PL233390B1 - Method and system for assessing condition of electric insulation in electrical equipment - Google Patents

Abstract

A method of assessing the state of electrical insulation in electrical devices in which a charged capacitor is connected to the winding of the device being assessed, and then the amplitude of the decaying oscillatory current is recorded in this circuit, assigning it a waveform according to the general relationship: x=Yexp(-at)sin(bt ), where: x - the instantaneous value of the signal amplitude, t - time, a and b - the sought damping coefficients and frequencies characterizing the signal, Y - the amplitude of the first oscillation of the tested waveform, and the unknown coefficients a and b are determined by calculating the correlation of the tested waveform with the reference waveforms generated in a generator of comparative waveforms, with known coefficients a and b, generated for known values of insulation resistance, is characterized according to the invention in that the frequency and attenuation of the comparative waveforms are successively selected in such a way that the correlation coefficient between the tested and comparative waveforms increases in subsequent correlation calculations, until the assumed level of correlation coefficient is achieved. In such a case, the frequency and attenuation of the tested waveform are assumed to be equal to the appropriate parameters of the comparative waveform, and on this basis the insulation condition is assessed. The system for assessing the state of electrical insulation in electrical devices is characterized by the fact that it consists of a converter of the tested signal into voltage (PBSNN), which is connected to an analog-to-digital converter (PAC), whose output is connected to the input of the storage system (UP). The output of the storage system (UP) is connected to one of the inputs of the correlation system (UK). The output of the comparison waveform generator (GPP) is connected to the second input of the correlation system (UK). The output of the correlation circuit (UK) is connected to the input of the correlation comparator (UPK), which has its output connected to the control input of the comparison waveform generator (GPP).

Description

Description of the invention

The subject of the invention is a method and system for assessing the condition of electrical insulation in electrical devices based on the measurement of oscillatory parameters of the decaying waveforms.

Various physical phenomena appearing in electrical circuits can be analyzed by measuring the parameters of intentionally induced oscillations. For example, by connecting a charged capacitor to the circuit of the tested winding, an oscillating, extinguishing current waveform in such a circuit is obtained.

The function describing the tested waveform has the following general form:

x = Yexp (-at) sin bt, where:

x - instantaneous signal amplitude value, t - time, a and b - searched damping coefficients and frequencies characterizing signal parameters,

Y - amplitude of the first oscillation of the tested waveform.

There are known methods of determining the frequency of the tested waveform by measuring the time between successive moments of the zero crossing of the tested waveform. The most common is the threshold time measurement. The algorithm searches for the first sample in the sampled signal that exceeds the monitor threshold. The measurement resolution in this method is equal to the sampling period.

There are also known methods of detecting the zero crossing by interpolation between two samples, one of which is on the negative side and the other one is on the positive side of the test waveform. However, in the case of a damped signal, i.e. asymmetrically distorted with respect to the time axis, the distance between successive zero crossings is not reliable for determining the frequency of the waveform under consideration, it differs from the period of the fundamental signal component.

There are also known methods of correlating the signal under examination with a periodic signal with a known precise frequency. However, in the case when the tested signal has only a few strongly damped periods, obtaining a high correlation is unlikely, and the precision of determining the tested frequency is limited.

It is known to use such an analysis to test the insulation condition in objects with resistance and inductance. In these tests, the principle is used that any deviations from the value characteristic for an efficient object change the frequency and the damping coefficient of the oscillations of the current waveform when switching off the object. The analysis of these deviations allows to determine the condition of the insulation.

The essence of the method of assessing the condition of electrical insulation in electrical devices is based on the use of known conditions, characterized by the fact that if a charged capacitor is connected to the winding of the assessed device, and then the amplitude of the declining oscillating current is recorded in this circuit, the following dependence is obtained:

x = Yexp (-at) sin (bt) (1), where:

x - instantaneous signal amplitude value, t - time, a and b - searched damping coefficients and frequencies characterizing signal parameters,

Y - amplitude of the first oscillation of the tested waveform.

The unknown coefficients a and b are determined by calculating the correlation of the tested waveform with the reference waveforms generated in the comparative waveform generator, with known coefficients a and b, generated for known values of measured insulation resistance.

The method according to the invention is characterized in that the comparison waveforms are generated and the frequency and damping of the comparison waveforms are successively selected in such a way that the correlation coefficient between the test waveform and the reference waveform increases in the successive correlation calculations until the desired level of the correlation coefficient is reached. Next

The frequency and damping of the test run are assumed to be equal to the corresponding parameters of the reference run, and on this basis the insulation condition is assessed.

The system for assessing the condition of electrical insulation in electric devices is characterized according to the invention by the fact that it consists of a converter of the tested signal into voltage, which is connected with an analog-to-digital converter, the output of which is connected to the input of the memory circuit. The output of the memory circuit is connected to one of the inputs of the correlation circuit, and the output of the comparison waveform generator is connected to the other input of the correlation circuit. The output of the correlation circuit is connected: to the input of the correlation comparison circuit, which has an output connected to the control input of the comparison waveform generator.

The use of the invention consists in the fact that after recording the test waveform, in successive steps the test waveform is compared with a series of waveforms generated in the measurement system using a correlation method.

In the first phase of the calculations, these are the waveforms with an amplitude equal to the maximum amplitude of the tested Y waveform and with variable coefficients characterizing the frequency b, and the damping coefficient takes the value a = 0.

The result of this phase of the research is the selection of the generated course with the highest correlation with the tested course. In the second phase of the tests, this selected course is subjected to the multiplication operation with the functions exp (-at), where the series of generated functions exp (-at) have different damping coefficients a. Next, these generated functions are again correlated with the test course.

