UA30148U - Piezoelectric transformer - Google Patents

Abstract

A piezoelectric transformer includes a piezoelectric cell with two systems of electrodes, input and output conductors. Moreover, input conductor is connected to the first electrode of the second system of electrodes, output conductor is connected to the first electrode of the second system of electrodes, the common wire is connected to the second electrode of the first system of electrodes; resistor is also connected to the piezoelectric cell with one conductor being connected to input conductor, the second – to output conductor of the circuit.

Description

Description of the invention

The useful model belongs to piezoelectric transformers and can be used in radio-electronic 2 equipment as a voltage transformer or in other areas.

A known piezoelectric transformer containing a piezoelectric element with two electrode systems and input and output leads see USSR patent Mo453598, 1974, Bull. Mo46)|. This piezoelectric transformer is used as a static pressure sensor.

The disadvantage of this piezoelectric transformer is the non-linearity of the amplitude-frequency characteristic 70 (frequency response), which narrows its scope of use.

A known piezoelectric transformer containing a piezoelectric element with two electrode systems and input and output leads see USSR patent Mo815527, 1981, Bull. Mo11). This piezoelectric transformer is also used as a piezoelectric sensor.

The disadvantage of this piezoelectric transformer is the non-linearity of frequency response, which narrows its scope of use. 12 A known piezoelectric transformer containing a piezoelectric element with two electrode systems, input and output wires, see Lavrynenko V.V. Piezoelectric transformer. - M.: Znergia, 1975: p. 27; Table 2, cross-sectional diagram).

The first electrode of the first electrode system of this piezoelectric transformer is located above the second electrode of the first system, and the first electrode of the second system is respectively above the second electrode of the second system.

A generator of electrical oscillations is usually connected to the first system of electrodes, and to the second - a measuring device.

The piezo element can be made in the form of a rectangular plate, disc, cylinder, and other shapes, and the electrodes, respectively, in the form of rectangles, half-discs, and rings | see Sharapov V.M. and others

Piezoelectric sensors. - M: Technosfera, 2006: p. b68, fig. 2.9 and p. 85, fig. 2.14|. 2

The specified piezoelectric transformer is closest in technical essence to what is claimed, and was chosen as a prototype.

The basis of the useful model is the task of improving the piezoelectric transformer by choosing the scheme of connecting the electrodes to the input and output wires of the piezoelectric transformer. co

A piezoelectric piezoelectric transformer contains a piezoelectric element with two electrode systems and PE input and output leads.

The proposed converter differs from the prototype in that the input wire is connected to the first electrode of the first electrode system, the output wire is connected to the first electrode of the second electrode system, and the common wire of the circuit is connected to the second electrode of the first electrode system, and is also connected to the piezo element resistor, one terminal of which is connected to the input wire, and the other to "9 output wire of the circuit.

Each of the specified distinguishing features is necessary, and all of them together are sufficient to achieve a technical result. "

The technical result of the useful model is an increase in the frequency response linearity of the piezoelectric transformer. 70 A useful model is explained by the drawing, where: o, c in Fig. 1 shows the connection diagram of the piezoelectric transformer; z" in Fig. 2 - AYAH of the proposed transformer (curve 1) and the prototype (curve 2).

The piezoelectric transformer contains a piezoelectric element 1 with two electrode systems - 2, Z and 4, 5.

The piezoelectric element is polarized in such a way that the polarization vector P is perpendicular to the plane of the electrodes.

The input wire 6 is connected to the first electrode 2 of the first electrode system, and the output wire 7 is connected to the first electrode 4 of the second electrode system, and the common wire 8 of the circuit is connected to the second electrode of the first electrode system. Resistor 9 is also connected to piezo element 1.

The piezoelectric transformer, which was chosen as a prototype, is an oscillating system with a sufficiently high Q-factor, that is, it has a nonlinear frequency response. However, in some cases there is a need to expand the linear section of the cha

For this purpose, in the proposed piezoelectric transformer, the input and output wires are connected to i) electrodes of the piezoelectric element as shown in Fig.1.

The piezoelectric transformer works as follows.

When the signal generator (or other signal source) is connected to the input electrodes of the piezoelectric transformer 25, it oscillates. At the same time, an electric voltage is generated at the output electrodes of the piezoelectric transformer c.

Due to the fact that the connection scheme used, as shown in Fig. 1, the frequency response of the proposed piezoelectric transformer is linear. At the same time, it turned out that the output signal is the first derivative of the input signal. 60 Example of specific use.

In this particular case, a piezoelectric transformer made of piezoceramics TsTo-19 with a diameter of 30 mm and a thickness of 0.8 mm was used, with electrodes in the form of discs with a diameter of 1 mm and rings with an outer diameter of 30 mm and an inner diameter of 17 mm. To increase the mechanical strength, the piezoelectric element was glued to a metal plate (LEEZ3 brass) with a diameter of 36 with a hole with a diameter of 17 mm, which reduced the resonant frequency of the piezoelectric transformer to 4 kHz (bending oscillations).

The piezo element was connected according to the prototype scheme to the G3-106 generator (electrodes 2, 3) and the 83-38 millivoltmeter (electrodes 4, 5). Electrodes 3, 5 were connected to the common wire of the circuit. Measurement results

AHF are shown in Fig. 2 (curve 2).

The frequency response measurement results for the proposed piezoelectric transformer are shown in Fig. 2 (curve 1).

As can be seen from Fig2, the frequency response of the proposed piezoelectric transformer has linearity in a larger frequency range than the prototype.

Claims (1)

Formula of the invention Piezoelectric transformer, which contains a piezoelectric element with two electrode systems and input and output wires, which is characterized by the fact that the input wire is connected to the first electrode of the first electrode system, the output wire is connected to the first electrode of the second electrode system, and the common wire circuit is connected to the second electrode of the first system of electrodes, a resistor is also connected to the piezo element, one terminal of which is connected to the input wire, and the other - to the output wire of the circuit. schi z (ge) "I "-- o Zo "o - with . and? o o - FT" ii") p 60 b5