Patents by Inventor Mohammad Shajaan
Mohammad Shajaan 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: 11916575Abstract: The present disclosure relates generally to digital microphone and other sensor assemblies including a transducer and a delta-sigma analog-to-digital converter (ADC) with digital-to-analog converter (DAC) element mismatch shaping and more particularly to sensor assemblies and electrical circuits therefor including a dynamic element matching (DELM) entity configured to select DAC elements based on data weighted averaging (DWA) and a randomized non-negative shift.Type: GrantFiled: December 31, 2020Date of Patent: February 27, 2024Assignee: KNOWLESELECTRONICS, LLC.Inventors: Mohammad Sadegh Mohammadi, Mohammad Shajaan
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Patent number: 11889252Abstract: A microphone device, an interface circuit and method are provided for managing a potential difference in sensitivity to a detected environmental stimulus associated with a sensor arrangement, where multiple electrical signals forming a differential signal can be produced, and the multiple electrical signals can be better balanced. Such an interface circuit, which can be used within a microphone device includes a bias voltage generator having one or more bias output voltage terminals, where a respective one of one or more DC bias voltages is produced at each of the bias output voltage terminals, for being coupled to a pair of transduction elements of a sensor. The interface circuit further includes an amplifier circuit having a first input terminal coupled to a first one of the pair of output terminals of the sensor and having a second input terminal coupled to a second one of the pair of output terminals of the sensor, the amplifier circuit producing a differential output signal.Type: GrantFiled: May 11, 2021Date of Patent: January 30, 2024Assignee: Knowles Electronics, LLCInventors: Mark Niederberger, Thomas Gautschi, Michael Kuntzman, Mohsin Nawaz, Mohammad Shajaan, Christian Lillelund
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Patent number: 11825266Abstract: Microphones including a housing defining a cavity, a plurality of conductors positioned within the cavity, at least one dielectric bar positioned within the cavity, and a transducer diaphragm. The conductors are structured to move in response to pressure changes while the housing remains fixed. A first conductor generates first electrical signals responsive to the pressure changes resulting from changes in an atmospheric pressure. A second conductor generates second electrical signals responsive to the pressure changes resulting from acoustic activity. The dielectric bar is fixed with respect to the cavity and remains fixed under the pressure changes. The dielectric bar is adjacent to at least one of the conductors. In response to an applied pressure that is an atmospheric pressure and/or an acoustic pressure, the transducer diaphragm exerts a force on the housing and displaces at least a portion of conductors with respect to the dielectric bar.Type: GrantFiled: March 20, 2019Date of Patent: November 21, 2023Assignee: Knowles Electronics, LLCInventors: Mohsin Nawaz, Shubham Shubham, David Schafer, Michael Pedersen, Claus Furst, Mohammad Shajaan, Jay Cech
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Patent number: 11743647Abstract: An integrated circuit connectable to a sensor includes a transconductance element and a current-input analog-to-digital converter (I-ADC). The transconductance element is connectable to the sensor and is configured to generate a current signal representative of an output of the sensor. The I-ADC is configured to sample and quantize the current signal to generate a corresponding digital sensor signal. The I-ADC includes a continuous-time (CT) integrator stage, a discrete-time (DT) integrator stage, and a feedback digital-to-analog converter (FB-DAC). The CT integrator stage is configured to receive the current output and the I-ADC is configured to generate the digital sensor signal based on an output of the CT integrator stage and an output of the DT integrator stage. The FB-DAC is configured to provide a feedback signal based on the digital sensor signal for adding to the current signal.Type: GrantFiled: December 10, 2019Date of Patent: August 29, 2023Assignee: KNOWLES ELECTRONICS, LLC.Inventors: Mohammad Shajaan, Kristian Hansen, Jens Tingleff, Henrik Thomsen, Claus Fürst
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Publication number: 20230112042Abstract: The present disclosure relates to a transducer assembly including a transducer having a movable member, and a servo-loop controller configured to compensate for effects of a disturbance on the transducer assembly by adjusting a bias voltage applied to the transducer. A servo-loop controller having a smaller bandwidth for out-of-band disturbances than for in-band disturbances and configured to control the bias voltage based on a feedback signal generated by a sensor that detects an effect of the disturbance on the transducer assembly. The transducer assembly can be implemented as a microphone or a speaker among other sensors and actuators.Type: ApplicationFiled: October 5, 2022Publication date: April 13, 2023Inventors: Jakob Kenn Toft, Mohammad Shajaan, Claus Erdmann Fürst
