Patents by Inventor Ramin Zanbaghi
Ramin Zanbaghi 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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Patent number: 10720888Abstract: An integrated circuit may have two signal paths: an open-loop modulator (which may comprise a digital-input Class-D amplifier) and a closed-loop modulator (which may comprise an analog-input Class-D amplifier). A control subsystem may be capable of selecting either of the open-loop modulator or the closed-loop modulator as a selected path based on one or more characteristics (e.g., signal magnitude) of an input audio signal. For example, for higher-magnitude signals, the closed-loop modulator may be selected while the open-loop modulator may be selected for lower-magnitude signals. In some instances, when the open-loop modulator is selected as the selected path, the closed-loop modulator may power off, which may reduce power consumption. In addition, one or more techniques may be applied to reduce or eliminate user-perceptible audio artifacts caused by switching between the open-loop modulator and the closed-loop modulator, and vice versa.Type: GrantFiled: October 28, 2016Date of Patent: July 21, 2020Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Aaron J. Brennan, John L. Melanson, Mikel Ash
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Patent number: 10659029Abstract: An apparatus in a PWM modulator includes a triangular wave generator that generates a triangular wave and a comparator that is responsive to a signal input to generate a signal output. An output of the PWM modulator is responsive to the comparator signal output. A polarity inversion circuit, coupled between the triangular wave generator and the comparator, is configured in one of the following ways: to provide the triangular wave to the comparator when the triangular wave has a first slope polarity and to provide a polarity-inverted version of the triangular wave to the comparator when the triangular wave has a second slope polarity opposite the first slope polarity; and to provide the signal input to the comparator when the triangular wave has the first slope polarity and to provide a polarity-inverted version of the signal input to the comparator when the triangular wave has the second slope polarity.Type: GrantFiled: October 18, 2018Date of Patent: May 19, 2020Assignee: CIRRUS LOGIC, INC.Inventors: Ramin Zanbaghi, Anuradha Parsi, Kyehyung Lee, John L. Melanson
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Publication number: 20200119725Abstract: An apparatus in a PWM modulator includes a triangular wave generator that generates a triangular wave and a comparator that is responsive to a signal input to generate a signal output. An output of the PWM modulator is responsive to the comparator signal output. A polarity inversion circuit, coupled between the triangular wave generator and the comparator, is configured in one of the following ways: to provide the triangular wave to the comparator when the triangular wave has a first slope polarity and to provide a polarity-inverted version of the triangular wave to the comparator when the triangular wave has a second slope polarity opposite the first slope polarity; and to provide the signal input to the comparator when the triangular wave has the first slope polarity and to provide a polarity-inverted version of the signal input to the comparator when the triangular wave has the second slope polarity.Type: ApplicationFiled: October 18, 2018Publication date: April 16, 2020Inventors: RAMIN ZANBAGHI, ANURADHA PARSI, KYEHYUNG LEE, JOHN L. MELANSON
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Publication number: 20200119702Abstract: A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.Type: ApplicationFiled: October 18, 2018Publication date: April 16, 2020Inventors: RAMIN ZANBAGHI, ANURADHA PARSI, KYEHYUNG LEE, JOHN L. MELANSON
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Patent number: 10566989Abstract: A system may comprise a high-pass filter having an input for receiving an input signal, an output for generating an output signal, a capacitor coupled between the input and the output, a switched-capacitor resistor coupled between the output and a reference voltage, and control circuitry configured to control the reference voltage to cancel current leakage into a circuit coupled to the output. The input, the output, the capacitor, and the switched-capacitor resistor may be arranged to generate the output signal as a high-pass filtered version of the input signal and the high-pass filter may be configured to operate in a plurality of modes comprising at least a high-impedance mode and a low-impedance mode in which the resistance of the switched-capacitor resistor is significantly smaller than the resistance when in the high-impedance mode.Type: GrantFiled: October 23, 2018Date of Patent: February 18, 2020Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Daniel J. Allen, John L. Melanson, Aniruddha Satoskar, Akshay Godbole
