SU444488A1 - Current stabilizer - Google Patents

Claims (3)

A current regulator is known, which contains a thyristor regulator, a control on the saturation choke, supplied with operating windings, control windings and auxiliary windings, which are connected to the load circuit. However, in such a stabilizer, the ripple factor of the load current varies over a wide range as with a change in load, a hook and with control of the load current. To reduce the voltage of the stabilized alternating current in the load, the proposed stabilizer is equipped with a linear V choke connected to the power circuit of the regulator on the DC side, the anode of each of the thyristors of the regulator is connected to the control electrode via the working winding of saturation and semiconductor diode , and an additional linear choke is introduced into the control circuit of the saturation throttle. For using a stabilizer for both timeless and direct current, the regulator is made according to a bridge circuit. When using a current stabilizer only on alternating current to simplify its circuit, the linear choke is double-wound and is connected to the regulator according to a dF scheme. FIG. 1 shows a schematic of a current regulator circuit, the regulator of which is made according to a bridge circuit; FIG. 2 is the same, with a double-winding linear choke connected to the regulator in a differential circuit; in fig. 3 graphs of voltages and currents describing the operation of a current stabilizer. In the drawings: 1 - a source of alternating voltage; 2 and 3 - working windings of saturation throttles; 4 and 5 are heart drops of saturation; 6 and 7 - auxiliary 1 Ё1: rbm t1SI) C5ressel saturation; 8 and 9 windings of throttling saturation control. ; 10 constant voltage source-, 11 load; 1 2-15 thyristors; 16-19 semiconductor diodes; 20 - linear choke; 21 - additional linear rossel; iO is the network voltage — source 1; Ui :, - voltage on / 510ssel x2O, 2 MD, - voltage on winding 2; / Uj for example | on winding 3, J - current Harjjya; Ki; Go - current in the winding 2; D is the current in t winding 3., The proposed current stabilizer works in a manner consistent with Ds.fig. 1 and 3). In the time interval i): t in the opening of the storage line 3,15, the core 4 is saturated, cherts 8 and 9, the linear choke 21 flows the control current from the source 1O, the load current. 1c passes from source 1 through thyristor 13, choke 2O, thyristor 15, windings 6 and 7, load 11. The core 5 of the saturation throttles are re-magnetized, a voltage .1 / 2 equal to the voltage value is released on the windings 2 throttle 2O and directed towards it. At time i the core 5 is squeezed, the voltage U2 on winding 2 becomes equal to zero: the C voltage on throttle 2O contributes to the current Ig, in windings 2 and diodes 16 and 19, the thyristors 12 and 14 are turned on, as the voltage of the network U. For them at this time is direct, the thyristors are 13 15 is turned off, In a load 11, a current of another sign I appears, the core 5 remains saturated, the core 4 is re-magnetized, displaced by a constant control current from the source 1O, On prossepe 2O, a voltage Ui equal to the difference of the instantaneous values of CTji network and load current 1c multiplied by the value of load resistance 11. At time i, the network voltage changes sign due to the energy stored in the 2O complex, load current 1c is in its direction, and thyristors 12 and 1 remain on. The core 4 continues to integrate the flow by means of a conductor circuit to the winding 3 volt-second voltage area U j At time t, the integration is completed, the core 4 is saturated, in the windings 3, diodes 17 and 18 a current i flows through (/ / thyristors 13 and 15, current 1 flows in load 11. Drossel x 2O flows, and 21 voltage appears, core 4 remains saturated, core 5 re-magnetized, voltage Ug is separated on windings 2. Next, the process repeats, starting from the moment of time Current Stabilizer with Double-Winding Linear | D) O Selem | {cm. FIG. 2) works in a similar way, differing only in the implementation of the switching elements of the linear dross on a differential circuit instead of the --i Mijfe claims. I 1. A current stabilizer containing a thyristor regulator, a control on the saturation throttle, equipped with working windings, windings control and auxiliary windings, which are included in the load circuit, characterized in that, with the aim of reducing the ripple of the stabilized alternating current in the load, it is equipped with a linear choke included in the power Regulator circuit of thyristors on the dc side, wherein each of the thyristors ano Regulator coupled to the control electrode through the working winding of the choke saturation and a semiconductor diode, and a control circuit choke saturation lineyn7y introduced an additional choke. 2. A stabilizer according to claim 1, in accordance with claim 2, so that, in order to use both for alternating and direct current, the regulator is designed according to a bridge circuit. 3. Stabilizer according to p. L., Which is so that, in order to simplify its scheme when used on alternating current, is linear (the choke is double-wound and is included in the regulator according to the differential scheme.