SU618829A1 - Converter control method - Google Patents

Claims (3)

the rectifier is formed from the signals of the difference frequency at the output of the frequency dividers, the load current is measured and the frequency of the master oscillators is proportional to it by the same value regardless of the required difference in the frequencies of the master oscillators. Increasing the frequency of the master oscillators by the same amount as the load current of the converter increases leads to an increase in the operating frequency of the oscillating inverters and, consequently, to an increase in their switching capacity. The output frequency of the inverter, equal to the difference between the operating frequencies of the oscillating inverters, remains constant throughout the entire current variation range. load. The drawing shows the block diagram of the device that implements the proposed method. The device contains master oscillators 1-3, frequency dividers 4, frequency comparison circuit 5, difference frequency separation unit 6, drivers 7 for controlling single-phase oscillatory inverters and a reverse rectifier, input 8 for a load current feedback signal. The device works as follows. The master oscillator 1 operating at the frequency fi, by means of the frequency divider 4 and the driver 7, controls the thyristors of the first oscillating inverter. The master oscillator 2, which operates at the frequency h, by means of a frequency cell 4 and the control pulse generator 7 includes the thyristors of the second oscillating inverter. The signals from frequency dividers 4 to the input of the differential frequency selection block 6, by means of a pulse shaper 7, control the thyristors of the reversible rectifier, which extracts the low-frequency envelope of the modulated voltage by reversing the geometric sum of the inverters. When the load current changes, the feedback signal on the load current supplied to VXO.1 8 leads to a change in the frequency of the incoming generator 2 by the value of At, which is proportional to the load current. The output frequency of the master oscillator 3 is equal to the natural frequency of the oscillator 2 (1–1 h) with an open circuit: feedback (idle of the converter). The comparison circuit 5 comparing the high-frequency sequences of the generators 2 and 3, produces at the output the error signal Af, which, at the input of the master oscillator 1, changes its frequency in proportion to the frequency of the generator 2. The output voltage of the converter is obtained by way of. output voltages of oscillating inverters operating at different frequencies (fi and f), and extracting the low-frequency envelope of the modulated voltage by reversing the rectifier and filtering, the frequency of which is equal to the difference and operating frequencies of the inverters, remains constant over the entire range of variation of the load current, i.e., and -r-p -V% Ci ± A.iJJL (., 11, | i fi,; where the output frequency; FI FS are the working inverter frequencies (when operating at idle); K is the dividing factor of frequency dividers 4. Thus, using the proposed converter control method on two single-phase oscillating inverters and an output reversing rectifier allows increasing the switching stability of oscillating inverters when the load current changes and the output cha transducer Claims The method of controlling a converter on two single-phase oscillating inverters and an output reversing rectifier with a change in load is that the control pulses for each of the single-phase oscillating inverters are supplied from a separate master oscillator, and the control pulses of the reversible rectifier are formed from signals the difference frequency at the output of the frequency dividers, characterized in that, in order to improve the commutation stability of the converter when its load changes, approx load and proportional to it alter the frequency oscillators in the same amount. Sources of information taken into account in the examination: 1.Management of a thyristor inverter of adjustable frequency from the condition of ensuring constant thyristor off time. Express information. Power converting equipment number 29, 1976. 2. The electric power converter with intermediate link increased frequency. Express information. The power converter transformer Tskhikl N 31, 1976. 3.F.E. Nuner, V. Aurchamp, M. ZajoicMageps. Generateur Atatique diphase de pnis-. sance a frequence variable. Compbes, Rendus Hebdomadaires des Aeances de TAcademie des Bcience, France, Serie B, t. 264, 1967.