Patent ID: 7852167
Filing Date: 2010-12-14
Classification: H03B

Abstract:
1. A third overtone crystal oscillator comprising: a container; an oscillator IC accommodated in the container; and a crystal element accommodated in the container, wherein the oscillator IC comprises: a transistor for oscillation which is grounded at an emitter thereof and has a bias resistor connected between a collector and a base of the transistor, a constant current being supplied from a constant current source to a node between the collector and the bias resistor; a first capacitor for oscillation connected to the base via a DC blocking capacitor and to a ground potential; and a second capacitor for oscillation connected between the collector and the ground potential, wherein one end of the crystal element is connected to a non-grounded end of the first capacitor while the other end of the crystal element is connected to a non-grounded end of the second capacitor, wherein a spiral inductor consisting of a spiral line is formed at the container, the spiral inductor being separate from the oscillator IC and forming a parallel resonant circuit together with the first capacitor, and wherein a parallel resonant frequency of the parallel resonant circuit formed by the first capacitor and the spiral inductor is set higher than an oscillation frequency at a fundamental wave of the crystal element, and lower than an oscillation frequency at a third overtone of the crystal element, wherein the container is made up of laminated ceramics comprising a bottom wall layer and a frame wall layer having an opening portion and formed on the bottom wall layer, wherein the oscillator IC is secured onto an inner bottom surface of a recess constituted by the opening portion, wherein the spiral inductor is provided on the bottom wall layer, and wherein a part of the spiral inductor is formed on a laminated surface of the bottom wall layer with the frame wall layer such that the part of the spiral inductor is covered with the frame wall layer while another part of the spiral inductor is exposed at the inner bottom surface of the recess, and wherein an adjusting line is provided on the laminated surface at a portion where the spiral inductor is exposed at the inner bottom surface of the recess, so as to cause short-circuit between adjacent turns of winding of the spiral inductor.