Patents by Inventor Antonio Priego
Antonio Priego has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20190123641Abstract: Disclosed examples include a transient event detector circuit to detect transient events in a switching converter, including a DLL circuit to detect changes in a duty cycle of a pulse width modulation signal used to operate a switching converter, and an output circuit to provide a status output signal in a first state when no transient event is detected, and to provide the status output signal in a second state indicating a transient event in the switching converter in response to a detected change in the duty cycle of the pulse width modulation signal.Type: ApplicationFiled: December 19, 2018Publication date: April 25, 2019Inventors: Michael Couleur, Neil Gibson, Antonio Priego
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Publication number: 20190123632Abstract: A timing regulation circuit includes a fixed and tunable timer. A current source generates a source current I1 proportional to an inductor voltage ?V1 of a DC-DC converter during an energizing phase and a current source generates a sink current I2 proportional to inductor voltage ?V2 during a de-energizing phase. The fixed timer controls a first switch in series with I1 or I2 and the tunable timer controls a balancing switch in series with the other current. I1 or I2 is coupled by the first switch and the other current is coupled by the balancing switch to a common capacitor that provides a regulation voltage to the tunable timer which outputs a regulated duration (Tregulated) for an energizing or de-energizing phase. When Tregulated closes the balancing switch the common capacitor provides a predicted current returning inductor current to a starting value when all phases finish for providing a volt-second balance.Type: ApplicationFiled: August 20, 2018Publication date: April 25, 2019Inventors: MICHAEL COULEUR, NEIL GIBSON, ANTONIO PRIEGO
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Patent number: 10270346Abstract: A multiphase power regulator includes a plurality of phases coupled in parallel to provide a load current as a combination of phase currents at an output voltage, each phase including at least one power transistor switched to provide a respective phase current based at least in part on a comparator output signal, and a current-sense low pass filter to sense the phase current. The regulator further includes a gm stage to generate the current set point voltage based at least in part on the output voltage, a comparator to compare a voltage from the current-sense low pass filters to the current set point voltage and a current set point adjustment circuit to provide an auxiliary control signal to decrease the current set point voltage responsive to a change in comparator output and then to increase the current set point voltage responsive to another change in comparator output.Type: GrantFiled: December 22, 2017Date of Patent: April 23, 2019Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Antonio Priego, Neil Gibson, Syed Wasif Mehdi
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Patent number: 10243464Abstract: A controller including a voltage synthesizer for a switching regulator includes a synthesizer input to be coupled to an input of the regulator. First and second replica switching transistors are connected at a first node. A resistor couples between the first node and a second node, and a capacitor couples between the second node and ground. A transconductance stage compares a voltage sampled onto the capacitor to the output voltage of the regulator and generates an output signal in response to the comparison. A first switch couples between first and second inputs of the transconductance stage. The first switch is turned on during each cycle of operation of the voltage synthesizer to reset the capacitor voltage to the output voltage of the regulator.Type: GrantFiled: December 26, 2017Date of Patent: March 26, 2019Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Syed Wasif Mehdi, Neil Gibson, Antonio Priego
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Patent number: 10199929Abstract: Disclosed examples include a transient event detector circuit to detect transient events in a switching converter, including a DLL circuit to detect changes in a duty cycle of a pulse width modulation signal used to operate a switching converter, and an output circuit to provide a status output signal in a first state when no transient event is detected, and to provide the status output signal in a second state indicating a transient event in the switching converter in response to a detected change in the duty cycle of the pulse width modulation signal.Type: GrantFiled: October 3, 2016Date of Patent: February 5, 2019Assignee: Texas Instruments IncorporatedInventors: Michael Couleur, Neil Gibson, Antonio Priego
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Patent number: 10148177Abstract: A multi-phase power converter includes a plurality of power channels arranged in parallel to drive an output of the power converter, and a channel selection circuit. Each of the power channels includes a driver, a feedback control circuit coupled to an output of the driver, and a comparator coupled to the feedback control circuit. The channel selection circuit is coupled to the feedback control circuit of each of the power channels. The channel control circuit is configured to: select a different specific one of the power channels to activate in each of a plurality of phases, and introduce an offset voltage into each of the feedback control circuits, except the feedback control circuit of the specific one of the power channels. The feedback control circuit is configured to apply the offset to bias driver output feedback voltage away from a threshold voltage at which the power channel is activated.Type: GrantFiled: December 28, 2016Date of Patent: December 4, 2018Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Stefan Herzer, Michael Couleur, Antonio Priego
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Publication number: 20180294724Abstract: A controller including a voltage synthesizer for a switching regulator includes a synthesizer input to be coupled to an input of the regulator. First and second replica switching transistors are connected at a first node. A resistor couples between the first node and a second node, and a capacitor couples between the second node and ground. A transconductance stage compares a voltage sampled onto the capacitor to the output voltage of the regulator and generates an output signal in response to the comparison. A first switch couples between first and second inputs of the transconductance stage. The first switch is turned on during each cycle of operation of the voltage synthesizer to reset the capacitor voltage to the output voltage of the regulator.Type: ApplicationFiled: December 26, 2017Publication date: October 11, 2018Inventors: Syed Wasif MEHDI, Neil GIBSON, Antonio PRIEGO
