UA12900U - Piezoelectric mechanical-electric transducer - Google Patents

Abstract

The proposed piezoelectric mechanical-electric transducer contains a piezoelectric element shaped as a parallelepiped with three pairs of electrodes, a matching voltage amplifier, and a matching charge amplifier. Two pairs of the electrodes are arranged at the sides of the piezoelectric element that are parallel to the polarization vector. The third pair of the electrodes is arranged at the sides of the piezoelectric element that are perpendicular to the polarization vector.

Description

Description of the invention

The useful model belongs to the measuring technique, and can be used in industry and 2 laboratory practice.

A known piezoelectric transducer of mechanical quantities, containing a piezoelectric element with electrodes and two matching amplifiers, and a charge amplifier and a voltage amplifier are used | see Patent

of Ukraine Mo34316A, 50111/16, С0О1Р15/09, publ. 15.02.01, Bul. Mo11.

The disadvantage of this converter is the relatively low measurement accuracy.

A well-known piezoelectric transducer of mechanical quantities, containing a piezoelectric element with electrodes and two matching amplifiers, see Patent of Ukraine Mo34317A, 3011 1/16, С0О1Р 15/09, publ. 15.02.01, Byul. My 11.

The disadvantage of this converter is the relatively low measurement accuracy.

The specified converter is the closest in technical essence to the one that is claimed, and was chosen as a prototype. 19 The useful model is based on the task of improving the piezoelectric transducer of mechanical quantities by using two matching amplifiers, one of which is a voltage amplifier, and the other is a charge amplifier, using a piezoelectric element in the form of a rectangular parallelepiped with three pairs of electrodes, two pairs of electrodes are located on the faces parallel to the polarization vector P, and the third pair of electrodes is located on the faces perpendicular to the polarization vector P and connected to matching amplifiers in such a way that two feedback links are formed, while the force vector EE is parallel to the polarization vector R.

The piezoelectric transducer of mechanical quantities contains a piezoelectric element with electrodes and two matching amplifiers, one of which is a voltage amplifier, and the other is a charge amplifier.

The proposed converter differs from the prototype in that the piezoelectric element is made in the form of a rectangular parallelepiped 29 with three pairs of electrodes, and two pairs of electrodes are located on the faces, pt") that are parallel to the polarization vector P, and the third pair of electrodes is located on the faces that are perpendicular to the polarization vector P, to the electrodes parallel to the polarization vector P and located on one face of the piezo element, the input and output of the voltage amplifier are connected, and the electrodes on the opposite face are connected to the common wire of the circuit, to one of the electrodes located on the face perpendicular to the vector about polarization P, the input of the charge amplifier is connected, and the electrode on the opposite face is connected to the output av of the charge amplifier, and the force vector E is applied to the piezo element parallel to the polarization vector P.

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

The technical result of a useful model is an increase in measurement accuracy.

A useful model is explained by drawings, where: -- in Fig. the electrical diagram of the proposed converter is shown.

The transducer contains a piezoelectric element 1 in the form of a rectangular parallelepiped with three pairs of electrodes 2-2, 3-3, 4-4" and a matching voltage amplifier 5 and a matching charge amplifier 6. Electrodes 2-2", 3-3, " are located in parallel to the polarization vector P, and the electrodes 4-4" are located perpendicular to the vector Z of the polarization P. The inputs of the matching amplifiers are connected to the electrodes 2", 4, the outputs are connected to the electrodes C and 4, and the common wire to the electrodes 2, 3. Force vector E (mechanical quantity) is applied to

From" of the piezo element is parallel to the polarization vector P.

The converter works as follows.

When the force E acts on the piezoelectric element 1, an electric charge and an electric voltage appear on the electrodes 2' and 4. The voltage from electrode 2" is fed to voltage amplifier 5, and the charge from electrode 4 is fed to - charge amplifier 6. The amplified voltage from the output of amplifier 5 is fed to electrode 3, and the voltage from the output ka of amplifier 6 is fed, respectively, to electrode 4", creating two feedback chains | see patents

of Ukraine Mo34316A and 34317A, 50111/16, СО1Р15/09, publ. 15.02.01, Bul. My, as well as Piezoelectric transducers (Reference manual) / Sharapov V.M. etc. // Ed. V. M. Sharapova. - Cherkasy!: ChGTU, 2004. at 00 -43Bs)

Due to the fact that two amplifiers are used, connected in such a way that two feedback loops are formed, the quality of the feedback coverage is better than for a single amplifier, which leads to an increase in the accuracy of the measurement.

An example of a specific use. 29 In a specific case, a piezo element made of piezoceramic TsTO-19 with a size of 1О0х1О0х4Ом was used. c The electrodes on the 10x100mm piezoelectric element are arranged as shown in Fig. The amplifiers are assembled on the KI40UDV microcircuit.

The transducer was installed on a vibrostand 4805 of the company "VgceI 8 Kieg" and was exposed to vibration at a frequency of 100 Hz with an acceleration of Id. Then the converter was heated to 60 50-32 using a special heater. The relative error 5 was measured for the converter according to the circuit of the prototype and according to the circuit of the claimed converter. Measurement results: prototype: 85 2,190; declared converter: b5

Claims (1)

The formula of the invention Piezoelectric converter of mechanical quantities, containing a piezoelectric element with electrodes and two matching amplifiers, one of which is a voltage amplifier, and the second is a charge amplifier, which is distinguished by the fact that the piezoelectric element is made in the form of a rectangular parallelepiped with three pairs of electrodes, and two pairs of electrodes are located on the faces that are parallel to the polarization vector, and the third pair of electrodes is located on the faces that are perpendicular to the polarization vector, to the electrodes that are parallel to the polarization vector and located on one face of the piezo element, the input and output of the voltage amplifier are connected, and the electrodes on the opposite face are connected to the common wire of the circuit, to one of the electrodes, which is located on the face perpendicular to the polarization vector, the input of the charge amplifier is connected, and the electrode on the opposite face is connected to the output of the charge amplifier, and the force vector is applied to the piezo element in parallel polarization vector. z z "c) "c) (o) s o - and? - name) se) («c) (42) 60 b5