The result of the second phase of the research is again the selection of the generated waveform with the highest correlation with the test run, and now two coefficients - a and b are selected.

Both phases of calculations can be repeated, taking as a starting point the coefficients a and b determined in the previous phase of calculations.

The correlation method allows to determine the coefficients a and b appearing in formula (1), and thus to define the oscillating decay waveform with high precision. The precision of defining this course depends only on the number of repetitions of the above-described procedure.

Thanks to the use of the invention, the quality of the insulation can be assessed in a quick and non-invasive manner.

The invention is explained in more detail in an exemplary embodiment and in the drawing, in which Fig. 1 shows a diagram of an electrical device prepared for testing, Fig. 2 a general diagram of a system for measuring oscillatory parameters of fading waveforms, and Fig. 3 - an example of a tested signal waveform and successive waveform approximations comparator.

P r z k ł a d

As shown in Fig. 1, the test is carried out on the circuit IE, the equivalent scheme of which consists of the inductance Lx and the resistance Rx of the tested object BO, to which a charged capacitor C is connected through a switch P, which has previously been charged and supplied from a direct current source E.

As shown in Fig. 2, the tested IE circuit is connected to the PBSNN voltage converter of the tested signal, which is part of the circuit for measuring the oscillating parameters of the decaying waveforms.

The converter of the tested signal into PBSN voltage is connected to the PAC analog-to-digital converter, the output of which is connected to the input of the UP memory system. The output of the UP memory circuit is connected to one of the inputs of the UK correlation circuit. The output of the GPP comparison waveform generator is connected to the second input of the correlation circuit UK. The output of the correlation circuit UK is connected to the input of the correlation comparison circuit UPK, which has an output connected to the control input of the comparator GPP generator.

In the GPP comparison waveform generator, the first ALI algorithm is implemented to select the frequency of the reference waveform, and the second ALT algorithm is implemented to select the amplitude suppression of the reference waveform.

In order to measure the parameters of the decaying oscillatory waveforms, a signal is generated whose correlation with the tested BS signal is as high as possible.

The tested signal BS is converted into voltage by means of the converter of the tested signal into voltage PBSNN. Then, the tested BS signal is converted into a digital form in the analog-to-digital converter PAC, and further the tested BS signal is stored in the UP memory system.

In the second processing path, the GPP reference waveform generator produces a sinusoidal signal with a frequency close to that expected in the test waveform. Then, in the correlation system UK, a correlation coefficient is calculated between the signal BS under investigation and the signal

I was a comparative. Further, in the GPP comparison waveform generator, as shown in Fig. 3, a new frequency-changed comparison signal SF1 is generated and its correlation with the tested signal BS is calculated. The new value of the correlation coefficient is compared in the UPK correlation comparison system with the previous one, and depending on the result of the comparison, another value of the reference signal frequency is selected.

The generation of successive frequencies of the comparison signal by the comparison waveform generator GPP using the ALI algorithm leads after several steps to the maximum value of the correlation coefficient, which is shown in Fig. 3, in the form of successive frequencies of the comparison signal AF, i.e. SF1, SF2 and SFN. .

Then, in the GPP comparison waveform generator, a reference signal is generated with the last set frequency value SFN and an attenuation factor a less than one, i.e. ST1. The new value of the thus calculated correlation coefficient is compared with the previous one in the UPK correlation comparison system, and depending on the result of the comparison, another value of the attenuation coefficient and of the reference signal is selected.

In the following steps, the damping factor? Is changed according to the second ALT algorithm, which after a few steps brings the damping factor to the STM value for which the correlation coefficient at the output of the UPK circuit reaches its maximum value.

In order to obtain a more accurate evaluation of the isolation condition, the frequency selection and the attenuation of the reference signal are repeated alternately according to the first ALI algorithm and the second ALT algorithm.

In this way, the parameters of the comparison signal are determined which give the highest value of the correlation coefficient of the comparison signal with the examined signal BS. The parameters of the reference signal selected in this way can be assigned to the tested signal BS with a certain accuracy.

The analysis of the deviations of the frequency values and the oscillation damping coefficient from the values characteristic for an efficient object allows to determine the condition of the insulation.

Claims (2)

Patent claims 1. The method of assessing the condition of electrical insulation in electrical devices consisting in the fact that a charged capacitor is connected to the winding of the device under assessment, and then the amplitude of the decaying oscillating current is recorded in this circuit, assigning it a course according to the general dependence: x = Yexp (-at) sin (bt), where: x - instantaneous value of the signal amplitude, t - time, a and b - sought damping coefficients and frequencies characterizing the signal, Y - amplitude of the first oscillation of the tested waveform, where unknown coefficients a and b are determined by calculating the correlation of the tested waveform with the reference waveforms generated in the comparative waveform generator, with known coefficients a and b, generated for known values of insulation resistance, characterized in that the frequency and attenuation of the comparative waveforms are selected successively in such a way that the correlation coefficient between the test and comparative waveform increases in successive correlation calculations until the assumed level of the coefficient is reached correlation, and then the frequency and damping of the test run are assumed to be equal to the appropriate parameters of the reference run, and on this basis the insulation condition is assessed. 2. A system for assessing the condition of electrical insulation in electrical devices, characterized by the fact that it consists of a converter of the tested signal to voltage (PBSNN), which is connected to an analog-to-digital converter (PAC), whose output is connected to the input of the memory circuit (UP ), and the output of the memory circuit (UP) is connected to one of the inputs of the correlation circuit (UK), and the other input of the correlation circuit PL 233 390 Β1 go (UK) is connected to the output of the comparative waveform generator (GPP), and the output of the correlation circuit (UK) is connected to the input of the correlation comparison circuit (UPK), which has an output connected to the control input of the comparative waveform generator (GPP).