DE485380C - Piezoelectric crystal element - Google Patents

Description

Piezoelectric crystal element The invention relates to an improvement and further configuration of the piezoelectric crystal element according to patent 462,848.

The main invention shows a crystal element that is made from the crystal is cut that its length dimension in a direction parallel with a electrical axis lies. As stated there, not only has such an element but rather the tendency to vibrate at a frequency commensurate with its thickness also becomes less likely to be ineffective in manufacture. This way out of the Natural crystal cut elements can be given thicknesses just by the mechanical difficulties are limited and at the same time effective vibrators represent, while the crystals cut by the previous method already cease vibrating when its thickness decreases to a level that of one wavelength under zoo m corresponds.

It is also essential in what way such an element is subjected to the effects of an electrostatic field. The electrodes must namely be arranged according to the invention so that the direction of the the element acting electric field perpendicular to the electric axis of the same lies.

Fig. Z and 2 of the accompanying drawing show a crystal in two projections, Fig. 3 shows a piezo element arranged between two electrodes. As in patent 462 848, FIGS. X and 2 again show an element 2, as it was cut earlier, and also an element 3 which, according to patent 462 848, is cut parallel to the electrical axis XX of the crystal.

Such an element can have its length dimension in a plane parallel to have one of the three electrical axes of the natural crystal. The three electrical axes are drawn in dotted in Fig. With the already mentioned Axis XX, the other two axes form an angle of 6o '. With the element q. lie therefore, as in the case of element 3, the length dimensions are parallel in a plane to an electrical axis of the natural X-crystal.

The electrostatic field (Fig. 3) is transmitted to the element 3 by the Electrodes 5 and 6 are applied through lines 7 and 8 to a voltage source are connected. Since the long sides of the element 3 parallel to an electrical Axis and the electrodes are in contact with these sides, so it becomes electrostatic Field fed to the element in a plane, perpendicular to its length dimension and thus its main electrical axis.

Claims (1)

Claim: Piezoelectric crystal element, the sectional plane of which, according to Patent 462 848, lies parallel to one of the electrical axes of the crystal, characterized in that it is arranged between its electrodes in such a way that their electrostatic field is perpendicular to its electrical axis.