Patents by Inventor Andre Luis Vilas Boas
Andre Luis Vilas Boas 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).
-
Patent number: 11979151Abstract: An integrated circuit includes a plurality of analog inputs, and an analog multiplexer (MUX). The MUX includes a common output node configured to provide a MUX output, a plurality of analog switches, and a shared buffer. Each switch includes a corresponding bootstrap circuit coupled to a control electrode of a corresponding pass transistor in which the corresponding bootstrap circuit includes a corresponding boosting capacitor. Each analog switch of the plurality of analog switches has a first input coupled to a corresponding analog input of the plurality of analog inputs, a second input, and an output coupled to the common output node. The shared buffer has an input coupled to the common output node and coupled to provide a common buffered MUX output to the second input of each of the plurality of analog switches.Type: GrantFiled: September 20, 2022Date of Patent: May 7, 2024Assignee: NXP USA, Inc.Inventors: Khoi Mai, Michael Todd Berens, Andre Luis Vilas Boas, Felipe Ricardo Clayton
-
Publication number: 20240097686Abstract: An integrated circuit includes a plurality of analog inputs, and an analog multiplexer (MUX). The MUX includes a common output node configured to provide a MUX output, a plurality of analog switches, and a shared buffer. Each switch includes a corresponding bootstrap circuit coupled to a control electrode of a corresponding pass transistor in which the corresponding bootstrap circuit includes a corresponding boosting capacitor. Each analog switch of the plurality of analog switches has a first input coupled to a corresponding analog input of the plurality of analog inputs, a second input, and an output coupled to the common output node. The shared buffer has an input coupled to the common output node and coupled to provide a common buffered MUX output to the second input of each of the plurality of analog switches.Type: ApplicationFiled: September 20, 2022Publication date: March 21, 2024Inventors: Khoi Mai, Michael Todd Berens, Andre Luis Vilas Boas, Felipe Ricardo Clayton
-
Patent number: 11644487Abstract: An integrated circuit including a comparator having a first input to receive a reference voltage, a second input, and an output to provide an under-voltage indicator. Sense points are configured to provide a plurality of sense point voltages, each sense point providing a corresponding sense point voltage of the plurality of sense point voltages; and a minimum voltage tracking circuit configured to receive the plurality of sense point voltages and provide an output voltage which tracks whichever sense point voltage of the plurality of sense point voltages is currently a minimum sense point voltage. The comparator receives the output voltage at the second input and asserts the under-voltage indicator when the output voltage is below the reference voltage.Type: GrantFiled: April 21, 2021Date of Patent: May 9, 2023Assignee: NXP B.V.Inventors: Andre Luis Vilas Boas, Bruno Caceres Carrilho, Andre Gunther, Jeffrey Alan Goswick
-
Publication number: 20220341975Abstract: An integrated circuit including a comparator having a first input to receive a reference voltage, a second input, and an output to provide an under-voltage indicator. Sense points are configured to provide a plurality of sense point voltages, each sense point providing a corresponding sense point voltage of the plurality of sense point voltages; and a minimum voltage tracking circuit configured to receive the plurality of sense point voltages and provide an output voltage which tracks whichever sense point voltage of the plurality of sense point voltages is currently a minimum sense point voltage. The comparator receives the output voltage at the second input and asserts the under-voltage indicator when the output voltage is below the reference voltage.Type: ApplicationFiled: April 21, 2021Publication date: October 27, 2022Inventors: Andre Luis Vilas Boas, Bruno Caceres Carrilho, Andre Gunther, Jeffrey Alan Goswick
-
Patent number: 11171562Abstract: Multi-sense point voltage regulator systems are provided for usage in conjunction with power-regulated devices, such as system-on-chip and microcontroller unit devices. In embodiments, the multi-sense point voltage regulator system includes a multiplexer selector circuit and a voltage regulator. The multiplexer selector circuit is configured to: (i) monitor a local voltages at multiple sense points within an integrated circuit (IC) die circuit structure; and (ii) generate a feedback voltage indicative of a lowest one of the monitored local voltages. The voltage regulator is configured to generate a regulated power supply output voltage as a function of a differential between the feedback voltage and the reference voltage, with the regulated power supply output voltage provided to the IC die circuit structure to drive operation thereof.Type: GrantFiled: July 7, 2020Date of Patent: November 9, 2021Assignee: NXP USA, INC.Inventors: Andre Luis Vilas Boas, Marcelo Fukui, Andre Gunther
