SU1086382A1 - Eddy-current thickness gauge for coatings - Google Patents

Abstract

VIRTUAL COATING THICKNESSES, containing a sweep generator, a well-matched alternator, an eddy current transmitter, an Uspeeter, a ceter, an analog-to-digital converter, disconnected from the second socket to the output of the alternator and an alternator, which is connected to the output of the alternator and AC outlet and to the outlet voltage to the AC voltage generator, and the outlet voltage to the AC voltage generator, which is connected to the AC generator and the alternator coincide, the colors of the later ones are connected with each other by channels and channels corresponding to a chiop of exact points, characterized in that, in order to improve the accuracy These measurements, the sweep generator was made in the vice exponential voltage generator with n adjustable discharge resistances and connected by n inputs to the corresponding outputs of the digital function (L of the exact points of exact coincidence).

Description

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1 The invention relates to non-destructive. This method can be used to control and measure the thickness of anelectrical coatings on a nonmagnetic basis. Known eddy current thickness gauge, consistent with series-connected alternating current generator, eddy current transducer, amplification, analog-digital converter And indicator t P. A disadvantage of the known thickness gauge is the low measurement accuracy, which is associated with a linear approximation and the nonlinear dependence of the measurement results on the measured value. Closest to the proposed by the technical essence of the eddy current coating thickness gauge, social sweep generator, successively connected alternator, alternating current converter, amplifier, detector, analog-to-digital converter connected by the second input to the output of the alternator and the third input to the output sweep generator, counter and digital function block of exact match points, the latter two are connected to each other by f channels corresponding to the number of exact points tim C 2. However, this thickness gauge does not provide the required measurement accuracy, which is associated with a piecewise linear approximation of the characteristics of the eddy current transducer between exact points. The circuit of the invention is to increase the measurement accuracy. The delivered chain is achieved by having it in the vortex compartment. the thickness gauge coating containing the generator will unwrap the AC generator connected in series, the current converter, the amplifier, the detector, the analogue digital converter connected by the second input to the output of the alternating current generator and the third input to the output of the generator of the sweep, the counter to the digital functional unit coincided with L5, the colors of the latter are connected by a circle with other h channels, corresponding to the number of points of exact coincidence, the generator is developed as a generator exponential second voltage with n adjustable discharge inpii accompanied tivpeni m and n inputs connected to respective outputs of the digital function block 822 an exact coincidence points. The drawing shows the functional scheme of the BiccperoKoBoro coating thickness gauge, the eddy current coating thickness gauge consists of a series-connected alternating current generator 1, eddy current transducer 2, amplifier 3, detector 4, analog-digital converter 5, counter 6, digital function block 7 exact match points and generator 8, the last three are connected to each other by channels corresponding to the number of points of exact coincidence. The eddy current coating thickness gauge works as follows. The eddy current transducer 2 is installed by the working end on the surface of the supported coating. At the same time, the output of the eddy current transducer 2 produces a voltage, which, after amplification and rectification by means of amplifier 3 and detector 4, enters the input of the analog-digital converter 5. This voltage varies nonlinearly with the variation of the measured thickness. The analog-to-digital converter 5 performs a gradual change in the conversion at pre-selected exact match points, each of which has its own specific digital code, The code at the output of counter 6 generates a command in block 7 to change the value of the discharge resistance in generator 8 exposing the expansive foot to a voltage, thereby achieving a change in the steepness of the transformation. This allows a griganting of the exponential approximation of the information characteristic in the interval between exact match points. At the same time perseverance. " In comparison with the linear aroximizing measurement, the measurement is more than twofold. Replacing the pinniped sweep generator with a generator of an exponentially falling sweep voltage reduces the methodological error in measuring the thickness of coatings without reducing the number of exact match points, which simplifies the device as a whole. In addition, the possibility of anesthetic digital transform

310863824

Razovatep by changing the tail, hauntly when changing

discharge resistances and, thus, information characteristics of eddy compensations, with the fundamental error of the new converter.

Claims (1)

Vortex Coating Thickness Gauge, comprising a sweep generator, an alternating current generator connected in series, a vortex current transducer, an amplifier, a detector, an analog-to-digital converter connected to the output of the alternator and the third input to the output of the sweep generator, a counter and a digital function block of points exact match, the last two are connected to each other by η channels corresponding to the number of exact match points, characterized in that, with a chain for increasing the accuracy of measurement Nerefinium, the sweep generator is made into a vice exponential voltage generator with η adjustable discharge resistances and is connected by h inputs to the corresponding outputs of the digital functional block of exact coincidence points. SU „„ 1086382