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Patent number: 11553283Abstract: The disclosure describes devices and methods of providing a DC bias voltage in a microphone assembly. Particularly, one implementation of such a device may be implemented on an integrated circuit that includes a direct current (DC) bias circuit. The DC bias circuit may be coupled to a transducer and configured to supply a DC bias signal to the transducer. The DC bias circuit includes a multi-stage charge pump and a low pass filter (LUFF) circuit. The multi-stage charge pump includes transistors that are fabricated with deep trench isolation (DTI).Type: GrantFiled: December 22, 2020Date of Patent: January 10, 2023Assignee: Knowles Electronics, LLCInventors: Jakob Toft, Mohammad Shajaan, Mohsin Nawaz, Michael Pedersen
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Publication number: 20220369013Abstract: A microphone device, an interface circuit and method are provided for managing a potential difference in sensitivity to a detected environmental stimulus associated with a sensor arrangement, where multiple electrical signals forming a differential signal can be produced, and the multiple electrical signals can be better balanced. Such an interface circuit, which can be used within a microphone device includes a bias voltage generator having one or more bias output voltage terminals, where a respective one of one or more DC bias voltages is produced at each of the bias output voltage terminals, for being coupled to a pair of transduction elements of a sensor. The interface circuit further includes an amplifier circuit having a first input terminal coupled to a first one of the pair of output terminals of the sensor and having a second input terminal coupled to a second one of the pair of output terminals of the sensor, the amplifier circuit producing a differential output signal.Type: ApplicationFiled: May 11, 2021Publication date: November 17, 2022Inventors: Mark Niederberger, Thomas Gautschi, Michael Kuntzman, Mohsin Nawaz, Mohammad Shajaan, Christian Lillelund
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Patent number: 11399236Abstract: This disclosure provides methods, systems, and apparatuses, for a microphone circuit. In particular, the circuit includes transducer that can sense pressure changes and generate an electrical signal having frequency components in a first frequency range and in a second frequency range higher than the first frequency range. The circuit includes a feedback circuitry that can attenuate frequency components in the first frequency range in the electrical signal and, from it, generate an audio signal. A feedback path circuit includes a low pass filter having a cut-off frequency within the first frequency range, and filters the audio signal to generate a low pass filter signal that includes frequency components in the first frequency range. The low pass filter signal can be used to generate a low frequency pressure signal that corresponds to low frequency pressure changes sensed by the transducer.Type: GrantFiled: July 2, 2020Date of Patent: July 26, 2022Assignee: Knowles Electronics, LLCInventors: Venkataraman Chandrasekaran, Christian Lillelund, Claus Erdmann Fürst, Mohammad Shajaan
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Patent number: 11381911Abstract: The present disclosure relates generally to digital microphone and other sensor assemblies including a transducer, a delta-sigma analog-to-digital converter (ADC), a dynamic element matching (DELM) entity configured to compensate for nonlinearity resulting from variation among digital-to-analog conversion (DAC) elements of the ADC, and a control circuit configured to enable and disable the DELM based on a magnitude of a digital signal generated by the ADC.Type: GrantFiled: March 10, 2021Date of Patent: July 5, 2022Assignee: Knowles Electronics, LLCInventors: Mohammad Sadegh Mohammadi, Mohammad Shajaan, Claus Erdmann Furst
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Publication number: 20220209789Abstract: The present disclosure relates generally to digital microphone and other sensor assemblies including a transducer and a delta-sigma analog-to-digital converter (ADC) with digital-to-analog converter (DAC) element mismatch shaping and more particularly to sensor assemblies and electrical circuits therefor including a dynamic element matching (DELM) entity configured to select DAC elements based on data weighted averaging (DWA) and a randomized non-negative shift.Type: ApplicationFiled: December 31, 2020Publication date: June 30, 2022Inventors: Mohammad Sadegh Mohammadi, Mohammad Shajaan
