SU985877A1 - Compensator for current transformer error - Google Patents

Description

. The invention relates to electrical engineering and is intended for use in relay protection circuits and other automation devices of power systems, as well as in electrical measurement. technology.

A device for reducing the error of a current transformer comprising an aperiodic amplifier, a measuring intermediate transducer and a sum torus is known, with one end of the primary winding of the measuring intermediate transformer and the input of the aperiodic amplifier connected to the load transformer of the current transformer, and the other end of the transformer and the output of the aperiodic amplifier are connected to the inlets , the output of which is the output of the device, using an aperiodic amplifier is compensating a signal proportional in magnitude and opposite in phase to the magnetizing current of the current transformer. This signal is added in the adder with the output voltage of the current transformer in such a way that the output signal of the device repeats the shape of the primary current. Using an intermediate transformer, it is possible to measure the load current component 1J.

However, the known device is characterized by an approximate reproduction of the magnetizing current, especially at the moment corresponding to the completion of the core of the compensated transformer. An additional error is introduced by neglecting the fluxes dispersed in the windings of the current transformer. Thus, at the output of the device, the signal is allocated with a large margin, reaching a maximum value at saturation of the core steel.

Claims (2)

It is also known a device made on operational amplifiers and containing a sulfator-integrator, a nonlinearity unit and an adder. This device more fully and accurately takes into account the physical processes occurring in the current transformer. In essence, it is a reverse model of a current transformer, whereby when it is switched on in series with a current transformer, the conversion process is linearized 2. However, this device contains two series-connected integrating elements, performed in an open circuit, that if there is an offset "and and zero drift amplifiers leads to a loss of stability of its operation and saturation of integrators. In addition, the influence of the parasitic parameters (active and inductive resistances of the windings) of current transformers is not taken into account. The above circumstances make practical use of the device difficult. The purpose of the invention is to improve the accuracy of error compensation and stability of the compensator. The goal is achieved by the fact that in the compensator of the error of the current transformer containing an adder-integrator, the output of which is connected to the V.OKDU of the nonlinearity unit, and an adder, the first input of which is connected to the output of the non-linearity unit, the second input of the adder Two inverters are added to the output of the current-to-converter converter connected to the secondary terminals of the current transformer, the input of the first inverter is connected to the output of the adder, and its output to the second input of the adder the integrator, the input of the second inverter is connected to the output of the nonlinearity unit, and its output to the third input of the adder-integrator. The drawing shows a diagram of the compensator. The compensator contains the adder-integrator 1 with the first, second and third inputs 2-4, block 5 nonlinearity, adder 6, the first 7 and the second L inverters. The first input of the sum-integrator through the converter 9 is the current-voltage connected to the secondary terminals of the current transformer 10. The output of the adder-integrator is connected to the input of the nonlinearity unit. The output of the latter is connected to the first. th input of the adder and the input of the second inverter. The second input of the adder is connected with the first input of the adder-integrator, the output of the same adder is connected to the input of the first inverter. The outputs of the first and second inverters are connected respectively to the second and third inputs of the adder-integratoPSL. All nodes can be built on the basis of known analog decision elements. The compensator works as follows. The output voltage of the integrator corresponds to the current. induction values in the core of the current transformer. After nonlinear transformation in block 5, which reproduces the dependence of the intensity H), we obtain at the output of the nonlinearity unit a voltage corresponding to the current transformer magnetizing current on a certain scale. This voltage is summed with the help of adder b with the output voltage of the converter 8 corresponding to the secondary current of the transformer, as a result the voltage corresponding to the primary current is obtained at the output of the adder. This voltage, as well as a voltage proportional to the magnetizing current of the current transformer, is fed through inverters back to the inputs of the adder-integrator. The transmission coefficients in the feedback circuits are selected taking into account the inductance of the scattering of the secondary winding. The transmission coefficient at the first input of the adder-integrator, in addition to the load resistance of the current transformer, also takes into account the influence of the winding resistance. The introduction of feedback circuits makes it possible to compensate for the accumulation of error by the integrator due to the presence of a zero-bias amplifier and its drift. The above circumstances favorably distinguish the proposed compensator from the known one, since the violation of stability is eliminated and its accuracy is increased. Invention A current transformer error compensator containing an integrator integrator, the output of which is connected to the input of a nonlinearity unit, and an adder, the first input of which is connected to the output of a nonlinearity unit, a second input of the adder and one of the inputs of an adder-integrator connected to the output of a current-voltage converter included in the secondary terminals of the current transformer, that is, so that, in order to improve the accuracy of compensation and stability of operation, two inverters are additionally introduced into it, the input is an inverter connected to the output of the adder and its output - to the second input of the summator integrator, the input of the second inverter connected to the output of the nonlinearity block .a its output - to the third input of the adder-integrator. Sources of information taken into account in the examination 1. Patent SSSA 3818338, cl. H 02 H 3/28, 1974.. 2. Two-way certificate of the USSR 633085, kl.N 02 H 3/28, 1976.