Patents by Inventor Sai Aditya Nurani
Sai Aditya Nurani 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: 20240072820Abstract: An analog-to-digital converter circuit incorporating includes a multi-bit input buffer having a differential input and configured to generate, at a plurality of differential outputs, a plurality of residues of a differential input sample relative to a corresponding plurality of zero-crossing references. Chopping stages chop the residues, for example with a pseudo-random binary sequence. The circuit further includes zero-crossing comparators, each with differential inputs coupled to receive one of the chopped residues. The zero-crossing comparators are in an ordered sequence of zone thresholds within the input range of the circuit. Folding logic circuitry has inputs coupled to outputs of the comparators, and outputs a delay domain signal indicating a magnitude of the one of the residues relative to a nearest zone threshold. Digital stage circuitry generates a digital output word representing the received input sample responsive to the comparator outputs and the delay domain signal.Type: ApplicationFiled: August 30, 2022Publication date: February 29, 2024Inventors: Sai Aditya Nurani, Rishi Soundararajan, Nithin Gopinath, Visvesvaraya Pentakota, Shagun Dusad
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Publication number: 20230033830Abstract: Aspects of the description provide for an analog-to-digital converter (ADC) operable to convert an analog input signal to an output signal at an output of the ADC. In some examples, the ADC includes multiple sub-ADCs coupled in parallel, each of the multiple sub-ADCs coupled to the output of the ADC and operable to receive the analog input signal. The ADC is configured to operate the sub-ADCs in a consecutive operation loop including a transition phase in which the ADC operates each of the sub-ADCs sequentially for a first number of sequences, an estimation phase in which the ADC operates each of the sub-ADCs sequentially for a second number of sequences following the first number of sequences, and a randomization phase in which the ADC operates subsets of the sub-ADCs for a third number of sequences following the second number of sequences.Type: ApplicationFiled: July 30, 2021Publication date: February 2, 2023Inventors: Sthanunathan RAMAKRISHNAN, Nithin GOPINATH, Sai Aditya NURANI, Joseph Palackal MATHEW, Nagalinga Swamy Basayya AREMALLAPUR
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Patent number: 11569827Abstract: Aspects of the description provide for an analog-to-digital converter (ADC) operable to convert an analog input signal to an output signal at an output of the ADC. In some examples, the ADC includes multiple sub-ADCs coupled in parallel, each of the multiple sub-ADCs coupled to the output of the ADC and operable to receive the analog input signal. The ADC is configured to operate the sub-ADCs in a consecutive operation loop including a transition phase in which the ADC operates each of the sub-ADCs sequentially for a first number of sequences, an estimation phase in which the ADC operates each of the sub-ADCs sequentially for a second number of sequences following the first number of sequences, and a randomization phase in which the ADC operates subsets of the sub-ADCs for a third number of sequences following the second number of sequences.Type: GrantFiled: July 30, 2021Date of Patent: January 31, 2023Assignee: Texas Instruments IncorporatedInventors: Sthanunathan Ramakrishnan, Nithin Gopinath, Sai Aditya Nurani, Joseph Palackal Mathew, Nagalinga Swamy Basayya Aremallapur
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Publication number: 20210091778Abstract: In described examples, a switched capacitor circuit includes an amplifier that generates a first output signal in response to a first sampled input signal. A second sampling circuit is coupled to the amplifier and generates an output signal in response to the first output signal. A first current boost circuit is coupled to the amplifier and the second sampling circuit and provides current to the second sampling circuit when the first output signal is below a first threshold. A second current boost circuit is coupled to the amplifier and the second sampling circuit and receives current from the second sampling circuit when the first output signal is above a second threshold.Type: ApplicationFiled: September 19, 2019Publication date: March 25, 2021Inventors: Neeraj Shrivastava, Sai Aditya Nurani
