SU741407A1 - Thyristorized converter control method - Google Patents

Description

The invention relates to electrical engineering, in particular to devices for converting a constant; 1Current to alternating current of low frequency and can be used as a source of backup power supply of communication equipment. A method of forming a low frequency current of high-frequency current pulses, used to control an inverter, containing two thyristor pairs, a high-frequency switching circuit and a low-frequency one is known. the transformer, consisting in that it generates a sequence of narrow high-frequency pulses, generates low-frequency pulses of a sinusoidal trapezoidal or rectangular shape, during Each low-frequency current half-cycle, high-frequency control signals alternately serve only one thyristor pair, and the low-frequency output voltage forms the transformer voltage from the two semi-continuous voltage pulses. The disadvantage of this method is the formation of a low frequency current on the output low-frequency transformer, which has considerable dimensions and mass. The closest in technical essence and the achieved result to the invention is a method of controlling a converter comprising a high-frequency inverter and a frequency divider, which consists in generating a sequence of narrow high-frequency pulses and alternately supplying them to the thyristors of the inverter, generating low-frequency pulses of half current low duration frequencies; a sequence of narrow high-frequency pulses are shifted in phase; during each half-cycle of the low-frequency current, phase-shifted high-frequency control pulses are applied to the thyristors of two or more arms of the frequency healer; the output current of low frequency is formed from the two polar pulses of the current of the secondary winding of the transformer and filtered. The form of the output voltage of such converters is improved by pulse-amplitude modulation of voltage. For its implementation, the frequency divider is performed multi-shoulder. To improve the shape of the output current of a double-shoulder frequency helix converter, the phase shifts of the thyristor control signals of the frequency divider or the frequency of the inverter thyristor control signals are sinusoidally modified. The disadvantage of this method is the complexity of generating a low-frequency output voltage that involves constant conversion. voltage to high frequency alternating current and its - subsequent conversion to low frequency alternating voltage and low reliability of devices, izuyuschih method. The purpose of the invention is to simplify the formation of a low frequency current and increase reliability. This goal is achieved by the fact that in the method of controlling a thyristor converter containing a high-frequency serial inverter with a throttle recovery unit of excess energy and with a switching node separated from the load and connected to the secondary winding of the drossel two-way frequency divider with an output filter, generate and phase shift a sequence of high-frequency thyristor control pulses, a converter, generate low-frequency current pulses from the inverter output ysokochastotnyh current pulses supplied during each ppluperioda current low frequency shifted high frequency control pulses thyristor mi frequency divider for the thyristor only one shoulder divider and generating output hydrochloric current of low frequency of occurring in the secondary winding of the choke uni p GOVERNMENTAL high current pulses twice the frequency of the inverter thyristor switching. FIG. 1 shows schematically an apparatus in which the method proposed is implemented; in fig. 2 - timing diagrams that show the shape of the currents of the arms of the frequency divider (o,) as well as the load current at; the absence of the output filter {) and the voltage on the load in the presence of a capacitor that shunt the load). The power part of the converter (Fig. 1 consists of thyristors 1-4, diode 5, draw Sel 6 with windings 7-11, switching capacitors 12-13, load 14, shunted by the output filter capacitor 15. Elements 1, 2, 5, 7- 9,12-15 are part of the inverter, and 3,4, 10 and 11 are frequency splitters. If a sinusoidal form of the current form is formed at the output of the current transducer, they modulate the sinusoidal frequency of the inverter thyristor control pulse sequence or - vatality - control pulses Using frequency splitter sources relative to the first sequence, changing the frequency of the first sequence of high-frequency pulses or the phase shift of the second sequence of pulses relative to the first regulates the output low-frequency current. In the absence of a capacitor 15 in the established operating mode, four significantly different stages are observed at the nominal load. stage is open one of the thyristors of inverter 1 or 2. When this occurs, the recharge of the switching capacitors 12 and 1 3 and the accumulation of energy in the magnetic field of the throttle 6. The first stage ends and the second stage begins when the voltage on the winding 9 of the throttle 6 becomes equal to the supply voltage and the diode 5 is opened. At the same time, the flow of the current through the inverter thyristor and the primary winding of the throttles stops, and the energy accumulated in the choke, returns to the power source. The winding current .9 decreases linearly. After a time interval equal to m, after the beginning of the second stage, a control signal is applied to one of the thyristors of the frequency divider, for example 3. A current flows through the winding 10, which creates a voltage drop across the load 14. At the same time, the EMF arriving at coil 10 less than a turn of the winding 9, which leads to the locking of the diode 5, the cessation of current through the winding 9 and the beginning of the third stage. The third stage ends at the moment when the winding current drops to 10 droplets. At the 4th stage there is no current in all elements of the converter. From consideration of the converter operation, it follows that with a constant load resistance (Kdl conel) an increase in the interval t: leads to a decrease in the amplitude of the load current pulse due to

increase the duration of the second stage of work. Consequently, the phase control of the interval x leads to an amplitude () aa-impulse control of the current (voltage) of the load. This

The converter property simplifies the formation of a sinusoidal output current.

When a resistor 14 is bridged by a capacitor 15, the duration of the third stage of operation changes from one high-frequency half-cycle to another, and at the fourth stage the capacitor 15 is discharged to the load 14.

Technical appraisal advantages of the proposed method of control of the considered converter of direct current to alternating low frequency consist in simplifying the formation of low frequency current by supplying control signals to the thyristor of only one frequency divider for each half-current of low frequency and eliminating the need for in chetyrehklechevom frequency divider.

Claims (2)

Formula Method of controlling thyristor converter containing high frequency serial inverter with a throttle energy recovery unit and a switching unit separated from the load and connected to the secondary winding of the throttle two-way frequency divider with an output filter consisting in generating and shifting in phase a sequence of high-frequency thyristor control pulses of the converter, is formed at the inverter output high frequency current pulses form low frequency current pulses from high frequency current pulses, characterized in that, in order to simplify No low frequency current and increased reliability, during each half period of low frequency current, shifted high frequency thyristor control pulses of the frequency divider to the thyristor of only one arm of the frequency divider form the low frequency output current of the thyristors switching in the secondary winding of the double polarity of the double frequency inverter. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 356739, class, AND 02 M 5/42, 1968. 2. Thyristors, Technical Reference, M ,; Energie, 1971. p., 303, fig. 11/36. 0tt.a./ I ya V Phi gg