Apparatus and method for temperature compensation of crystal oscillators
First Claim
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1. An oscillator comprising:
- a resonator adapted to respond to a change in temperature;
an oscillator circuit connected to the resonator and operable to produce an output frequency;
a temperature compensation circuit associated with the oscillator circuit, the temperature compensation circuit being adapted to stabilize the output frequency in response to changes in temperature;
at least a first temperature sensor which senses the change in temperature before the resonator responds to the change in temperature; and
a temperature sensor signal modification circuit associated with the first temperature sensor and the temperature compensation circuit, the temperature sensor signal modification circuit being adapted to receive a first temperature signal from the first temperature sensor and generate a modified temperature sensor signal that is transmitted to the temperature compensation circuit, the temperature sensor signal modification circuit being adapted to approximate the thermal lag time between the change in temperature sensed by the first temperature sensor and the response of the resonator to the change in temperature.
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Abstract
An oscillator includes an oscillator circuit and a resonator that produces an output frequency. A temperature compensation circuit is coupled to the oscillator circuit. The temperature compensation circuit stabilizes the output frequency in response to changes in temperature. At least one temperature sensor and a temperature sensor signal modification circuit are coupled to the temperature compensation circuit. The temperature sensor signal modification circuit receives a temperature signal from the temperature sensor and generates a modified temperature sensor signal that is transmitted to the temperature compensation circuit.
112 Citations
13 Claims
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1. An oscillator comprising:
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a resonator adapted to respond to a change in temperature; an oscillator circuit connected to the resonator and operable to produce an output frequency; a temperature compensation circuit associated with the oscillator circuit, the temperature compensation circuit being adapted to stabilize the output frequency in response to changes in temperature; at least a first temperature sensor which senses the change in temperature before the resonator responds to the change in temperature; and a temperature sensor signal modification circuit associated with the first temperature sensor and the temperature compensation circuit, the temperature sensor signal modification circuit being adapted to receive a first temperature signal from the first temperature sensor and generate a modified temperature sensor signal that is transmitted to the temperature compensation circuit, the temperature sensor signal modification circuit being adapted to approximate the thermal lag time between the change in temperature sensed by the first temperature sensor and the response of the resonator to the change in temperature. - View Dependent Claims (2, 3, 5)
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4. An oscillator comprising:
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a resonator; an oscillator circuit connected to the resonator and operable to produce an output frequency; a temperature compensation circuit associated with the oscillator circuit, the temperature compensation circuit being adapted to stabilize the output frequency in response to changes in temperature; at least a first temperature sensor; and a temperature sensor signal modification circuit associated with the first temperature sensor and the temperature compensation circuit, the temperature sensor signal modification circuit being adapted to receive a first temperature signal from the first temperature sensor and generate a first temperature sensor signal that is transmitted to the temperature compensation circuit, the temperature sensor signal modification circuit further comprising; a first amplifier adapted to receive the first temperature signal and generate a first amplifier output signal; a second amplifier connected to the first amplifier and adapted to receive the first amplifier output signal and generate a second amplifier output signal; and a third amplifier connected to the first and second amplifiers and adapted to receive the first temperature signal and the second amplifier output signal and generate the modified temperature sensor signal.
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6. An oscillator comprising:
- a resonator;
an oscillator circuit connected to the resonator and operable to produce an output frequency;
a temperature compensation circuit associated with the oscillator circuit, the temperature compensation circuit being adapted to stabilize the output frequency in response to changes in temperature;
at least a first temperature sensor;
a temperature sensor signal modification circuit associated with the first temperature sensor and the temperature compensation circuit, the temperature sensor signal modification circuit being adapted to receive a first temperature signal from the first temperature sensor and generate a modified temperature sensor signal that is transmitted to the temperature compensation circuit, the modified temperature sensor signal compensating for the thermal gradient between the resonator and the first temperature sensor; and
a second temperature sensor adapted to produce a second temperature signal, a first amplifier being adapted to receive the second temperature signal and generate a first amplifier output signal, the thermal gradient between the resonator and the first temperature sensor being approximately the same as the thermal gradient between the first temperature sensor and the second temperature sensor.
- a resonator;
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7. An oscillator, comprising:
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frequency stabilizing means for stabilizing a reference frequency; oscillator circuit means connected to the frequency stabilizing means and adapted to generate the reference frequency; temperature compensation means connected to the oscillator circuit means for adjusting the reference frequency in response to a change in temperature; temperature sensor means for sensing a temperature and generating at least one temperature sensor signal, the temperature sensor means being adapted to sense the change in temperature before a response by the frequency stabilizing means to the change in temperature; and temperature sensor signal modification means connected to the temperature sensor means and the temperature compensation means, the temperature sensor signal modification means receiving the temperature sensor signal and generating a modified temperature sensor signal that is provided to the temperature compensation means and approximates the thermal lag time between the change in temperature sensed by the temperature sensor means and the response of the frequency stabilizing means to the change in temperature. - View Dependent Claims (8, 9, 11, 12)
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10. An oscillator comprising:
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frequency stabilizing means for stabilizing a reference frequency; oscillator circuit means connected to the frequency stabilizing means and adapted to generate the reference frequency; temperature compensation means connected to the oscillator circuit means for adjusting the reference frequency in response to a change in temperature; temperature sensor means comprising a first temperature sensor adapted to generate a first temperature sensor signal and a second temperature sensor adapted to generate a second temperature sensor signal; and temperature sensor signal modification means connected to the temperature sensor means and the temperature compensation means, the temperature sensor signal modification means receiving the temperature sensor signal and generating a modified temperature sensor signal that is provided to the temperature compensation means, the temperature sensor signal modification means comprising; a first amplifier adapted to receive the first and second temperature signals and generate a first amplifier output signal; a second amplifier connected to the first amplifier and adapted to receive the first amplifier output signal and generate a second amplifier output signal; and a third amplifier connected to the first and second amplifiers and adapted to receive the first temperature signal and the second amplifier output signal and generate the modified temperature sensor signal.
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13. A method of temperature compensating an oscillator comprising the steps of:
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providing an oscillator circuit in communication with a resonator adapted to respond to chances in temperature; generating a reference frequency from the oscillator circuit; sensing at least a first change in temperature, the response of the resonator to the at least first change in temperature following the sensing of the at least first change in temperature; generating a first temperature sensor signal from the at least first sensed change in temperature; generating a second temperature sensor signal from the first temperature sensor signal which has been modified to match the thermal delay between the sensing of the at least first change in temperature and the response of the resonator to the at least first change in temperature; generating a temperature compensation voltage from the second temperature sensor signal; and adjusting the reference frequency using the temperature compensation voltage.
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Specification