-
Patent number: 11106231Abstract: An integrated circuit (IC) is disclosed that includes a load circuit, and a voltage regulator circuit configured to provide a load voltage and a load current to the load circuit. The voltage regulator circuit can regulate the load voltage based on the load current.Type: GrantFiled: September 30, 2020Date of Patent: August 31, 2021Assignee: NXP USA, Inc.Inventors: Vitor Moreira Gomes, Ricardo Pureza Coimbra, Andre Luis Vilas Boas
-
Patent number: 10979033Abstract: A current-controlled oscillator receives an input current. Ramp voltage generating circuitry generates first and second ramp voltages in response to the input current. Selecting circuitry selects one of the first and second ramp voltages depending on their relative values. Switching circuitry receives a selected ramp voltage, generates a signal based on the selected ramp voltage relative to a reference voltage, and outputs a clock signal. In one embodiment, a comparator receives the reference voltage, one of the first and second ramp voltages, and outputs a comparison signal. Logic circuitry controls the ramp voltage generating circuitry to output one of the ramp voltages during one half of a clock cycle and to output the other ramp voltage during another half cycle of the clock signal based on the comparison signal and logic states of the logic circuitry.Type: GrantFiled: July 27, 2020Date of Patent: April 13, 2021Assignee: NXP USA, Inc.Inventors: Andre Luis Vilas Boas, Felipe Ricardo Clayton
-
Publication number: 20200358428Abstract: A current-controlled oscillator receives an input current. Ramp voltage generating circuitry generates first and second ramp voltages in response to the input current. Selecting circuitry selects one of the first and second ramp voltages depending on their relative values. Switching circuitry receives a selected ramp voltage, generates a signal based on the selected ramp voltage relative to a reference voltage, and outputs a clock signal. In one embodiment, a comparator receives the reference voltage, one of the first and second ramp voltages, and outputs a comparison signal. Logic circuitry controls the ramp voltage generating circuitry to output one of the ramp voltages during one half of a clock cycle and to output the other ramp voltage during another half cycle of the clock signal based on the comparison signal and logic states of the logic circuitry.Type: ApplicationFiled: July 27, 2020Publication date: November 12, 2020Inventors: Andre Luis Vilas Boas, Felipe Ricardo Clayton
-
Patent number: 10742052Abstract: An apparatus and method for synchronously discharging multiple capacitive loads. In one embodiment, the apparatus includes first and second discharge circuits for discharging first and second capacitive loads, respectively. The apparatus also includes a control circuit coupled to the first and second discharge circuits and configured to control the second discharge circuit. The control circuit includes a first scaler circuit configured to generate a first scaled voltage based on a first voltage on the first capacitive load, a second scaler circuit configured to generate a second scaled voltage based on a second voltage on the second capacitive load, and a comparator circuit for comparing the first and second scaled voltages. The comparator circuit asserts a control signal when the second scaled voltage exceeds the first scaled voltage. The second discharge circuit discharges the second capacitive load when the comparator circuit asserts its control signal.Type: GrantFiled: May 13, 2019Date of Patent: August 11, 2020Assignee: NXP USA, Inc.Inventors: Marcos Mauricio Pelicia, Andre Luis Vilas Boas
-
Patent number: 10734975Abstract: A current-controlled oscillator receives an input current. Ramp voltage generating circuitry generates first and second ramp voltages in response to the input current. Selecting circuitry selects one of the first and second ramp voltages depending on their relative values. Switching circuitry receives a selected ramp voltage, generates a signal based on the selected ramp voltage relative to a reference voltage, and outputs a clock signal. In one embodiment, a comparator receives the reference voltage, one of the first and second ramp voltages, and outputs a comparison signal. Logic circuitry controls the ramp voltage generating circuitry to output one of the ramp voltages during one half of a clock cycle and to output the other ramp voltage during another half cycle of the clock signal based on the comparison signal and logic states of the logic circuitry.Type: GrantFiled: May 8, 2019Date of Patent: August 4, 2020Assignee: NXP USA, Inc.Inventors: Andre Luis Vilas Boas, Felipe Ricardo Clayton
