SU943613A1 - Device for measuring eddy current time constant - Google Patents

Description

(W) DEVICE FOR MEASURING THE CONSTANT TIME OF VORTEX CURRENTS

one

A device for measuring the constant time of eddy currents of an electric DC machine is known, comprising a metering current of the excitation winding when it is disconnected from the network 1.

The invention relates to electrical measuring equipment and can be used to determine and automatically allow the tolerance control of the constant time of eddy currents of a magnetic system of an electric machine of direct current.

A disadvantage of the known device is the low accuracy of determining the time constant.

It is also known a device for measuring the constant time of eddy currents in a magnetic system of an electrical machine, comprising a switching unit for connecting to an excitation winding, a recording unit, an integration start delay unit whose output is connected to a control input of a key, and an integrator whose input is connected with the release of key 2.

However, the known device has insufficient accuracy, since in its implementation it is necessary to measure and stabilize both the excitation winding current and the EMF of the core winding, which increases the number of parameters affecting the TK value sought and reducing its accuracy. Since the study of the machine is carried out with a rotating rotor, in the applied signal

15 there is interference, proportional to the longitudinal harmonic fixed value, which also reduces the accuracy.

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Claims (2)

The device does not allow to remove the dependence of the constant time on the excitation current, which also reduces its functionality. The purpose of the invention is to improve the accuracy and expansion of functionality. The goal is achieved by the fact that the device is equipped with a second integrator and a comparison circuit, the output of the second integrator is connected to the comparison circuit, and its input is connected to the output of the first integrator, and another input of the comparison circuit whose output is connected to the second control input of the key. with a terminal intended to be connected to the excitation winding of the machine, and the recording unit is discharged in the form of a two-input time-pulse converter, to the inputs of which are connected the outputs of the comparison circuit and the delay unit. FIG. 1 shows an excitation-winding pattern; in fig. 2 is a block diagram of the device; in fig. 3 time diagrams of his work. The device contains a buffer frame 1 (for example, a scale amplifier), whose input is the input of the circuit, and the output through a control key 2, integrators 3 and t is connected to the first input of the comparison circuit 5. The second input of the comparison circuit 5 is connected to the output of the integrator 3i and its output is connected to the input of a time-pulse converter 6 and to the control input of a switch 2 connected to a terminal for connection to the field winding of the machine. Another input is the time of the pulse converter 6 and the key 2 connected to the output of the delay circuit 7. In the replacement circuit of the excitation winding, the switching element 8 is indicated, the supply voltage of the excitation winding Uq, the resistance of this winding Rtt, the resistance of the equivalent eddy current circuit, inductance scattering 1, magnetizing inductance Lj, excitation current ip ,, magnetization current i., equivalent to eddy current Lz. The EMF vs. time E (t) corresponds to position 9 and the voltage of the integrators 3 and i are C / t) and U / t) respectively, positions 10 and 11. The device works as follows. In order to determine the constant time of the eddy currents TC, the electric machine of direct current is transferred to the generator mode with independent excitation. The excitation winding is then disconnected from the mains, and the rotational speed of the eotor is kept constant. After termination of the arc on the contacts of block 8 when the excitation windings are disconnected from the network, the differential equation for the current and the emf of the excitation winding is written as (2) whence the emf of the excitation winding f (0-, v. arc L1 After the arc is terminated, the following operations are performed for the time t g: integration and double integration E (t). The delay time t is longer than the arc time. Through the time tjf, the output signal of the delay circuit 7 starts the pulse time the transducer 6 opens the key 2, and the integrators 3 integrate the voltage E (t). At time t, when the voltages and and and are equal, the output signal of the comparison circuit 5 stops the time-pulse converter b and closes the key 2. the time constant T is determined by the equation iu.H / () r, where Cf is the time constant of the integrator 4. As can be seen from equation (1), the result of the transformation is not t, therefore, to accurately determine the time constant eddy currents do not require rigid stabilization of these parameters. The tolerance control of the TC is thus automatically carried out by comparing t with the tolerance limit values. Definition TC. according to equation (1), can be carried out by the iteration method, according to the schedule for solving this equation or |; automatically, if the output of the time-pulse converter 6 is connected to the input of the computing device, the algorithm of which contains equation (1). The error of the converters that implement this method corresponds to the error of modern DC power devices and is determined by ten-hundredths of a percent. Due to the fact that during the conversion process, two integral functions of the process under study are compared, the proposed device has a high noise immunity. The independence of the transformation result from the magnitude of the delay of the beginning of the transformation relative to the beginning of the transient process at T, const allows this device to be used to study the functions T | f (t), and these studies are easily automated. Ensuring that the determination of the time constant T is performed on the linear portion of the curve, the magnetization of the machine is determined by the appropriate setting of the magnitude of the excitation current. It should be noted that it is not always necessary to determine a time constant T on the linear part of the magnetization curve. So with relay and pulsed ways of controlling the excitation current of a machine, this constant is determined at the working part of the magnetization curve of the machine, which in most cases is located on its nonlinear part. In the known devices, oscillographic and graphical-analytical operations are known to determine the constant time of eddy currents corresponding to the nonlinear magnetization curve of a machine, and their known drawbacks. The proposed device eliminates these drawbacks and allows you to automate the entire conversion process. With small delays and constant integration times with respect to the 3 durations of the transition process, the time constant is determined in the initial part of this process. With small delays and constant integration times, comparable to the duration of the transition process under study, the averaged time constant is determined in terms of the physical nature of the constant determined by a known device. With a small constant time and an adjustable delay, the characteristic T can be removed, (t) a, if the excitation current is varied, then it is possible to remove a family of characteristics TC (1d t). Thus, the device, along with increased accuracy, possesses wider functional capabilities. Apparatus of the Invention A device for measuring the constant time of eddy currents in a magnetic system of an electrical machine, comprising a switching unit for connecting to an excitation winding, a recording unit, an integration start delay unit whose output is connected to a control input of a key, and an integrator whose input is connected With the release of a key, characterized in that, in order to increase accuracy and enhance functionality, it is equipped with a second integrator and a comparison circuit, the output of the second integrator connected to the comparison circuit, and its output to the output of the first integrator and another input of the comparison circuit, the output of which is connected to the second control input of the key, the input of the key connected to the terminal intended for connection to the excitation winding of the machine, and the registration unit is designed as a two-input time of the pulse converter, to the inputs of which the outputs of the comparison circuit and the delay unit are connected. Sources of information taken into account in the examination 1. For Japan of Japan No. k8-267S (, cells 001 And 27/02, 1973. 2. USSR author's certificate number 157729, cl. H 02 K 15/00, 19b2. Kb eight LO