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Patent number: 10460819Abstract: A variable resistor may be coupled between a reference voltage source and components of an integrated circuit to reduce issues relating to thermal noise from a reference voltage signal generated by the reference voltage source. The variable resistor may be set to a low level during a first time period and a high level during a second time period, in which the time periods correspond to a sampling period of a switched-capacitor circuit. The low resistance time period may allow quick settling of an input reference voltage signal, whereas the high resistance time period may reduce a bandwidth of noise on a sampling capacitor coupled to the reference voltage signal. The variable resistor and switched-capacitor network may be used in an analog-to-digital converter (ADC), such as in audio circuits.Type: GrantFiled: November 30, 2016Date of Patent: October 29, 2019Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Tejasvi Das, John L. Melanson, Axel Thomsen
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Publication number: 20190058484Abstract: A system may comprise a high-pass filter having an input for receiving an input signal, an output for generating an output signal, a capacitor coupled between the input and the output, a switched-capacitor resistor coupled between the output and a reference voltage, and control circuitry configured to control the reference voltage to cancel current leakage into a circuit coupled to the output. The input, the output, the capacitor, and the switched-capacitor resistor may be arranged to generate the output signal as a high-pass filtered version of the input signal and the high-pass filter may be configured to operate in a plurality of modes comprising at least a high-impedance mode and a low-impedance mode in which the resistance of the switched-capacitor resistor is significantly smaller than the resistance when in the high-impedance mode.Type: ApplicationFiled: October 23, 2018Publication date: February 21, 2019Applicant: Cirrus Logic International Semiconductor Ltd.Inventors: Ramin ZANBAGHI, Daniel J. ALLEN, John L. MELANSON, Aniruddha SATOSKAR, Akshay GODBOLE
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Patent number: 10141946Abstract: A system may include an input for receiving an input signal, an output for generating an output signal, a capacitor coupled between the input and the output, a variable resistor coupled to the output and having a plurality of modes including a first mode in which the variable resistor has a first resistance and a second mode in which the variable resistor has a second resistance, and control circuitry configured to determine a difference between the input signal and the output signal and switch between modes of the plurality of modes when the difference is less than a predetermined threshold.Type: GrantFiled: August 18, 2017Date of Patent: November 27, 2018Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Daniel J. Allen, John L. Melanson, Aniruddha Satoskar, Akshay Godbole
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Patent number: 10069483Abstract: A system may comprise a high-pass filter having an input for receiving an input signal, an output for generating an output signal, a capacitor coupled between the input and the output, a switched-capacitor resistor coupled between the output and a reference voltage, and control circuitry configured to control the reference voltage to cancel current leakage into a circuit coupled to the output. The input, the output, the capacitor, and the switched-capacitor resistor may be arranged to generate the output signal as a high-pass filtered version of the input signal and the high-pass filter may be configured to operate in a plurality of modes comprising at least a high-impedance mode and a low-impedance mode in which the resistance of the switched-capacitor resistor is significantly smaller than the resistance when in the high-impedance mode.Type: GrantFiled: August 18, 2017Date of Patent: September 4, 2018Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Siladitya Dey, Daniel J. Allen, John L. Melanson, Aniruddha Satoskar
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Patent number: 10014879Abstract: A method for measuring capacitance may include integrating charge with a charge integrator having a charge integrator input and output, filtering, with a loop filter having a loop filter input coupled to the charge integrator output and having a loop filter output, a first signal generated at the charge integrator output, quantizing, with quantizer having a quantizer input coupled to the loop filter output and a having quantizer output, a second signal generated at the loop filter output, processing, with a first feedback path having a first feedback path input coupled to the quantizer output and a first feedback path output coupled to the charge integrator input, a low-frequency spectrum of a quantizer output signal, and processing, with a second feedback path having a second feedback path input coupled to the quantizer output and a second feedback path output coupled downstream in a signal path of the apparatus relative to the charge integrator, a high-frequency spectrum of the quantizer output signal.Type: GrantFiled: November 30, 2017Date of Patent: July 3, 2018Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, John L. Melanson
