Patents by Inventor Steven M. Bosze
Steven M. Bosze 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: 9608587Abstract: Method embodiments are provided herein for dynamically calibrating and adjusting a direct conversion receiver system. One embodiment includes applying one or more gain control signals to one or more gain elements of a receiver system, where the applying one or more gain control signals results in a gain change to the receiver system; in response to the gain change, determining whether the receiver system exhibits a DC (direct conversion) offset; and in response to a determination that the receiver system exhibits the DC offset, applying one or more DC offset correction control signals to one or more gain elements of the receiver system, where the one or more DC offset correction signals are configured to correct the DC offset.Type: GrantFiled: June 25, 2015Date of Patent: March 28, 2017Assignee: Freescale Semiconductor, Inc.Inventors: Khurram Waheed, Steven M Bosze, Keith A Tilley, Kevin B Traylor
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Publication number: 20160380788Abstract: Method embodiments are provided herein for dynamically calibrating and adjusting a direct conversion receiver system. One embodiment includes applying one or more gain control signals to one or more gain elements of a receiver system, where the applying one or more gain control signals results in a gain change to the receiver system; in response to the gain change, determining whether the receiver system exhibits a DC (direct conversion) offset; and in response to a determination that the receiver system exhibits the DC offset, applying one or more DC offset correction control signals to one or more gain elements of the receiver system, where the one or more DC offset correction signals are configured to correct the DC offset.Type: ApplicationFiled: June 25, 2015Publication date: December 29, 2016Inventors: KHURRAM WAHEED, STEVEN M. BOSZE, KEITH A. TILLEY, KEVIN B. TRAYLOR
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Patent number: 9479288Abstract: A technique for frame synchronization in a communication system includes performing symbol correlation on received signal samples. A determination is made as to whether a magnitude of the symbol correlation is greater than a first threshold. In response to the magnitude of the symbol correlation being greater than the first threshold, an indication is provided that the received symbol is a valid symbol (e.g., a SYNCP symbol or SYNCM symbol). In response to the magnitude of the symbol correlation being less than the first threshold, an indication is provided that the received symbol is an indeterminate symbol (e.g., an invalid symbol or a SYNCM/2 symbol).Type: GrantFiled: June 17, 2014Date of Patent: October 25, 2016Assignee: Freescale Semiconductor, Inc.Inventors: Kuhurram Waheed, Steven M. Bosze, Kevin B. Traylor, Jianqiang Zeng
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Patent number: 9282525Abstract: Methods and systems are disclosed for frequency-domain symbol and frame synchronization for multi-carrier communication systems. Received signals are sampled and converted into frequency components associated with subcarriers within the multi-carrier communication signals. Symbol synchronization is performed in the frequency domain by performing correlation(s) between frequency components of the received signal and frequency-domain synchronization symbol(s). After symbol synchronization, frame synchronization correlation is also performed in the frequency domain between frequency components of the received signal and frequency-domain synchronization symbol(s). The disclosed embodiments are particularly useful for symbol and frame synchronization in multi-carrier received signals for power line communication (PLC) systems and/or other harsh noisy communication environments.Type: GrantFiled: June 24, 2013Date of Patent: March 8, 2016Assignee: Freescale Semiconductor, Inc.Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor, Khurram Waheed
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Patent number: 9264280Abstract: A semiconductor device includes a receiver system having a first set of amplifiers, a second set of amplifiers, and an automatic gain control (AGC) module to receive first high and low detection signals from a first peak detector, and receive second high and low detection signals from a second peak detector. When the first high detection signal is set, a step decrease in at least one of a first gain control signal and a second gain control signal is taken. When the first high detection signal is not set and the second high detection signal is set, a second step decrease in at least one of the first gain control signal and the second gain control signal is taken. The first gain control signal is used in the first set of amplifiers. The second gain control signal is used in the second set of amplifiers.Type: GrantFiled: January 23, 2015Date of Patent: February 16, 2016Assignee: FREESCALE SEMICONDUCTOR, INC.Inventors: Khurram Waheed, Steven M. Bosze
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Publication number: 20150365224Abstract: A technique for frame synchronization in a communication system includes performing symbol correlation on received signal samples. A determination is made as to whether a magnitude of the symbol correlation is greater than a first threshold. In response to the magnitude of the symbol correlation being greater than the first threshold, an indication is provided that the received symbol is a valid symbol (e.g., a SYNCP symbol or SYNCM symbol). In response to the magnitude of the symbol correlation being less than the first threshold, an indication is provided that the received symbol is an indeterminate symbol (e.g., an invalid symbol or a SYNCM/2 symbol).Type: ApplicationFiled: June 17, 2014Publication date: December 17, 2015Applicant: FREESCALE SEMICONDUCTOR, INC.Inventors: KUHURRAM WAHEED, STEVEN M. BOSZE, KEVIN B. TRAYLOR, JIANQIANG ZENG
