SU723718A1 - Arrangement for automatic adjusting compensation current in the mode of alternating single phase shorting to the earth - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CURRENT ADJUSTMENT OF COMPENSATION E-MODE OF INTERMEDIATE SINGLE-PHASE TURNING ON. The land cost and considerable difficulty in installing, setting up and operating compensation systems with a known controller. In addition, this device does not work with arc averaging at each period or at each half-period of the mains frequency. The purpose of the invention is to simplify and improve the reliability of operation. This is achieved in that a known device containing an amplitude detector, a frequency discriminator with a comparison element at the output, the input of which is connected to the output of the arcing reactor, and an output ™ to the input of the executive organ, will enter the amplitude detector. The discriminator contains two parallel chains connected to the comparison element and made on the differential (| zeronizer and inertialess link, to the outputs of which the above mentioned amplitude detectors are connected in series. Fig. I structural diagram of the object and the proposed device for automatic adjustment of the compensation current; Fig. 2 is a schematic diagram of the frequency discriminator. The device is connected to an arc-fed DR reactor included in neutral 0 of a three-phase network with phase voltages (1 1, 2 , 3) and capacitances C (I, 2, 3) of the phase relative to the ground. The device for automatic adjustment of VoKa compensation consists of frequency discriminator 1 and astatic actuator 2. Frequency discriminator 1 includes differentiator 3, without link 4, with a predetermined transmission coefficient -OD, amplitude detectors 5 and 6, made on diode bridges and block 7 comparison. The output signal from the arc-suppressed DRS reactor in L () goes to frequency discriminator I. Frequency discriminator I consists of two parallel-connected chains, the gain factors of which are chosen so that the constant component of the signal at the output of the comparator unit is O at a frequency signal at the input of the frequency discriminator equal to the network frequency. This requirement is fulfilled with the ratio of the gain of 84 displacement link to the coefficient of differentiator strength equal to ojg (ujQ is the circular frequency of the network). At the output of the differentiator 3 and the reducer-free link 4, the signals take the form V p9 w AI cos (tut + H), (), p (3 / dt: After the amplitude detectors 5 and 6, these signals arrive at the comparison unit 7, at the output of which control signal U of the form i. | l () .r (t); where r- (t) is the oscillatory component of the control signal at the frequency 2.uj, which are sufficiently suppressed by the static body 2, which changes the inductance L arcs of the reactor’s DR until the frequency of freedoms Üх of the oscillations uj is equal to the frequency of which in particular may be unstable. FIG. 2 shows an example of a specific embodiment of the simplest frequency discriminator, the principle of operation of which is as follows. Signals are formed into two independent tracks from each other RC chains, described by the following differentials and () V – V,, R, c, pe. (R., v ... Assume that, .i where m is the scale coefficient 4) the patient; T is the time constant of the RO-chains, K and K are the coefficients of the transformation V pm9, O We took in the instruction that 0-Asin () we find the strong solutions r Amu) COs (ujt + 4) ,. (u; t) ICJn Then the constant components 2 and Z at the outputs Z and Z of the full-wave rectifiers 5 and 6 are respectively 7 -2J. О 7TL ml7 The subtraction operation in comparison unit 7 is carried out by switching on detectors 5 and 6 in the transponder circuit of frequency discriminator I. The useful part of WQ-UJ - the complete control signal U is fed to the astatic actuator 7, which adjusts the inductance L. The use of the simplest 5, C-elements in the proposed controller circuit significantly reduces the cost, reduces the labor intensity during assembly, installation, and the operation of the proposed device. Performing a frequency discriminator almost instantaneously allows one to control the compensation current in the mode when the moving arc lights up at each period or half-period of the network frequency, which significantly increases the reliability of operation.

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g 18 Formula and 3 a device Device for automatic adjustment of compensation current in the intermittent single-phase ground circuit based on the measurement of the natural frequency of the circuit. zero sequence relative to the frequency of the network during moments of pause slots, containing an amplitude detector, frequency discriminator with the comparison element at the output, the input of which is connected to the output of the arc-extinguishing reactor, and the output to the input of the executive body, characterized in that, in order to simplify and increase the reliability, In addition, an additional amplitude detector is introduced into it, and the frequency discriminator contains two parallel chains connected to the reference element and performed on a differentiator and a zero-speed link, respectively, to the outputs of which the successive-mentioned amplitude detectors are connected. Sources of information taken into account in the examination I. USSR USSR Copyright Certificate 424275, cl. H O2 3 3/18, 1972. 2 USSR Author's Certificate No. 296189, cl. H 02 H 1 / O2, 1967.

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Claims (1)

Claim Device for automatic unstable si Subtracting operation in the comparison unit 7 U «Z _O -Z carried switching circuit detectors 5 and 6 in the output circuit of the frequency discriminator 1. Useful part ki current compensation and re ayu5 schegosya mode between a single-phase ground fault based on the measured natural frequency of the circuit. zero sequence with respect to the network frequency at the moments of Boston pauses, containing an amplitude detector, a frequency discriminator with a comparison element at the output, the input of which is connected to the output of the suppression CP _O -UJ of the complete control signal U is supplied to the astatic actuator 7, which adjusts the inductance L. The use of the simplest R, C elements in the proposed controller circuit significantly reduces the prime cost, reduces the laboriousness in the assembly, installation, commissioning, and operation of the proposed device. The implementation of the frequency discriminator almost inertialess allows the reactor, and the output - to the input of the executive body, characterized in that, in order to simplify and increase the reliability of operation, an additional amplitude detector is introduced into it, and the frequency discriminator contains two parallel chains connected to the comparison element and made on the differentiator and inertialess ringing, respectively, to the outputs of which are connected sequentially mentioned amplitude detectors.