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Publication number: 20180294726Abstract: A multiphase power regulator includes a plurality of phases coupled in parallel to provide a load current as a combination of phase currents at an output voltage, each phase including at least one power transistor switched to provide a respective phase current based at least in part on a comparator output signal, and a current-sense low pass filter to sense the phase current. The regulator further includes a gm stage to generate the current set point voltage based at least in part on the output voltage, a comparator to compare a voltage from the current-sense low pass filters to the current set point voltage and a current set point adjustment circuit to provide an auxiliary control signal to decrease the current set point voltage responsive to a change in comparator output and then to increase the current set point voltage responsive to another change in comparator output.Type: ApplicationFiled: December 22, 2017Publication date: October 11, 2018Inventors: Antonio PRIEGO, Neil GIBSON, Syed Wasif MEHDI
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Publication number: 20180262185Abstract: Disclosed examples include self-biased DLL circuits to generate a bias current signal proportional to a repetition frequency of a first signal representing continuous switching or discontinued switching operation of the DC-DC converter. The DLL circuit includes a monostable multivibrator to provide a pulse output signal in response to an edge of the first signal with a pulse duration set by a control current signal, a phase detector to provide output signals according to a phase difference between an edge of the pulse output signal and the first signal, and an output circuit to provide an output signal according to the phase detector output signals and according to an offset signal, to provide the bias current signal according to the output signal, and to provide the control current signal according to the output signal.Type: ApplicationFiled: May 10, 2018Publication date: September 13, 2018Inventors: Michael Couleur, Neil Gibson, Antonio Priego
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Patent number: 10069416Abstract: A controller for a DC-DC converter includes a state machine and a plurality of drivers for controlling switches in the DC-DC converter, where each state in the state machine determines a state of the drivers, and a plurality of timers, where each state in the state machine, other than a passive state, has an associated timer for the state of the drivers.Type: GrantFiled: December 13, 2016Date of Patent: September 4, 2018Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Neil Gibson, Antonio Priego, Erich Bayer, Joerg Kirchner, Michael Lueders, Stefan Herzer, Michael Couleur
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Patent number: 10056819Abstract: A timing regulation circuit includes a fixed and tunable timer. A current source generates a source current I1 proportional to an inductor voltage ?V1 of a DC-DC converter during an energizing phase and a current source generates a sink current I2 proportional to inductor voltage ?V2 during a de-energizing phase. The fixed timer controls a first switch in series with I1 or I2 and the tunable timer controls a balancing switch in series with the other current. I1 or I2 is coupled by the first switch and the other current is coupled by the balancing switch to a common capacitor that provides a regulation voltage to the tunable timer which outputs a regulated duration (Tregulated) for an energizing or de-energizing phase. When Tregulated closes the balancing switch the common capacitor provides a predicted current returning inductor current to a starting value when all phases finish for providing a volt-second balance.Type: GrantFiled: October 24, 2017Date of Patent: August 21, 2018Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Michael Couleur, Neil Gibson, Antonio Priego
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Publication number: 20180183332Abstract: A multi-phase power converter includes a plurality of power channels arranged in parallel to drive an output of the power converter, and a channel selection circuit. Each of the power channels includes a driver, a feedback control circuit coupled to an output of the driver, and a comparator coupled to the feedback control circuit. The channel selection circuit is coupled to the feedback control circuit of each of the power channels. The channel control circuit is configured to: select a different specific one of the power channels to activate in each of a plurality of phases, and introduce an offset voltage into each of the feedback control circuits, except the feedback control circuit of the specific one of the power channels. The feedback control circuit is configured to apply the offset to bias driver output feedback voltage away from a threshold voltage at which the power channel is activated.Type: ApplicationFiled: December 28, 2016Publication date: June 28, 2018Applicant: TEXAS INSTRUMENTS DEUTSCHLAND GMBHInventors: Stefan HERZER, Michael COULEUR, Antonio PRIEGO
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Patent number: 10009019Abstract: Disclosed examples include self-biased DLL circuits to generate a bias current signal proportional to a repetition frequency of a first signal representing continuous switching or discontinued switching operation of the DC-DC converter. The DLL circuit includes a monostable multivibrator to provide a pulse output signal in response to an edge of the first signal with a pulse duration set by a control current signal, a phase detector to provide output signals according to a phase difference between an edge of the pulse output signal and the first signal, and an output circuit to provide an output signal according to the phase detector output signals and according to an offset signal, to provide the bias current signal according to the output signal, and to provide the control current signal according to the output signal.Type: GrantFiled: September 30, 2016Date of Patent: June 26, 2018Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Michael Couleur, Neil Gibson, Antonio Priego