-
Patent number: 10444778Abstract: A voltage regulator circuit that regulates voltage on an output node that provides power to a load circuit having varying current draw. A feedback voltage from the output node is compared to reference voltages. In response to the comparisons, pull-up/down circuits are applied to a gate-control node connected to the gate of a pass transistor. The voltage of the gate-control node is adjusted by integrating current from the pull-up/down circuits. In response to the feedback voltage being between the first and second reference voltages, the voltage on the gate-control node is maintained by disabling the pull-up/down circuits at the gate-control node.Type: GrantFiled: August 9, 2016Date of Patent: October 15, 2019Assignee: NXP USA, Inc.Inventors: Andre Luis Vilas Boas, Dale McQuirk, Miten Nagda, Richard Titov Lara Saez
-
Patent number: 10243456Abstract: A voltage regulator includes first and second bias circuits, a transistor, and a load prediction circuit. The transistor has a first current electrode coupled to a first power supply voltage terminal, a second current electrode for providing a regulated output voltage, and a control electrode. The first biasing circuit is for providing a first bias voltage to the control electrode of the transistor in response to a feedback signal generated from the regulated output voltage. The second biasing circuit is for providing a second bias voltage to the control electrode of the transistor in response to a control signal. The load current prediction circuit is coupled to the second biasing circuit. The load prediction circuit is for providing the control signal to the second biasing circuit in response to determining that a load current at the second current electrode is expected to increase.Type: GrantFiled: June 2, 2017Date of Patent: March 26, 2019Assignee: NXP USA, Inc.Inventors: Marcos Mauricio Pelicia, Andre Luis Vilas Boas, Richard Titov Lara Saez
-
Patent number: 10216452Abstract: An apparatus embodiment includes an integrated circuit (IC) and breach-detection circuitry. The IC includes data storage circuitry, a power grid configured to distribute power to the data storage circuitry, and a plurality of nodes distributed over at least one sensitive region of the IC. The breach-detection circuitry monitors power grid integrity at the at least one sensitive region of the IC and detects an event indicative of a breach by an external probe at a portion of the at least one sensitive region in response to floating node detection or a change in voltage at one of the plurality of nodes.Type: GrantFiled: July 14, 2016Date of Patent: February 26, 2019Assignee: NXP USA, Inc.Inventors: Fabio Duarte De Martin, Andre Luis Vilas Boas, Guilherme Godoi
-
Publication number: 20180351450Abstract: A voltage regulator includes first and second bias circuits, a transistor, and a load prediction circuit. The transistor has a first current electrode coupled to a first power supply voltage terminal, a second current electrode for providing a regulated output voltage, and a control electrode. The first biasing circuit is for providing a first bias voltage to the control electrode of the transistor in response to a feedback signal generated from the regulated output voltage. The second biasing circuit is for providing a second bias voltage to the control electrode of the transistor in response to a control signal. The load current prediction circuit is coupled to the second biasing circuit. The load prediction circuit is for providing the control signal to the second biasing circuit in response to determining that a load current at the second current electrode is expected to increase.Type: ApplicationFiled: June 2, 2017Publication date: December 6, 2018Inventors: MARCOS MAURICIO PELICIA, ANDRE LUIS VILAS BOAS, RICHARD TITOV LARA SAEZ
-
Patent number: 10061339Abstract: A circuit includes first, second, and third power supply terminals. The circuit includes an input node coupled to receive a negative voltage and an output node coupled to provide a positive voltage proportional to the negative voltage. The circuit includes a voltage-to-current converter coupled to the first power supply terminal and the input node and configured to generate an intermediate current proportional to the negative voltage at the input node. The circuit also includes a current mirror coupled to the second power supply terminal and third power supply terminal and configured to mirror the intermediate current through a first resistor to provide the positive proportional voltage.Type: GrantFiled: November 3, 2017Date of Patent: August 28, 2018Assignee: NXP USA, Inc.Inventors: Andre Luis Vilas Boas, Richard Titov Lara Saez, Ivan Carlos Ribeiro Do Nascimento, Marcelo de Paula Campos, Pedro Barbosa Zanetta