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Patent number: 9106499Abstract: Methods and systems are disclosed for frequency-domain frame synchronization for multi-carrier communication systems. Received signals are sampled and converted into frequency domain components associated with subcarriers within the multi-carrier communication signals. A sliding-window correlation (e.g., two-dimensional sliding window) is applied to the received symbols represented in the frequency domain to detect frame boundaries for multi-carrier signals. The sliding-window frame synchronization can be applied by itself or can be applied in combination with one or more additional frame synchronization stages. The disclosed embodiments are particularly useful for frame synchronization of multi-carrier signals in PLC (power line communication) systems.Type: GrantFiled: June 24, 2013Date of Patent: August 11, 2015Assignee: Freescale Semiconductor, Inc.Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor
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Patent number: 9100261Abstract: Methods and systems are disclosed for frequency-domain amplitude normalization for symbol correlation in multi-carrier communication systems. Digital samples associated with input signals received from a communication medium are processed using a Fast Fourier Transform (FFT) to generate complex frequency components. Each complex frequency component is normalized with respect to its amplitude, and the frequency-domain, amplitude-normalized frequency components are multiplied with frequency components for reference symbol(s) to generate frequency-domain correlation values. These frequency-domain correlation values are analyzed to determine if a correlation exists between the amplitude-normalized frequency components and the predetermined reference frequency components. A correlation detection output is then generated that indicates whether or not a symbol synchronization was achieved.Type: GrantFiled: June 24, 2013Date of Patent: August 4, 2015Assignee: Freescale Semiconductor, Inc.Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor
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Publication number: 20140376667Abstract: Methods and systems are disclosed for frequency-domain carrier blanking in multi-carrier communication systems. When excessive energy is detected in one or more subcarriers within a received symbol for multi-carrier communications, those subcarriers are blanked for subsequent demodulation in order to avoid corruption of the demodulated data. A conversion from time-domain digital samples to frequency-domain values using an FFT (Fast Fourier Transform) and a threshold detector are utilized to detect corrupted subcarriers. Further, this frequency-domain carrier blanking can be implemented dynamically on a symbol-by-symbol basis to further improve demodulation performance by reducing decoding errors. The disclosed embodiments are particularly useful for improving demodulation performance in power line communication (PLC) systems.Type: ApplicationFiled: June 24, 2013Publication date: December 25, 2014Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor
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Publication number: 20140376540Abstract: Methods and systems are disclosed for frequency-domain symbol and frame synchronization for multi-carrier communication systems. Received signals are sampled and converted into frequency components associated with subcarriers within the multi-carrier communication signals. Symbol synchronization is performed in the frequency domain by performing correlation(s) between frequency components of the received signal and frequency-domain synchronization symbol(s). After symbol synchronization, frame synchronization correlation is also performed in the frequency domain between frequency components of the received signal and frequency-domain synchronization symbol(s). The disclosed embodiments are particularly useful for symbol and frame synchronization in multi-carrier received signals for power line communication (PLC) systems and/or other harsh noisy communication environments.Type: ApplicationFiled: June 24, 2013Publication date: December 25, 2014Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor, Khurram Waheed
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Publication number: 20140376648Abstract: Methods and systems are disclosed for frequency-domain amplitude normalization for symbol correlation in multi-carrier communication systems. Digital samples associated with input signals received from a communication medium are processed using a Fast Fourier Transform (FFT) to generate complex frequency components. Each complex frequency component is normalized with respect to its amplitude, and the frequency-domain, amplitude-normalized frequency components are multiplied with frequency components for reference symbol(s) to generate frequency-domain correlation values. These frequency-domain correlation values are analyzed to determine if a correlation exists between the amplitude-normalized frequency components and the predetermined reference frequency components. A correlation detection output is then generated that indicates whether or not a symbol synchronization was achieved.Type: ApplicationFiled: June 24, 2013Publication date: December 25, 2014Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor
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Publication number: 20140376674Abstract: Methods and systems are disclosed for frequency-domain frame synchronization for multi-carrier communication systems. Received signals are sampled and converted into frequency domain components associated with subcarriers within the multi-carrier communication signals. A sliding-window correlation (e.g., two-dimensional sliding window) is applied to the received symbols represented in the frequency domain to detect frame boundaries for multi-carrier signals. The sliding-window frame synchronization can be applied by itself or can be applied in combination with one or more additional frame synchronization stages. The disclosed embodiments are particularly useful for frame synchronization of multi-carrier signals in PLC (power line communication) systems.Type: ApplicationFiled: June 24, 2013Publication date: December 25, 2014Inventors: Jianqiang Zeng, Steven M. Bosze, Raja V. Tamma, Kevin B. Traylor