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Publication number: 20220141586Abstract: An integrated circuit connectable to a sensor includes a transconductance element and a current-input analog-to-digital converter (I-ADC). The transconductance element is connectable to the sensor and is configured to generate a current signal representative of an output of the sensor. The I-ADC is configured to sample and quantize the current signal to generate a corresponding digital sensor signal. The I-ADC includes a continuous-time (CT) integrator stage, a discrete-time (DT) integrator stage, and a feedback digital-to-analog converter (FB-DAC). The CT integrator stage is configured to receive the current output and the I-ADC is configured to generate the digital sensor signal based on an output of the CT integrator stage and an output of the DT integrator stage. The FB-DAC is configured to provide a feedback signal based on the digital sensor signal for adding to the current signal.Type: ApplicationFiled: December 10, 2019Publication date: May 5, 2022Inventors: Mohammad Shajaan, Kristian Hansen, Jens Tingleff, Henrik Thomsen, Claus Fürst
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Patent number: 11323805Abstract: A microphone assembly includes a transducer element and a processing circuit. The processing circuit includes an analog-to-digital converter (ADC) configured to receive, sample and quantize a microphone signal generated by the transducer element to generate a corresponding digital microphone signal. The processing circuit includes a feedback path including a digital loop filter configured to receive and filter the digital microphone signal to provide a first digital feedback signal and a digital-to-analog converter (DAC) configured to convert the first digital feedback signal into a corresponding analog feedback signal. The processing circuit additionally includes a summing node at the transducer output configured to combine the microphone signal and the analog feedback signal.Type: GrantFiled: December 22, 2020Date of Patent: May 3, 2022Assignee: KNOWLES ELECTRONICS, LLC.Inventors: Mohammad Shajaan, Claus Erdmann Fürst, Per Flemming Høvesten, Kim Spetzler Berthelsen, Henrik Thomsen
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Patent number: 11304009Abstract: A microphone assembly includes an acoustic filter with a first highpass cut-off frequency. The microphone assembly additionally includes a forward signal path and a feedback signal path. The forward signal path is configured to amplify or buffer an electrical signal generated by a transducer in response to sound and to convert the electrical signal to a digital signal. The feedback signal path is configured to generate a digital control signal based on the digital signal and to generate and output a sequence of variable current pulses based on the digital control signal. The variable current pulses suppress frequencies of the electrical signal below a second highpass cut-off frequency, higher than the first highpass cut-off frequency.Type: GrantFiled: December 31, 2020Date of Patent: April 12, 2022Assignee: KNOWLES ELECTRONICS, LLCInventors: Mohammad Shajaan, Claus Erdmann Fürst, Per Flemming Høvesten, Kim Spetzler Berthelsen, Henrik Thomsen
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Patent number: 11240600Abstract: A sensor signal processing circuit including a delta-sigma analog-to-digital converter (ADC) and a control circuit is disclosed. The circuit is configured to adaptively activate one or more segments of current elements for sequential sampling periods based on a digital signal input to a DAC, wherein less than N current elements are allocated to each segment, each current element in an active segment is enabled and either contributes to a feedback signal of the DAC or does not contribute to the feedback signal, and current elements not in an active segment are disabled. The circuit can be integrated with an acoustic or other sensor as part of a sensor assembly.Type: GrantFiled: November 12, 2020Date of Patent: February 1, 2022Assignee: KNOWLES ELECTRONICS, LLCInventors: Mohammad Sadegh Mohammadi, Mohammad Shajaan, Claus Erdmann Furst, Jens Tingleff, Henrik Thomsen, Kristian Hansen
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Patent number: 11218804Abstract: A system and method in an audio signal electrical circuit including a feedback loop with a digital filter coupled to a current digital to analog converter (IDAC) includes providing an output signal from the IDAC to analog elements of the audio signal electrical circuit, the output signal from the IDAC based upon a reference signal input to the IDAC when an output of the digital filter is not input to the IDAC. The system and method also include comparing an output signal of the audio signal electrical circuit to a reference, and calibrating the audio signal electrical circuit to correspond the output signal of the audio signal electrical circuit to the reference. Calibration of the audio signal electrical circuit enables more precise control of a cut-off frequency of a microphone signal when the output of the digital filter is input to the IDAC.Type: GrantFiled: February 8, 2018Date of Patent: January 4, 2022Assignee: Knowles Electronics, LLCInventors: Kim Spetzler Berthelsen, Mohammad Shajaan, Claus Fürst
