SU1325445A1 - Current stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in converter equipment. The purpose of the invention is to expand the range of regulation and improve the reliability of the current stabilizer. This is achieved by the fact that an inductive-capacitive converter is connected between the AC network and the rectifier from which the pulse-width stabilizer is powered, and the resistances of the reactive elements are selected from the ratio X :( X.) XC. 3 il. oo to SP 4 4 SP

Description

 13

The invention relates to electrical engineering and can be used in converter equipment to stabilize the current in a variable load, for example, to supply gas discharge and arc loads.

The purpose of the invention is to expand the range of current control and increase reliability of operation.

FIG. 1 is a block diagram of a current stabilizer; in fig. 2 shows one, of the examples of the implementation of the circuit solution of the device of FIG. 3 - device performance.

The proposed stabilizer can be single-phase or multi-phase and contains an inductive-capacitive converter (IEP 1., rectifier 2, current-pulse current regulator (WID) 3., current sensor 4, control unit 5, comparison circuit 6. A typical example of a non-linear load 7 with an arson block of such a stabilizer may be a gas-filled electric arc lamp, whose external characteristic is shown in Fig. 3, curve 8.

The proposed device works as follows.

After the lamp is set on fire, with the ShIR 3 power keys fully open (Fig.2), the operating current is fixed at the maximum operating point C on the external characteristic 8 (Fig. 3). Further regulation of the current in the A – C range at the operating characteristic is carried out with the aid of SR over the feedback circuit according to the magnitude of the driving signal (Fig. 1).

In this case, the IEP provides a parametrically stable operating point on the operating characteristic, and SR, in turn, ensures the stabilization of the current with greater speed at deviations of the network voltage, and also provides high stability of the current in the ABCD section with less dynamic action the key stabilizer, since the switching frequency of the WIDD can be selected one to two orders of magnitude above the frequency of the IEP supply voltage.

IEP has good filtering functions, which ensures good electromagnetic compatibility of the device operating next to each other. 2 gimi radio and. electrical devices.

Thus, by means of a new selection of IEP elements, it is possible to expand the operating range of the current regulator (including idle mode), to increase the reliability of the converter, limiting the emergency short circuit current. Besides,

due to the filtering properties of IEP

Good conditions for the separation of the operating modes of the converters by frequency are provided, which solves the problem of electromagnetic compatibility of power supply systems.

Claims (1)

Invention Formula A current stabilizer containing a series-connected rectifier and a pulse-width current regulator, the output of which is connected to the terminals for connecting a non-linear load, and the rectifier input is connected to the terminals for connecting a network current, which is different from the fact that, in order to expand the range of current control and increase reliability, between the terminals for connecting the AC network and the rectifier input is included introduced inductance-capacitive converter with pre-inductance without mutual inductance between input and output contour and the load circuit of each phase, with the resistance I1 of the sensitive X and the capacitive Xg reactive elements of the phase of the converter in 1 bar limits Хц (х. х) -Хс and the value of inductive resistance Х | determined by the maximum load resistance   Kfin / K j, where Cr c is the coefficient () is the ratio ratio of the current value supply voltage to max-j, the value of the voltage on the load; K) - coefficient of amplitude value voltage of the converter idle to the maximum value of the voltage on the load; K. ratio the short-circuit current of the converter to the maximum value ". load current. 9u.s.i Kruguze 0 9u2.2 6 H FIG 3