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Patent number: 10009039Abstract: A system may comprise a high-pass filter having an input for receiving an input signal, an output for generating an output signal, a capacitor coupled between the input and the output, a switched-capacitor resistor coupled between the output and a reference voltage, and control circuitry configured to control the reference voltage to cancel current leakage into a circuit coupled to the output. The input, the output, the capacitor, and the switched-capacitor resistor may be arranged to generate the output signal as a high-pass filtered version of the input signal and the high-pass filter may be configured to operate in a plurality of modes comprising at least a high-impedance mode and a low-impedance mode in which the resistance of the switched-capacitor resistor is significantly smaller than the resistance when in the high-impedance mode.Type: GrantFiled: August 18, 2017Date of Patent: June 26, 2018Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Daniel J. Allen, John L. Melanson, Aniruddha Satoskar
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Publication number: 20180152174Abstract: A variable resistor may be coupled between a reference voltage source and components of an integrated circuit to reduce issues relating to thermal noise from a reference voltage signal generated by the reference voltage source. The variable resistor may be set to a low level during a first time period and a high level during a second time period, in which the time periods correspond to a sampling period of a switched-capacitor circuit. The low resistance time period may allow quick settling of an input reference voltage signal, whereas the high resistance time period may reduce a bandwidth of noise on a sampling capacitor coupled to the reference voltage signal. The variable resistor and switched-capacitor network may be used in an analog-to-digital converter (ADC), such as in audio circuits.Type: ApplicationFiled: November 30, 2016Publication date: May 31, 2018Applicant: Cirrus Logic International Semiconductor Ltd.Inventors: Ramin Zanbaghi, Tejasvi Das, John L. Melanson, Axel Thomsen
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Patent number: 9970825Abstract: A delta-sigma modulator may be used to generate temperature information within an integrated circuit. The delta-sigma modulator may include a loop filter, a quantizer, and a feedback digital-to-analog converter (DAC). Temperature sensing elements may be incorporated into the feedback DAC of the delta-sigma modulator. Temperature information is then processed in the loop filter of the delta-sigma modulator and output in an average voltage value of a digital signal output from the delta-sigma modulator.Type: GrantFiled: August 14, 2015Date of Patent: May 15, 2018Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, John L. Melanson
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Patent number: 9941848Abstract: In accordance with embodiments of the present disclosure, a transconductance with capacitances feedback compensation amplifier may include a capacitor in parallel with an inner feedback loop of the amplifier for providing cascade compensation to the amplifier.Type: GrantFiled: October 21, 2014Date of Patent: April 10, 2018Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Aaron Brennan, Johann Gaboriau, Prashanth Drakshapalli, Vamsikrishna Parupalli
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Patent number: 9799349Abstract: The dynamic range and power efficiency of a voice-activated system may be improved by dynamically adjusting the configuration of the voice-activated system's input path. In one embodiment, a first portion of audio may be received through an input path of the voice-activated system having a first configuration. A characteristic of the first portion of audio may be determined and the input path may be adjusted to a second configuration based on the determined characteristic. A second portion of audio may then be received through the input path having the second configuration, and speech analysis may be performed on the second portion of audio.Type: GrantFiled: April 24, 2015Date of Patent: October 24, 2017Assignee: Cirrus Logic, Inc.Inventors: Yousof Mortazavi, Ramin Zanbaghi, Aaron Brennan, John L. Melanson
