Patents by Inventor Jeffrey M. Hinrichs
Jeffrey M. Hinrichs 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: 7924102Abstract: An oscillator includes a control circuit and a ring of symmetric load delay cells. Each delay cell includes two novel symmetric loads. Each load involves a level shift circuit and a diode-connected transistor coupled in parallel with a current source-connected transistor. The control circuit converts an oscillator input signal into bias control signals that in turn control the effective resistance of the symmetric loads such that delays through the delay cells are a function of the input signal. The control circuit uses a symmetric load replica in a control loop to control the level shift circuits of the delay cells such that the oscillating delay cell output signals have a constant amplitude. In a first advantageous aspect, due to the constant amplitude, the oscillator is operable over a wide frequency range. In a second advantageous aspect, the oscillator input signal to output signal oscillation frequency has a substantially linear relationship.Type: GrantFiled: February 23, 2009Date of Patent: April 12, 2011Assignee: QUALCOMM IncorporatedInventor: Jeffrey M. Hinrichs
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Publication number: 20100214032Abstract: An oscillator includes a control circuit and a ring of symmetric load delay cells. Each delay cell includes two novel symmetric loads. Each load involves a level shift circuit and a diode-connected transistor coupled in parallel with a current source-connected transistor. The control circuit converts an oscillator input signal into bias control signals that in turn control the effective resistance of the symmetric loads such that delays through the delay cells are a function of the input signal. The control circuit uses a symmetric load replica in a control loop to control the level shift circuits of the delay cells such that the oscillating delay cell output signals have a constant amplitude. In a first advantageous aspect, due to the constant amplitude, the oscillator is operable over a wide frequency range. In a second advantageous aspect, the oscillator input signal to output signal oscillation frequency has a substantially linear relationship.Type: ApplicationFiled: February 23, 2009Publication date: August 26, 2010Applicant: QUALCOMM IncorporatedInventor: Jeffrey M. Hinrichs
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Publication number: 20090103750Abstract: A digital offset is combined with an audio signal in the digital domain to cancel an output offset caused by one or more analog components processing the same audio signal. In this manner, the offset at the output of the audio signal path (e.g., at a power amplifier output) is reduced or eliminated. Consequently, audible artifacts, such as click-and-pop artifacts, can be reduced or eliminated. In audio devices operating in ground-referenced capless mode, power consumption is reduced because of reduced or eliminated direct current (DC) leakage current through speakers or headsets of such audio devices. In some circumstances, the digital offset in the digital domain may be applied at substantially all times of operation of the audio signal path.Type: ApplicationFiled: September 25, 2008Publication date: April 23, 2009Applicant: QUALCOMM IncorporatedInventors: Uma Chilakapati, Seyfollah Bazarjani, Joseph Fitzgerald, Guoqing Miao, Hui-Ya Nelson, Khalid J. Sidiqi, Jeffrey M. Hinrichs
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Patent number: 7301392Abstract: An integrated circuit (IC) resonator in which resonator parameters potentially affected by IC fabrication processes are correctable after fabrication. Resonance frequency tuning is effected by forming each feedback capacitor in a pair of integrator circuits to include a variable capacitance device, such as a varactor diode. A tuning signal is applied to the varactor diode to adjust the total capacitance value and, therefore, the resonance frequency. Similarly, the quality (Q) factor of the resonator is adjusted by providing a variable capacitance in an RC (resistance-capacitance) network coupling the output of one of the integrator circuits to the input of the other. The variable capacitance in the RC network permits adjustment of phase in the event that the integrator circuits do not provide a desired 180° total phase shift.Type: GrantFiled: August 10, 2005Date of Patent: November 27, 2007Assignee: Northrop Grumman CorporationInventors: Jeffrey M. Hinrichs, William R. Goyette
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Patent number: 7183956Abstract: Apparatus, and a related method, for converting digital signals directly to radio-frequency (RF) analog signals. The apparatus includes a single high-speed delta-sigma modulator and an integrated upsampler that increases the data rate of digital input samples by a selected factor, such as nine times. The delta-sigma modulator is configured to include a feedback multiplier coefficients that are selected to greatly facilitate operation of associated adders. At least one critical adder includes a carry-select adder modification that further speeds up the add operation and ensures that the apparatus operates at desirably high frequencies.Type: GrantFiled: August 10, 2005Date of Patent: February 27, 2007Assignee: Northrop Grumman CorporationInventors: Jeffrey M. Hinrichs, Harry S. Harberts
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Patent number: 7031395Abstract: An apparatus for converting a digital input signal to an analog signal for transmission. The input signal can include more than one carrier signal. A plurality of delta-sigma modulation loop circuits are connected in an increasing order of operating frequency so as to reduce a word length of the input signal. A tuning circuit adjusts the signal frequency to a transmitting frequency for conversion to analog by a digital-to-analog converter. A first loop circuit is implemented using CMOS gates, and a second loop circuit and the tuning circuit are implemented using indium phosphide gates. The apparatus allows a high-resolution, wide-band RF multiple-carrier signal to be re-quantized to a lower-resolution signal while an acceptable signal-to-noise ratio is maintained.Type: GrantFiled: March 29, 2002Date of Patent: April 18, 2006Assignee: Northrop Grumman CorporationInventors: Jeffrey M. Hinrichs, Brian J. Rosenkoetter, Robert R. Harnden, Kenneth B. Weber, Mark Kintis, Donald R. Martin, William M. Skones, Kai E. Johnson
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Patent number: 6897799Abstract: A digital-to-analog converter having a differential signal path, and a current parking circuit that is independent of the signal path, thereby avoiding a source of imbalance that caused output anomalies in conventional digital-to-analog circuitry. In one embodiment of the invention, a pair of diodes in the current parking circuit are connected through their own independent load resistors to a voltage source. In another embodiment, a single diode is used instead of the pair of diodes, and in a third embodiment the current parking circuit comprises a single load resistor connected to the voltage source, and no diodes at all.Type: GrantFiled: July 22, 2004Date of Patent: May 24, 2005Assignee: Northrop Grumman CorporationInventors: Harry S. Harberts, Jeffrey M. Hinrichs
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Publication number: 20030185288Abstract: An apparatus for converting a digital input signal to an analog signal for transmission. The input signal can include more than one carrier signal. A plurality of delta-sigma modulation loop circuits are connected in an increasing order of operating frequency so as to reduce a word length of the input signal. A tuning circuit adjusts the signal frequency to a transmitting frequency for conversion to analog by a digital-to-analog converter. A first loop circuit is implemented using CMOS gates, and a second loop circuit and the tuning circuit are implemented using indium phosphide gates. The apparatus allows a high-resolution, wide-band RF multiple-carrier signal to be re-quantized to a lower-resolution signal while an acceptable signal-to-noise ratio is maintained.Type: ApplicationFiled: March 29, 2002Publication date: October 2, 2003Inventors: Jeffrey M. Hinrichs, Brian J. Rosenkoetter, Robert R. Harnden, Kenneth B. Weber, Mark Kintis, Donald R. Martin, William M. Skones, Kai E. Johnson