Crystal oscillator emulator
First Claim
Patent Images
1. An integrated circuit comprising:
- a microelectromechanical (MEMS) resonator circuit that generates a reference frequency;
a temperature sensor that senses a temperature of said integrated circuit;
memory that stores calibration parameters and that selects at least one of said calibration parameters as a function of said sensed temperature; and
a phase locked loop module that receives said reference frequency, that comprises a feedback loop having a feedback loop parameter and that selectively adjusts said feedback loop parameter based on said at least one of said calibration parameters,wherein said phase locked loop module comprises a fractional phase locked loop module and said feedback loop parameter includes a ratio of a scaling factor;
wherein said fractional phase locked loop module comprises;
a phase frequency detector module that communicates with said MEMS resonator circuit and that receives said reference frequency; and
a charge pump module that communicates with said phase frequency detector module; and
wherein said integrated circuit further comprises;
a voltage controlled oscillator that communicates with said charge pump module and that generates an output frequency; and
a scaling module that communicates with said voltage controlled oscillator and said phase frequency detector module, that selectively divides said output frequency by first and second scaling factors and that selectively adjusts a ratio of said first and second scaling factors based on said at least one of said calibration parameters.
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Abstract
An integrated circuit comprises a microelectromechanical (MEMS) resonator circuit that generates a reference frequency. A temperature sensor senses a temperature of the integrated circuit. Memory stores calibration parameters and selects at least one of the calibration parameters as a function of the sensed temperature. A phase locked loop module receives the reference signal, comprises a feedback loop having a feedback loop parameter and selectively adjusts the feedback loop parameter based on the at least one of the calibration parameters.
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Citations
20 Claims
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1. An integrated circuit comprising:
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a microelectromechanical (MEMS) resonator circuit that generates a reference frequency; a temperature sensor that senses a temperature of said integrated circuit; memory that stores calibration parameters and that selects at least one of said calibration parameters as a function of said sensed temperature; and a phase locked loop module that receives said reference frequency, that comprises a feedback loop having a feedback loop parameter and that selectively adjusts said feedback loop parameter based on said at least one of said calibration parameters, wherein said phase locked loop module comprises a fractional phase locked loop module and said feedback loop parameter includes a ratio of a scaling factor; wherein said fractional phase locked loop module comprises; a phase frequency detector module that communicates with said MEMS resonator circuit and that receives said reference frequency; and a charge pump module that communicates with said phase frequency detector module; and wherein said integrated circuit further comprises; a voltage controlled oscillator that communicates with said charge pump module and that generates an output frequency; and a scaling module that communicates with said voltage controlled oscillator and said phase frequency detector module, that selectively divides said output frequency by first and second scaling factors and that selectively adjusts a ratio of said first and second scaling factors based on said at least one of said calibration parameters. - View Dependent Claims (2)
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3. An integrated circuit comprising:
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a microelectromechanical (MEMS) resonator circuit that generates a reference frequency; a temperature sensor that senses a temperature of said integrated circuit; memory that stores calibration parameters and that selects at least one of said calibration parameters as a function of said sensed temperature; and a phase locked loop module that receives said reference frequency, that comprises a feedback loop having a feedback loop parameter and that selectively adjusts said feedback loop parameter based on said at least one of said calibration parameters, wherein said phase locked loop module comprises a Delta Sigma fractional phase locked loop module and said feedback loop parameter includes modulation of a scaling divisor. - View Dependent Claims (4, 5, 6)
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7. An integrated circuit comprising:
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a microelectromechanical (MEMS) resonator circuit that generates a reference frequency; a temperature sensor that senses a temperature of said integrated circuit; memory that stores calibration parameters and that selects at least one of said calibration parameters as a function of said sensed temperature; and a phase locked loop module that receives said reference frequency, that comprises a feedback loop having a feedback loop parameter and that selectively adjusts said feedback loop parameter based on said at least one of said calibration parameters, wherein said MEMS resonator circuit comprises; a semiconductor oscillator that generates a resonator drive signal having a drive frequency; and a MEMS resonator that receives said resonator drive signal.