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Patent number: 9762257Abstract: An analog-to-digital converter (ADC) may include capability to sense and/or compensate for undesired effects when receiving input from a microphone. For example, a sense node may be provided between differential inputs, and that sense node separated from the differential inputs by two or more switches. The sense node may allow for a measurement of an average voltage of the differential inputs. The average voltage may be obtained activating the switches to sample the sampling capacitors coupled to the differential inputs. That average voltage may be used as common mode (CM) data. A controller may receive the CM data, along with differential mode (DM) data, and use the CM and DM data to determine undesired effects, such as DC or AC mismatch at the microphone interface. The controller may then generate a signal for applying compensation to the differential inputs to reduce or eliminate the undesired effects.Type: GrantFiled: August 12, 2016Date of Patent: September 12, 2017Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Aaron Brennan, Daniel J. Allen, John L. Melanson
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Patent number: 9735671Abstract: A bipolar junction transistor (BJT) may be used to generate a supply voltage for operating a controller, such as a lighting controller for a LED-based light bulb. A base of the BJT may receive current generated from the supply voltage to control operation of the BJT. Although the base of the BJT would be at a lower voltage than the emitter, a base drive circuit may be coupled between the emitter and the base of the BJT to increase the voltage. As one example, the base drive circuit may be a charge pump. In another example, the BJT may function as its own charge pump. In yet another example, a positive and a negative base current of the BJT may be independently controlled to regulate an output supply voltage VDD from the BJT.Type: GrantFiled: May 16, 2014Date of Patent: August 15, 2017Assignee: CIRRUS LOGIC, INC.Inventors: John L. Melanson, Ramin Zanbaghi, Jieyeon Choi, Firas Azrai, Rahul Singh, Siddharth Maru
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Patent number: 9729164Abstract: One method of processing microphone input in an ADC to determine microphone configuration is to process the microphone input signals in two processing paths, in which one processing path processes a difference between differential input signals and another processing path processes an average value of the differential input signals. The outputs of these processing paths may be combined to generate a digital signal representative of the analog signal from the microphone. The digital signal contains a digital version of the audio in the environment around the microphone, but may also be used to detect microphone topology and configure aspects of the processing paths to match the detected microphone topology. An apparatus for an ADC may implement the two processing paths as two delta-sigma modulator loops.Type: GrantFiled: August 14, 2015Date of Patent: August 8, 2017Assignee: CIRRUS LOGIC, INC.Inventors: Ramin Zanbaghi, Yousof Mortazavi, Aaron Brennan, John L. Melanson
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Patent number: 9722620Abstract: The overall performance of a dual-path ADC system may be improved by using a VCO-based ADC for small-amplitude signals and employing non-linear cancelation to remove nonlinearities in signals output by the VCO-based ADC. In particular, VCO-based dual-path ADC systems of this disclosure may be configured to receive a first digital signal from a first ADC and a second digital signal from a second ADC, wherein the second digital signal is more non-linear than the first digital signal. The dual-path systems may also be configured to determine one or more non-linear coefficients of the second digital signal based, at least in part, on processing of the first and second digital signals. The dual-path systems may be further configured to modify the second digital signal based, at least in part, on the determined one or more non-linear coefficients to generate a more linear second digital signal.Type: GrantFiled: October 31, 2016Date of Patent: August 1, 2017Assignee: Cirrus Logic, Inc.Inventors: Ramin Zanbaghi, Yousof Mortazavi, John L. Melanson, Aaron Brennan
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Patent number: 9692444Abstract: In accordance with embodiments of the present disclosure, a method of neutralizing voltage kickback associated with a reference buffer of a switched capacitor based data converter having a first switched capacitor coupled to an output node of the reference buffer wherein the first switched capacitor comprises at least one first capacitor and at least one first switch may be provided. The method may include coupling a passive network to the output node of the reference buffer in response to a presence of a condition for encountering the voltage kickback in order to create an approximately equal and opposite voltage kickforward by the passive network to at least partially neutralize the voltage kickback.Type: GrantFiled: June 30, 2016Date of Patent: June 27, 2017Assignee: Cirrus Logic, Inc.Inventors: Tejasvi Das, John L. Melanson, Ramin Zanbaghi