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Publication number: 20180166990Abstract: A controller for a DC-DC converter includes a state machine and a plurality of drivers for controlling switches in the DC-DC converter, where each state in the state machine determines a state of the drivers, and a plurality of timers, where each state in the state machine, other than a passive state, has an associated timer for the state of the drivers.Type: ApplicationFiled: December 13, 2016Publication date: June 14, 2018Inventors: Neil Gibson, Antonio Priego, Erich Bayer, Joerg Kirchner, Michael Lueders, Stefan Herzer, Michael Couleur
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Publication number: 20180097513Abstract: Disclosed examples include self-biased DLL circuits to generate a bias current signal proportional to a repetition frequency of a first signal representing continuous switching or discontinued switching operation of the DC-DC converter. The DLL circuit includes a monostable multivibrator to provide a pulse output signal in response to an edge of the first signal with a pulse duration set by a control current signal, a phase detector to provide output signals according to a phase difference between an edge of the pulse output signal and the first signal, and an output circuit to provide an output signal according to the phase detector output signals and according to an offset signal, to provide the bias current signal according to the output signal, and to provide the control current signal according to the output signal.Type: ApplicationFiled: September 30, 2016Publication date: April 5, 2018Inventors: Michael Couleur, Neil Gibson, Antonio Priego
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Publication number: 20180097443Abstract: Disclosed examples include a transient event detector circuit to detect transient events in a switching converter, including a DLL circuit to detect changes in a duty cycle of a pulse width modulation signal used to operate a switching converter, and an output circuit to provide a status output signal in a first state when no transient event is detected, and to provide the status output signal in a second state indicating a transient event in the switching converter in response to a detected change in the duty cycle of the pulse width modulation signal.Type: ApplicationFiled: October 3, 2016Publication date: April 5, 2018Inventors: Michael Couleur, Neil Gibson, Antonio Priego
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Publication number: 20170310216Abstract: A DC-to-DC voltage converter includes a converter input for receiving a DC voltage. A first switch is coupled between the input and a first node. A second switch is coupled between the first node and a ground. An inductor is coupled between the first node and a converter output. A capacitor is coupled between the converter output and ground. An output voltage synthesizer is coupled to the converter input and the converter output for synthesizing the voltage at the first node and for generating a control signal for at least one of the first switch and the second switch in response to the voltages at the converter input and the converter output.Type: ApplicationFiled: April 22, 2016Publication date: October 26, 2017Inventors: Neil Gibson, Michael Couleur, Antonio Priego, Stefan Herzer
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Patent number: 8618850Abstract: An electronic device includes a DC-DC converter for voltage conversion in a slave mode an in a master mode and including a phase locked loop. The phase locked loop comprises a controlled oscillator, a filter having an integration capacitor coupled to a control input of the controlled oscillator, a charge pump, and a phase frequency detector. In the slave mode, the controlled oscillator, the filter, the charge pump and the phase frequency detector are coupled to operate as the phase locked loop. There is a comparator coupled with an input to a control input of the controlled oscillator and with an output to the charge pump. In the master mode, the comparator is configured to control the charge pump in response to a control signal at the control input of the controlled oscillator when the phase frequency detector is switched off so as to perform a modulation of the control signal at the control input of the controlled oscillator by charging and discharging the integration capacitor.Type: GrantFiled: December 23, 2009Date of Patent: December 31, 2013Assignee: Texas Instruments Deutschland GmbHInventor: Antonio Priego
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Publication number: 20100164570Abstract: An electronic device includes a DC-DC converter for voltage conversion in a slave mode an in a master mode and including a phase locked loop. The phase locked loop comprises a controlled oscillator, a filter having an integration capacitor coupled to a control input of the controlled oscillator, a charge pump, and a phase frequency detector. In the slave mode, the controlled oscillator, the filter, the charge pump and the phase frequency detector are coupled to operate as the phase locked loop. There is a comparator coupled with an input to a control input of the controlled oscillator and with an output to the charge pump. In the master mode, the comparator is configured to control the charge pump in response to a control signal at the control input of the controlled oscillator when the phase frequency detector is switched off so as to perform a modulation of the control signal at the control input of the controlled oscillator by charging and discharging the integration capacitor.Type: ApplicationFiled: December 23, 2009Publication date: July 1, 2010Applicant: Texas Instruments Deutschland GmbHInventor: Antonio Priego
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Patent number: 7369068Abstract: Digital data are recovered from a clocked serial input signal. The input signal is sampled with a sampling clock signal supplied by a first phase interpolator to obtain a sampled digital signal. The first phase interpolator is controlled with a voting circuit to adjust the phase of the sampling clock relative to the eye in the eye-diagram of the input signal. The first phase interpolator has signal inputs connected to signal outputs of a voltage controlled oscillator in a phase-locked loop circuit that has a reference signal input to which the reference clock signal is applied. The sampled digital signal is written to a single-bit FIFO buffer with a write clock signal that has the same timing as the sampling clock. A filtered output signal is read from the FIFO buffer with a read clock signal supplied by a second phase interpolator that has signal inputs connected to the signal outputs of the voltage controlled oscillator in the phase-locked loop.Type: GrantFiled: March 14, 2006Date of Patent: May 6, 2008Assignee: Texas Instruments Deutschland, GmbHInventors: Joerg Goller, Antonio Priego