Patent ID: 7292117

Claim:
A temperature compensated piezoelectric oscillator comprising: an oscillation circuit that drives a piezoelectric element with a current; a direct-current-stopping fixed capacitor; a frequency-temperature compensated circuit that compensates the deviation of an oscillation frequency caused by a change of temperature; and a piezoelectric transducer which includes a piezoelectric element driven in a prescribed frequency, where the above elements are connected serially; wherein the frequency-temperature compensated circuit includes a temperature compensation voltage generation section which generates a voltage based on a parameter that is changed in a temperature detection unit, in which the parameter changes according to the surrounding temperature; wherein the temperature compensation voltage generation section includes: a low-temperature control voltage generation section which generates a voltage that compensates a temperature characteristic of the piezoelectric element in a low temperature, where “low” indicates temperatures lower than a common temperature in the temperature characteristic of the piezoelectric element; and a high-temperature control voltage generation section which generates a voltage that compensates the temperature characteristic of the piezoelectric element in a high temperature, where “high” indicates temperatures higher than a common temperature in the temperature characteristic of the piezoelectric element; wherein the low-temperature control voltage generation section includes: a low-temperature first-degree voltage generation circuit which generates the voltage that linearly changes with temperature; a low-temperature high-degree voltage generation circuit which generates the voltage that behaves like a high degree function in a low temperature state of the voltage generated by the low-temperature first-degree voltage generation circuit; and a low-temperature voltage composite circuit which synthesizes voltages generated by the low-temperature first-degree voltage generation circuit and the low-temperature high-degree voltage generation circuit; and wherein the high-temperature control voltage generation section includes: a high-temperature first-degree voltage generation circuit which generates the voltage that linearly changes with temperature; a high-temperature high-degree voltage generation circuit which generates the voltage that behaves like a high degree function in a high temperature state of the voltage generated by the high-temperature first-degree voltage generation circuit; and a high-temperature voltage composite circuit which synthesizes voltages generated by the high-temperature first-degree voltage generation circuit and the high-temperature high-degree voltage generation circuit.