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8. An integrated circuit comprising:
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microelectromechanical (MEMS) resonator means for generating a reference frequency; temperature sensing means for sensing a temperature of said integrated circuit; storing means for storing calibration parameters and for selecting at least one of said calibration parameters as a function of said sensed temperature; and phase locked loop means for receiving said reference frequency, for providing a feedback loop having a feedback loop parameter and for selectively adjusting said feedback loop parameter based on said at least one of said calibration parameters, wherein said phase locked loop means comprises a fractional phase locked loop and said feedback loop parameter includes a ratio of a scaling factor; wherein said fractional phase locked loop comprises; phase frequency detector means that communicates with said MEMS resonator means for receiving said reference frequency; and charge pump means for communicating with said phase frequency detector means; and wherein said integrated circuit further comprises; voltage controlled oscillating means that communicates with said charge pump means for generating an output frequency; and scaling means that communicates with said voltage controlled oscillating means and said phase frequency detector means, for selectively dividing said output frequency by first and second scaling factors and for selectively adjusting a ratio of said first and second scaling factors based on said at least one of said calibration parameters. - View Dependent Claims (9)
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10. An integrated circuit comprising:
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microelectromechanical (MEMS) resonator means for generating a reference frequency; temperature sensing means for sensing a temperature of said integrated circuit; storing means for storing calibration parameters and for selecting at least one of said calibration parameters as a function of said sensed temperature; and phase locked loop means for receiving said reference frequency, for providing a feedback loop having a feedback loop parameter and for selectively adjusting said feedback loop parameter based on said at least one of said calibration parameters, wherein said phase locked loop means comprises a Delta Sigma fractional phase locked loop and said feedback loop parameter includes modulation of a scaling divisor. - View Dependent Claims (11, 12, 13)
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14. An integrated circuit comprising:
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microelectromechanical (MEMS) resonator means for generating a reference frequency; temperature sensing means for sensing a temperature of said integrated circuit; storing means for storing calibration parameters and for selecting at least one of said calibration parameters as a function of said sensed temperature; and phase locked loop means for receiving said reference frequency, for providing a feedback loop having a feedback loop parameter and for selectively adjusting said feedback loop parameter based on said at least one of said calibration parameters, wherein said MEMS resonator means comprises; semiconductor oscillating means for generating a resonator drive signal having a drive frequency; and MEMS resonating means for receiving said resonator drive signal.
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15. A method comprising:
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providing a microelectromechanical (MEMS) resonator that generates a reference frequency; sensing a temperature of an integrated circuit; storing calibration parameters; selecting at least one of said calibration parameters as a function of said sensed temperature; providing a phase locked loop that receives said reference frequency and that comprises a feedback loop having a feedback loop parameter; selectively adjusting said feedback loon parameter based on said at least one of said calibration parameters, wherein said phase locked loop comprises a fractional phase locked loop and said feedback loop parameter includes a ratio of a scaling factor; providing a phase frequency detector that communicates with said MEMS resonator and that receives said reference frequency; providing a charge pump that communicates with said phase frequency detector; generating an output frequency; selectively dividing said output frequency by first and second scaling factors; and selectively adjusting a ratio of said first and second scaling factors based on said at least one of said calibration parameters. - View Dependent Claims (16)
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17. A method comprising:
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providing a microelectromechanical (MEMS) resonator that generates a reference frequency; sensing a temperature of an integrated circuit; storing calibration parameters; selecting at least one of said calibration parameters as a function of said sensed temperature; providing a phase locked loop that receives said reference frequency and that comprises a feedback loop having a feedback loop parameter; selectively adjusting said feedback loop parameter based on said at least one of said calibration parameters, wherein said phase locked loop comprises a Delta Sigma fractional phase locked loop and said feedback loop parameter includes modulation of a scaling divisor. - View Dependent Claims (18, 19, 20)
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Specification