 09-06-2012 |
| 20140055176 | Low Noise Accelerated Continuous-Time Ramp Generator - A ramp generator circuit, e.g. foreign analog-to-digital converter. The ramp generator circuit has first and second current sources that are maintained in the on condition whether they are being used or not. A switched capacitor connects to the current source in order to create a multi-slope ramp. | 02-27-2014 |
| 327140000 | With amplitude control | 4 |
| 20090309636 | Triangle wave generator and switching regulator - A switching regulator maintain an output voltage substantially constant by using a first comparator that compares a power supply voltage with the output voltage of the switching regulator, a triangle wave formation circuit that changes amplitude of a triangle wave according to an output signal of the first comparator, and a triangle wave generated by the triangle wave formation circuit. | 12-17-2009 |
| 20100231272 | BUCK-BOOST POWER CONVERTER WITH FEED-FORWARD TECHNIQUE FOR ACHIEVING FAST LINE RESPONSE - A buck-boost power converter includes a power stage to convert an input voltage to an output voltage, an error amplifier to generate an error signal according to a reference voltage and a feedback signal proportional to the output voltage, a ramp generator to provide two ramp signals, and two comparators to generate two control signals according to the error signal and the two ramp signals to drive the power stage. By using feed-forward technique, one of the two ramp signals has a peak varying with the input voltage and the other ramp signal has a valley varying with the input voltage, so that the power converter has fast line response. | 09-16-2010 |
| 20130027094 | TRIANGULAR WAVE GENERATOR AND METHOD GENERATING TRIANGULAR WAVE THEREOF - Disclosed is a triangular wave generator which includes a square wave signal generating unit configured to output a first signal transitioning to a high level from a low level via an output terminal in response to a first transition of a clock signal and to transition the first signal to a low level from a high level in response to a reset signal; a resistance unit configured to adjust a voltage level of a the square wave signal; and a capacitance unit configured to receive an output signal of the resistance unit to generate a second signal rising to a high level from a low level with a slope, to provide the reset signal to the square wave signal generating unit, and to output a triangular signal by falling the second signal to a low level from a high level with a slope. | 01-31-2013 |
| 20140132314 | TRIANGULAR WAVEFORM GENERATING APPARATUS - There is provided a triangular waveform generating apparatus. The triangular waveform generating apparatus includes: a capacitor connected between an output terminal and a ground; a charging/discharging unit including a plurality of current sources to charge the capacitor with currents generated from the plurality of current sources or discharge currents therefrom; and a control unit comparing a charge voltage of the capacitor with a plurality of preset reference voltages and controlling the charging/discharging unit to allow a quantity of current charged in or discharged from the capacitor to be different in each of a plurality of periods formed by the plurality of reference voltages. | 05-15-2014 |
