FI61108C - SAETT ATT PERMANENT POLARIZER PIETZOELEKTRISKT MATERIAL MED HJAELP AV ELEKTRISKA FAELT - Google Patents

Description

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Patent · och regifterstyrelsen '' AntMuut utlagd och utl.> KrHt «n pubHond 29.01.82 (32) (33) (31) Pyydetty etuellteu * —Begirt priority 17 · 07 · 72

Federal Republic of Germany-Förbundsrepubliken Tysklarxd (DE) P 2235055-6 (71) Siemens Aktiengesellschaft, Berlin / Munchen, DE; Wittelsbacherplatz 2, D-8000 Miinchen 2, Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) (72) Rudolf Schöfer, Ebersberg, Helmut Thomann, Munchen, Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) (7 * 51 Berggren ) Method of permanently polarizing a piezoelectric substance by means of an electric field - Set a permanent polarization of a piezoelectric material

The present invention is directed to a method of permanently polarizing a piezoelectric substance by an electric field, whereby a predetermined value for polarization is achieved by first polarizing the substance to a predetermined polarization value. and then depolarizes the substance to a predetermined value by applying a DC voltage field opposite to the polarization.

The piezoelectric material used, for example, in the manufacture of electroacoustic transducers or frequency filters is usually as strongly permanently corrected as possible. In this case, the piezoelectric substance is heated, for example, in a silicone oil bath to about 200 ° C and slowly cooled to room temperature, combined with a high DC voltage. The electric direct field acting on the substance is, for example, 2-3 kV / mm.

For example, CH patent publication 282 863 discloses a method of polarizing a Piet electroelectric substance in which Polarization is performed alternately in a different direction, always aiming at the highest possible degree of polarization at each step 26108. The background to this publication is the knowledge that by performing several polarization steps on a piezoelectric material by changing direction, ever higher degrees of polarization can be obtained.

DE-A-2 019 780 discloses a method for setting the travel time of a delay line, in which the average polarization value is first set, which is then changed in either direction to adjust the travel time value. The present invention, on the other hand, aims to achieve a certain degree of polarization, which is measured by the resonance resistance of the substance.

To achieve this object, the invention is characterized in that the substance polarized to saturation in a manner known per se is subjected to a depolarization event at room temperature and that the depolarization is carried out in several steps, measuring the polarization-specific value, in particular the resonance impedance.

The polarization method according to the invention can be suitably carried out at room temperature or higher. The invention and its other features are described in more detail below in the form of examples and with reference to the accompanying drawing.

Figure 1 schematically shows the polarization of a piezoelectric substance as a function of time.

Figure 2 schematically shows the depolarization of a piezoelectric substance as a function of time.

Figure 1 shows the polarization of a lead zirconate titanate material with manganese and aluminum as a function of time. Polarization was performed at room temperature and at different field strengths. At room temperature, polarization occurs more slowly than, for example, at 200 ° C. According to the invention, the substance to be polarized is first polarized at a certain field strength above a certain polarization value or up to its saturation polarization. Thereafter, the substance, by connecting to it a direct voltage in the opposite direction of polarization, is partially depolarized. As shown in Figure 2, the depolarization process begins relatively steeply when the reverse voltage is combined, but then attenuates rapidly, as does the exponential function.

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The method according to the invention achieves a predetermined polarization value of the substance, so that this substance is initially polarized to saturation, e.g. at room temperature and a certain field strength, and then the determined polarization value is achieved by depolarization or gradual depolarization. Thus, it is possible to achieve with relatively high accuracy any desired predetermined polarization value below the saturation value. If a polarization value of less than 30% of the maximum polarization is to be achieved, the most suitable field strength is selected according to Figure 1, which results in the desired Polarization value in a time considered suitable, e.g. 10 or 20 minutes. In this case, the polarization most preferably takes place at room temperature.

If the determined polarization value is more than 30% of the maximum polarization, the material heated to higher temperatures is most preferably polarized, because the impregnation polarization value is reached at higher temperatures in a shorter time. At room temperature, the polarization achieved in the above step of these samples is then reduced by combining the DC voltage with the polarization in the opposite direction. The field strength that must be used to achieve a given polarization value economically advantageously over time can be obtained from Figure 2. It is preferable to choose a longer depolarization time because in a gentle curve shape, e.g. after one hour, the desired polarization can be set more precisely.

In the depolarization method, it should be noted that the polarization due to aging increases slightly again in the first days, so that it must first be polarized slightly below a certain polarization value.

Polarization measurement by polarization method, resp. during the depolarization process, it is most preferably done by measuring the resonance resistance of the piezoelectric substance.

Most preferably, the depolarization takes place step by step, in which case the respective polarization value is measured between the different depolarization steps. In this way, it is possible to accurately achieve a certain polarization value.

Such a stepwise method is also suitable for automation, in which case, when a certain wave resistance value is reached, the depolarization process is terminated.

Claims (2)

1. The setting of a permanent polarizing piezoelectric material with a polarization of the polarization of the polarization of the polarization of the polarization of the polarization of the polarization of the polarization is determined rum genom päläggning av ett mot polarizationen motriktat lik-spänningsfält, kännetecknat av att ett ett account mättnad päi och för sig känt sätt polarized material undercast depolarization-sationsförloppet vid rumstemperatur och att depolarizationen utfö-res i flera särskilt materialets resonansimpedans, uppmätes mellan de Enskilda Stegen. A method of permanently polarizing a piezoelectric substance by an electric field, wherein a predetermined value for polarization is achieved by first polarizing the substance to a value exceeding a predetermined polarization value and then causing the substance to be depolarized to a predetermined value by applying a DC voltage to it until the polarized substance is subjected to a depolarization event at room temperature and that the depolarization is performed in several steps, whereby the value characteristic of the polarization, especially the resonance impedance of the substance, is measured between the individual steps. A method according to claim 1, characterized in that the piezoelectric substance is polarized at temperatures higher than room temperature. Method according to Claim 1, characterized in that the piezoelectric substance is polarized at room temperature. Method according to one of Claims 1 to 3, characterized in that a long depolarization time is selected. Method according to one of Claims 1 to 4, characterized in that the stepwise depolarization is controlled automatically and that the depolarization event is terminated automatically when a predetermined value is reached. 2. An invention according to claim 1, which comprises a piezoelectric material polarizing at a temperature which is at a rum temperature.