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Patent number: 11095990Abstract: A microphone assembly comprising: a housing including a base, a cover, and a sound port; a MEMS transducer element disposed in the housing, the transducer element configured to convert sound into a microphone signal voltage at a transducer output; and a processing circuit. The processing circuit comprising a transconductance amplifier comprising an input node connected to the transducer output for receipt of the microphone signal voltage, the transconductance amplifier being configured to generate an amplified current signal representative of the microphone signal voltage in accordance with a predetermined transconductance of the transconductance amplifier; and an analog-to-digital converter comprising an input node connected to receive the amplified current signal, said analog-to-digital converter being configured to sample and quantize the amplified current signal to generate a corresponding digital microphone signal.Type: GrantFiled: June 18, 2019Date of Patent: August 17, 2021Assignee: Knowles Electronics, LLCInventors: Kristian Adelbert Hansen, Henrik Thomsen, Mohammad Shajaan, Jens Tingleff, Claus Erdmann Fürst
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Publication number: 20210195342Abstract: The disclosure describes devices and methods of providing a DC bias voltage in a microphone assembly. Particularly, one implementation of such a device may be implemented on an integrated circuit that includes a direct current (DC) bias circuit. The DC bias circuit may be coupled to a transducer and configured to supply a DC bias signal to the transducer. The DC bias circuit includes a multi-stage charge pump and a low pass filter (LUFF) circuit. The multi-stage charge pump includes transistors that are fabricated with deep trench isolation (DTI).Type: ApplicationFiled: December 22, 2020Publication date: June 24, 2021Applicant: Knowles Electronics, LLCInventors: Jakob Toft, Mohammad Shajaan, Mohsin Nawaz, Michael Pedersen
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Publication number: 20210136493Abstract: A system and method in an audio signal electrical circuit including a feedback loop with a digital filter coupled to a current digital to analog converter (IDAC) includes providing an output signal from the IDAC to analog elements of the audio signal electrical circuit, the output signal from the IDAC based upon a reference signal input to the IDAC when an output of the digital filter is not input to the IDAC. The system and method also include comparing an output signal of the audio signal electrical circuit to a reference, and calibrating the audio signal electrical circuit to correspond the output signal of the audio signal electrical circuit to the reference. Calibration of the audio signal electrical circuit enables more precise control of a cut-off frequency of a microphone signal when the output of the digital filter is input to the IDAC.Type: ApplicationFiled: February 8, 2018Publication date: May 6, 2021Applicant: KNOWLES ELECTRONICS, LLCInventors: Kim Spetzler Berthelsen, Mohammad Shajaan, Claus Fürst
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Publication number: 20210127213Abstract: A microphone assembly includes an acoustic filter with a first highpass cut-off frequency. The microphone assembly additionally includes a forward signal path and a feedback signal path. The forward signal path is configured to amplify or buffer an electrical signal generated by a transducer in response to sound and to convert the electrical signal to a digital signal. The feedback signal path is configured to generate a digital control signal based on the digital signal and to generate and output a sequence of variable current pulses based on the digital control signal. The variable current pulses suppress frequencies of the electrical signal below a second highpass cut-off frequency, higher than the first highpass cut-off frequency.Type: ApplicationFiled: December 31, 2020Publication date: April 29, 2021Applicant: Knowles Electronics, LLCInventors: Mohammad SHAJAAN, Claus Erdmann FÜRST, Per Flemming HØVESTEN, Kim Spetzler BERTHELSEN, Henrik THOMSEN
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Publication number: 20210112337Abstract: A microphone assembly includes a transducer element and a processing circuit. The processing circuit includes an analog-to-digital converter (ADC) configured to receive, sample and quantize a microphone signal generated by the transducer element to generate a corresponding digital microphone signal. The processing circuit includes a feedback path including a digital loop filter configured to receive and filter the digital microphone signal to provide a first digital feedback signal and a digital-to-analog converter (DAC) configured to convert the first digital feedback signal into a corresponding analog feedback signal. The processing circuit additionally includes a summing node at the transducer output configured to combine the microphone signal and the analog feedback signal.Type: ApplicationFiled: December 22, 2020Publication date: April 15, 2021Applicant: Knowles Electronics, LLCInventors: Mohammad SHAJAAN, Claus Erdmann FURST, Per Flemming HOVESTEN, Kim Spetzler BERTHELSEN, Henrik THOMSEN