SU1677606A1 - Apparatus for electromagnetic testing - Google Patents

Abstract

The invention relates to non-destructive testing. The purpose of the invention is to increase the measurement speed by automatically balancing the parameters of a thin film transducer with an RLC replacement circuit. This goal is achieved due to the fact that a device containing a thin film converter connected in series with a power source with an RLC replacement circuit, an exemplary element of inductance placed on one substrate with a converter, a logometer, a series-connected amplifier whose input is connected to a converter, a controlled depot voltage and the adder, the output of which is connected to the input of the indicator, and the second input is connected to the output of the power source, the second input of the logometer is connected to the output the adder and the indicator output is connected to the control input of the controllable voltage divider exemplary capacitor connected in parallel to the converter, is further provided with an inverter connected between a power source and a capacitor model, the latter is formed on the same substrate with the converter. 2 Il (L S

Description

This invention relates to the field of non-destructive testing using the eddy current method.

The purpose of the invention is to increase the measurement speed by automatically balancing the parameters of a thin film transducer with an RLC replacement circuit.

Fig. 1 is a block diagram of a device for electromagnetic control; figure 2 - the topology of the thin-film Converter.

The device for electromagnetic control contains a power source 1, a thin-film converter 2 with an RLC replacement circuit, an exemplary capacitor 3 and an exemplary inductance element 4 placed on one substrate with a converter, a logometer 5 connected in series to an amplifier 6, the input of which is connected to the converter, is controlled voltage divider 7 and adder 8, the output of which is connected to the input of the indicator 9, and the second input connected to the output of power supply 1, the second input of the gauge 5 is connected to the output of the adder 8, and o The indicator is connected to the control input of the controlled voltage divider 7, the reference capacitor 3 is connected in parallel with the converter 2, and the inverter 10 is connected between the power source 1 and the reference capacitor 3.

The device works as follows.

Voltage Ui from the output of power supply 1 through thin-film conversion XI

x | ABOUT

eight

The driver 2 is fed to the input of the amplifier 6, to which a signal from the power source 1 is also fed through a voltage inverter 10 and an exemplary capacitor 3 with a capacitance C0. Structurally, the converter is designed in such a way that Cx. at the output of amplifier 6, we obtain the voltage

and then

Ue -U6

Ue ue

jwLo

wLo

U6 -Ui

Jwlo

Rx + juJLx which is fed to the input of the controlled voltage divider 7, at the output of which we obtain the voltage

About Ue K7 - Ui K

Jftjlo

Rx + j (a Lx

where the transmission coefficient of the control divider is 7 voltages.

The voltage Oy is fed to the first input of the adder 8, at the output of which we will teach the voltage Us Ui + Ue Ku.

Replacing the voltage Ui we get

ia ui + and 6 K7 U6 Ky-ue

 .. К j Ш U) - Rx - j Ш Lx

Jwlo

- I L Rx + J 0 (Lx - K LO)

and(.

Rx

jcoLo

jwLo

+

Lx - K7 U Lo

Since the indicator 9 made phase-sensitive, its output signal changes the transfer coefficient of the controlled divider, voltage 7 until the condition ReUe / Ue 0 is satisfied (the phase shift between voltages Us and Ue is 90 °. I.e.

Lx - K LQ Q LO

from where

v Lx K - - Lo

Kv - U7 - U

K7 - u7-17 The ratio of the voltages at the input and output of the controlled voltage divider 7, which can be measured with a logometer 5, is directly proportional to the change in inductance Lx of the converter, and the ratio of the voltages

Us u6

right

20

proportional to the change in the active component of the resistance of the thin film transducer.

Claims (1)

The invention The device for electromagnetic control, containing a series-connected power source, thin-film a converter with an RLC replacement circuit, an exemplary inductance element placed on the same substrate with a converter, a logometer, an amplifier connected in series, the input of which is connected to the converter, a controlled voltage divider, an adder whose output is connected to the indicator input, and the second input connected to the output of the power source, the second input of the gauge is connected to the output of the adder, and the output of the indicator is connected to the control input of the controlled voltage divider, as well as an exemplary capacitor connected -parallel converter, characterized in that in order to increase the operating speed of the measurement, it is provided with an inverter connected between the power source and exemplary capacitor which is formed on the same substrate with the converter. Rtuco 1 Lo FIG. 2