Method for temperature compensation of a voltage-controlled crystal oscillator in a phase control circuit
First Claim
1. A method for temperature compensation of a voltage-controlled crystal oscillator which includes a crystal in a phase locked loop circuit, comprising the steps of:
- controlling the temperature of the crystal oscillator by a heating-cooling device;
sensing the temperature of the crystal oscillator and feeding signals resulting therefrom to a processor;
controlling the heating-cooling device by said processor to a selected temperature of the crystal oscillator lying closest to a current ambient temperature.
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Accused Products
Abstract
A heating or, respectively, cooling device is realized by a Peltier element and is assigned to a crystal oscillator and driven by a processor with the assistance of a temperature sensor such that the crystal exhibits one of two selected temperatures lying closest to the ambient temperature. A compensation value is stored in the memory of the processor for each of the crystal temperatures selected from an operating temperature range. This compensation value effects the compensation of the frequency deviations of the crystal oscillator that are caused by temperature fluctuations.
81 Citations
7 Claims
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1. A method for temperature compensation of a voltage-controlled crystal oscillator which includes a crystal in a phase locked loop circuit, comprising the steps of:
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controlling the temperature of the crystal oscillator by a heating-cooling device; sensing the temperature of the crystal oscillator and feeding signals resulting therefrom to a processor; controlling the heating-cooling device by said processor to a selected temperature of the crystal oscillator lying closest to a current ambient temperature. - View Dependent Claims (2, 3, 4, 5, 6)
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7. Apparatus for temperature compensation of a voltage-controlled crystal oscillator in a phase control circuit, comprising:
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a voltage-controlled crystal oscillator and a thermally-insulated housing encompassing the said voltage-controlled crystal oscillator; a Peltier element in said housing; a temperature sensor in said housing and operable to sense the temperature of said crystal and produce corresponding analog signals; an analog-to-digital converter connected to said temperature sensor for providing digital signals corresponding to said analog signals; a processor connected to said analog-to-digital converter connected to receive reference clock signals and the output clock signals of said oscillator; first and second dividers for receiving said reference clock signals and said output clock signals; a phase comparator connected to said dividers for receiving the output signals thereof; a processor connected to said comparator for processing the output signals thereof with respect to the digital output signal of said analog-to-digital converter; and a matching device connected between said processor and said Peltier element and operable to drive said Peltier element to heat or cool said crystal with respect to the temperature sensed by said temperature sensor.
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Specification