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Patent number: 10320405Abstract: In described examples, an analog to digital converter (ADC) includes a flash ADC. The flash ADC generates a flash output in response to an input signal, and an error correction block generates a known pattern. A selector block is coupled to the flash ADC and the error correction block, and generates a plurality of selected signals in response to the flash output and the known pattern. A digital to analog converter (DAC) is coupled to the selector block, and generates a coarse analog signal in response to the plurality of selected signals. A residue amplifier is coupled to the DAC, and generates a residual analog signal in response to the coarse analog signal, the input signal and an analog PRBS (pseudo random binary sequence) signal. A residual ADC generates a residual code in response to the residual analog signal.Type: GrantFiled: March 1, 2018Date of Patent: June 11, 2019Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Srinivas Kumar Reddy Naru, Visvesvaraya Pentakota Appala, Shagun Dusad, Neeraj Shrivastava, Viswanathan Nagarajan, Ani Xavier, Rishi Soundararajan, Sai Aditya Nurani, Roswald Francis
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Publication number: 20180191362Abstract: The disclosure provides an analog to digital converter (ADC). The ADC includes a flash ADC. The flash ADC generates a flash output in response to an input signal, and an error correction block generates a known pattern. A selector block is coupled to the flash ADC and the error correction block, and generates a plurality of selected signals in response to the flash output and the known pattern. A digital to analog converter (DAC) is coupled to the selector block, and generates a coarse analog signal in response to the plurality of selected signals. A residue amplifier is coupled to the DAC, and generates a residual analog signal in response to the coarse analog signal, the input signal and an analog PRBS (pseudo random binary sequence) signal. A residual ADC generates a residual code in response to the residual analog signal.Type: ApplicationFiled: March 1, 2018Publication date: July 5, 2018Inventors: Srinivas Kumar Reddy Naru, Visvesvaraya Pentakota Appala, Shagun Dusad, Neeraj Shrivastava, Viswanathan Nagarajan, Ani Xavier, Rishi Soundararajan, Sai Aditya Nurani, Roswald Francis
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Patent number: 9941893Abstract: An ADC includes a flash ADC. The flash ADC generates a flash output in response to an input signal, and an error correction block generates a known pattern. A selector block is coupled to the flash ADC and the error correction block, and generates a plurality of selected signals in response to the flash output and the known pattern. A digital to analog converter (DAC) is coupled to the selector block, and generates a coarse analog signal in response to the plurality of selected signals. A residue amplifier is coupled to the DAC, and generates a residual analog signal in response to the coarse analog signal, the input signal and an analog PRBS (pseudo random binary sequence) signal. A residual ADC generates a residual code in response to the residual analog signal.Type: GrantFiled: April 12, 2017Date of Patent: April 10, 2018Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Srinivas Kumar Reddy Naru, Visvesvaraya Pentakota Appala, Shagun Dusad, Neeraj Shrivastava, Viswanathan Nagarajan, Ani Xavier, Rishi Soundararajan, Sai Aditya Nurani, Roswald Francis
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Publication number: 20170302287Abstract: The disclosure provides an analog to digital converter (ADC). The ADC includes a flash ADC. The flash ADC generates a flash output in response to an input signal, and an error correction block generates a known pattern. A selector block is coupled to the flash ADC and the error correction block, and generates a plurality of selected signals in response to the flash output and the known pattern. A digital to analog converter (DAC) is coupled to the selector block, and generates a coarse analog signal in response to the plurality of selected signals. A residue amplifier is coupled to the DAC, and generates a residual analog signal in response to the coarse analog signal, the input signal and an analog PRBS (pseudo random binary sequence) signal. A residual ADC generates a residual code in response to the residual analog signal.Type: ApplicationFiled: April 12, 2017Publication date: October 19, 2017Inventors: Srinivas Kumar Reddy Naru, Visvesvaraya Pentakota Appala, Shagun Dusad, Neeraj Shrivastava, Viswanathan Nagarajan, Ani Xavier, Rishi Soundararajan, Sai Aditya Nurani, Roswald Francis