SU1153281A1 - Device for nondestructive testing of electrical conductivity of article with thin conducting layer - Google Patents

Abstract

DEVICE FOR NONRAZRU1 1AU: NORCH CONTROL OF ELECTRICAL ELECTRICAL CONDUCTIVITY OF PRODUCTS WITH A THIN ELECTRICAL WIRING LAYER, containing a series-connected generator, a downstream converter and a signal processing unit, the second of which is connected to a generator, which is connected to a generator; control, it is equipped with a radio pulse generator connected in series and an inductor connected in series by a temperature measuring unit clicks and signal multiplying block, the second input of which is connected to the signal processing unit, and an output - to the conductivity of the indicator, and the indicator thickness connected to the output trunk unit measuring the temperature response.

Description

The invention relates to non-destructive testing by the method of eddy currents and can be used to determine the electrical conductivity of products with a thin electrically conductive layer.

A device for monitoring electrical conductivity, comprising a series-connected generator, a block of eddy current converters, 1 block of amplitude-phase signal processing and indicator [1J.

However, the known device is unsuitable for monitoring products with a thickness of the electrically conductive layer less than ι millimeter.

Closest to the invention is a device for non-destructive testing of the electrical conductivity of products with a thin 2 electrically conductive layer, comprising a series-connected generator, an eddy current transducer and a signal processing unit, the second input of which is connected to the generator, 2 and the electrical conductivity indicator [2 ^].

This device is characterized by low precision control products with a small thickness of conductive _{3 (} layer.

The purpose of the invention is to increase the accuracy of control.

This goal is achieved by TeM, ^J that a device for non-destructive testing of the electrical conductivity of products with a thin electrically conductive layer, containing 4 connected in series (a generator, eddy current transducer and a signal processing unit, the second input of which is connected to the generator, and the electrical conductivity indicator is equipped with ⁴⁵ connected in series by a radio pulse generator and an inductor, connected in series by a temperature response measuring unit and a multiplication unit with ignals, the second input of which ⁵ θ is connected to the signal processing unit,

The drawing shows a block diagram of a device for non-destructively controlling the electrical conductivity of products with a thin electrically conductive layer.

The device comprises a series-connected generator 1, eddy current transducer 2, a signal processing unit 3, the second input of which is connected to a generator 1, a signal multiplication unit 4 and an electrical conductivity indicator 5. The device also contains a series-connected radio pulse generator 6, an inductor 7 and a series-connected temperature response measurement unit 8, the output of which is connected to the second input of the signal multiplication unit 4, and a thickness indicator 9. The drawing also shows a controlled product 10.

The device operates as follows.

Alternating voltage from the generator 1 is supplied to the eddy current transducer 2, which generates eddy currents in the controlled product 10. The amplitude or phase of the signal of the eddy current transducer 2 is directly proportional to the product of the electrical conductivity and the thickness of the portion of the product being monitored 10. The signal is sent to the signal processing unit 3, which extracts useful information, and then to the multiplier 4.

At the same time, the generator of radio pulses 6 creates in the inductor 7 powerful radio pulses that excite eddy currents in the controlled product 10, heating this product.

The amount of heating is recorded by the unit 8 measuring the temperature response, the output signal of which depends only on the thickness of the plot from division 10 and is recorded by the indicator 9 thickness. At the same time, the signal enters the second input of the multiplier, the output signal of which is determined by the electrical conductivity.

When choosing the duration of the radio pulse, go to the conductivity indicator and the thickness indicator connected to the output of the temperature response measuring unit.

VNIIPI Order 2500/38 sa, you can change the amount of heating of the product, which allows you to expand the scope of the device for ⁵⁵ products with different thicknesses. Circulation 897 Subscription

Branch of PPP Patent, Uzhgorod, Project 4,

Claims (1)

DEVICE FOR NON-DESTRUCTIVE CONTROL OF INDIVIDUAL ELECTRICAL CONDUCTIVITY OF PRODUCTS WITH A THIN ELECTRIC CONDUCTING LAYER, which contains a series-connected generator, an eddy-current converter and a signal processing unit, the second input of which is connected to the generator, and an indicator of the increase in the accuracy of electrical conductivity, which differs in order to increase the electrical conductivity , it is equipped with a radio pulse generator and an inductor connected in series, connected in series with the temperature response measuring unit Locke multiplying signals, a second input of which is connected to the signal processing unit, and an output - to the conductivity of the indicator, and the indicator thickness connected to the output response of the temperature measurement unit.