-
Patent number: 9997254Abstract: A sample-and-hold circuit, which includes a hold capacitor at its output terminal and at least one intermediate capacitor, intermittently receives an input voltage, and a first value of a switch enable signal causes the sample-and-hold circuit to sample the input voltage and to charge the at least one intermediate capacitor and the hold capacitor to the input voltage, and when it is not receiving the input voltage, a second value of the switch enable signal causes the sample-and-hold circuit to hold, at its output terminal, the input voltage until the hold capacitor discharges, which starts to discharge only after the at least one intermediate capacitor has substantially discharged.Type: GrantFiled: July 13, 2016Date of Patent: June 12, 2018Assignee: NXP USA, INC.Inventors: André Luis Vilas Boas, Richard Titov Lara Saez, Javier Mauricio Olarte Gonzalez
-
Publication number: 20180151242Abstract: A sample and hold circuit including a charge path coupled to a voltage source. A first node of the charge path is located closer to the voltage source in the charge path than a second node of the charge path. The second node is coupled to an output of the sample and hold circuit to provide an output voltage. The sample and hold circuit includes a comparator circuit that compares the voltage of the first node and the voltage of the second node. When the comparator circuit determines that the voltage of the first node is a first condition with respect to a voltage of the second node, a voltage source provides a charging voltage on the first path to charge a first capacitor and a second capacitor to the charging voltage.Type: ApplicationFiled: November 30, 2016Publication date: May 31, 2018Inventors: Andre Luis Vilas Boas, Richard Titov Lara Saez, Ivan Carlos Ribeiro Do Nascimento, Javier Mauricio Olarte Gonzalez
-
Patent number: 9984763Abstract: A sample and hold circuit including a charge path coupled to a voltage source. A first node of the charge path is located closer to the voltage source in the charge path than a second node of the charge path. The second node is coupled to an output of the sample and hold circuit to provide an output voltage. The sample and hold circuit includes a comparator circuit that compares the voltage of the first node and the voltage of the second node. When the comparator circuit determines that the voltage of the first node is a first condition with respect to a voltage of the second node, a voltage source provides a charging voltage on the first path to charge a first capacitor and a second capacitor to the charging voltage.Type: GrantFiled: November 30, 2016Date of Patent: May 29, 2018Assignee: NXP USA, INC.Inventors: Andre Luis Vilas Boas, Richard Titov Lara Saez, Ivan Carlos Ribeiro Do Nascimento, Javier Mauricio Olarte Gonzalez
-
Patent number: 9964975Abstract: A circuit includes a first resistive element having a first terminal coupled to an input node to receive a negative voltage, a second resistive element having a first terminal coupled to a first power supply terminal, and a third resistive element having a first terminal coupled to the first power supply terminal. A first current mirror includes a first transistor coupled to a second terminal of the second resistive element and a second transistor coupled to a second terminal of the third resistive element and the first transistor, wherein the output node corresponds to the second terminal of the third resistive element. A second current mirror includes a third transistor coupled to the first transistor and a fourth transistor coupled to the second transistor, third transistor, and a second terminal of the first resistive element. The circuit converts the negative voltage to the positive proportion voltage.Type: GrantFiled: September 29, 2017Date of Patent: May 8, 2018Assignee: NXP USA, Inc.Inventors: Pedro Barbosa Zanetta, Andre Luis Vilas Boas
-
Publication number: 20180046211Abstract: A voltage regulator circuit that regulates voltage on an output node that provides power to a load circuit having varying current draw. A feedback voltage from the output node is compared to reference voltages. In response to the comparisons, pull-up/down circuits are applied to a gate-control node connected to the gate of a pass transistor. The voltage of the gate-control node is adjusted by integrating current from the pull-up/down circuits. In response to the feedback voltage being between the first and second reference voltages, the voltage on the gate-control node is maintained by disabling the pull-up/down circuits at the gate-control node.Type: ApplicationFiled: August 9, 2016Publication date: February 15, 2018Inventors: Andre Luis Vilas Boas, Dale McQuirk, Miten Nagda, Richard Titov Lara Saez