SU1121768A2 - Method of adjusting a.c.voltage regulator with voltage addition channel - Google Patents

Abstract

WAY OF CONTROLLING THE VOLTAGE VOLTAGE RELAY WITH THE FILLING VOLUME ON AUTH.S. No. 5989683, distinguished by the fact that, in order to improve the energy performance when operating in a partial voltaic zone and actively inductive load, of two existing mutually opposite sequences of two-stroke closed-state intervals of keys form one sequence of three-stroke closed-state intervals of adjacent keys having a common point with one of the conclusions of the primary winding, and in the extreme intervals, the boundaries of which correspond to the boundaries of the mentioned two-stroke intervals, the closure m is one and the same key, and other keys adjacent kommutirzpot mutually opposite transitions with a regulator of the partial bootstrap mode, § voltootbavki in partial mode.

Description

The invention relates to a conversion technique and can be used to regulate and stabilize an alternating voltage. According to the main auth. No. 589683 is known a method of controlling an ac voltage regulator with a booster channel, executed in the form of a bridge on fully controlled keys and a transformer with a primary winding in the diagonal of this bridge and with a secondary between the input and output pins, by which we form a sequence of synchronous with the frequency of the supply voltage clock intervals, and the order of bridge bridge closures is given by two time intervals, the duration of which is changed during the adjustment process within each clock interval} Moreover, they form the second such sequence of clock intervals, which, relative to the beginning, change the location of the said time intervals with mutually variable duration and intervals of the same length of the common sequences, duration set the closed state time of keys of the opposite shoulders of the bridge 1 indicators of the regulator when working in the zone of a partial volt-surcharge with a load that has an inductive character. This is due to the fact that the power factor in the partial voltaic zone with the said load for all intermediate values of the switching angle (.L) has lower values with respect to cosV of the load. Moreover, with an increase in the load angle, this difference increases, since the known control method, when implemented in the partial voltaic zone, simultaneously with voltage regulation, increases the inductive component of the power, which degrades the energy indices. The purpose of the invention is to improve energy performance when operating in a partial voltaic zone with a load having an inductive character. The goal is achieved by the fact that out of two steps of mutually opposite sequences of two-stroke closed-state intervals of keys, one sequence of three-stroke closed-state intervals of adjacent keys having a common point with one of the primary windings is formed, and in the extreme intervals whose boundaries correspond to the boundaries of the two-stroke intervals, close the same key, and the other adjacent keys commute mutually opposite when the controller transitions from the h astholic add-on to the partial voltootbavki mode. Figure 1 shows an electrical circuit diagram of an AC voltage regulator with a booster channel and its block control system; Fig. 2 shows timing diagrams explaining the essence of the proposed method. In accordance with the prototype method, in the control system, time impulses are formed at the output of block 1 and are divided into blocks 2 and 3. Blocks 1 - 3 are part of the control system that implements the prototype method. In particular, block 1 contains the controlling elements of the average value of the input voltage of the regulator, its instantaneous transitions through zero, as well as the zeros of the current of the primary winding of the booster transformer; sawtooth generators synchronized with voltage zeroes. Blocks 2 and 3 are the same and may contain comparators, one input of which is supplied with sawtooth voltage, and the other voltage from a summing element. Thus, the created sequences of two-stroke intervals at the output of blocks 2 and 3 (shown by shaded areas in the interval O-ZG in Fig. 2a and b) determine the closed state of the bridge keys. For this, the outputs of blocks 2 and 3 are connected to the inputs of blocks 4 and 5, respectively (shown by dashed lines in figure 1). Blocks 4 and 5 are the output stages of driver control pulse drivers for adjacent keys 6, 7, and 8.9. These sequences are combined in block 10, which is a logical element 2I-NOT. At the output of this block, one sequence is formed.

Claims (1)

METHOD FOR CONTROLLING A REGULATOR. OF VARIABLE VOLTAGE WITH A VOLTAGE PRODUCT CHANNEL by ed. No. 589683, characterized in that, in order to improve energy performance when working in the partial voltagging zone and actively inductive load, from two available mutually opposite sequences of two-cycle intervals of the closed state of the keys form one sequence of three-cycle intervals of the closed state of adjacent keys having a common point with one from the conclusions of the primary winding, and in the extreme intervals, the boundaries of which correspond to the boundaries of the mentioned two-stroke intervals, close one and the same key, and other adjacent keys commute oppositely when the regulator transitions from the partial voltage boost mode. se to partial voltotravel mode. SU- ₍ . »1121768 1 1121768