SU1434416A1 - Pulsed controller of a.c. power - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to improve the accuracy of power control. The power is controlled by varying the relative number of half-periods for which load 2 is connected to the power supply network 3. The open interval of the thyristors of block 1 is determined by the frequency of the signal at the output of converter 7. The higher the signal frequency at the output of converter 7, the greater the number of half-periods included thyristors of the block 1. The signal from the output of the memory device 11 corrects the frequency of the pulse power, taking into account the errors of each power pulse, due to which the fast is reached imposing purpose. 5 il.

Description

The invention relates to electrical engineering and is intended for use as a pulse power regulator of electrothermal installations connected to an alternating current network.

The purpose of the invention is to improve the accuracy of power control.

Figure 1 presents a block diagram of a jq device; in FIG. 2 is a diagram of a part of a device including an integrator, a storage device, and a circuit for controlling them; in FIG. 3 - voltage-frequency converter circuit; Ί5 in FIG. 4 and 5 are timing diagrams of operation.

The pulsed AC power regulator (Fig. 1) contains a power circuit consisting of 20 thyristor units 1 and a load 2 connected in series to a supply network 3, and a power thyristor control unit consisting of a clock driver 4, 25 input which is connected to the mains supply, series-connected flip-flop 5 and the probing pulse generator 6, the input of which is connected to the control input unit ₁ March θ power thyristors, and a first input of flip-flop 5 is connected to the output of the syn 4 pulses, converter 7 voltage - frequency, the output of which is connected to the second input of the trigger 5, and the first input is connected to the source 8 of the reference signal, connected in series to the instantaneous power sensor 9 in load 2, an integrator 10, an analog storage device 11, the output of which is connected to the second input of the Converter 7, the reference voltage source 12, the output of which is connected to the second input of the integrator dd 10, the circuit 13 of the start of the integrator and the analog storage device, the first output of which is connected to the control input of the integrator 10, the second - to the control input of the memory device 11, the first input 13 of the control circuit is connected to the output of the clock 4, and the second - to a second output the ^formation: 6 Vatel firing pulses.

The integrator 10, the analog storage device 11 and the circuit 13 can be performed on analog and digital circuits (figure 2). The amplifier 14 has a two-input integrator with a reset of the integrated voltage. On the amplifiers 15.16 and capacity 17 made storage device 1 1. The control circuit includes a D-trigger 18 and a logic circuit OR 19.

Shaper pulses 4 is performed according to any known scheme and generates short pulses at the moments when the sinusoid of the supply voltage passes through zero.

The voltage-frequency converter (FIG. 3) comprises an integrator 20 with a reset, a comparator 21, a reference signal source 22, a two-input adder 23, a single-shot 24, a pulse shaper 25.

As trigger 5, a D-trigger is used.

The pulse power controller operates as follows.

The driving signal from the output of the source 8 is fed to the input of the converter 7 and converted by it into the pulse repetition rate. The pulses arrive at the first input of the trigger 5 and set it to the state “0”. The pulses from the output of the generator of clock pulses 4 appear when the mains voltage passes through zero, set trigger 5 to its original single state. Switching the trigger 5 from zero to ’’ 1 ’causes the triggering pulse shaper 6 to start, which turns on the power thyristor in block 1. After each thyristor is turned on, a power pulse is generated in the load.

Simultaneously with the triggering of the thyristor, the driver of the triggering pulses 6 sets the D-trigger 18 of the circuit 13 to state 0, while the integrator 10 is switched to the integration mode of the input signals coming to it from the reference voltage source 12 and from the output of the instantaneous power sensor 9.

The output signal of the reference voltage source is selected in such a way that its integral corresponds to the nominal value of the average pulse power, therefore, after the end of the power pulse, the output signal of the integrator 10 will correspond to the difference between the actual and nominal values of the average pulse power. At the moment of arrival of the next clock pulse from the output of the generator of clock pulses 4, the OR logic 19 is triggered and opens the key of the storage device 11, writing the signal from the output of the integrator 10 to it. At the end of the clock pulse, the D-trigger 22 switches to the state ¹¹ 1, while the storage device switches to storage mode, and the integrator 10. resets to zero.

The voltage stored in the storage device 11 is summed with the voltage of the reference signal source-15 la 22 of the converter 7 and corrects it, thereby changing the pulse repetition rate at the output of the converter 7, thus taking into account the deviation of the average value of the powerful 20 pulse from its nominal quantities.

Indeed, if, for example, the average value of the pulse, power differs from the nominal value by + 10%, then 25 at the end of the power pulse at the output of the integrator 10 there will be a signal equal to 0.1 and _oP13o , where Uap. the voltage of the source of the reference signal 22. After recording the signal of the integrator 10 in the storage device 11, the reference signal of the converter 7 will increase and become equal. 1.1, U _eFI jo, which will lead to a 10% decrease in the pulse repetition rate gg at the output of the converter 7. So, for example, if the driving signal was half the maximum, then at the nominal pulse power, the pulse repetition rate was equal to 0.5 G _{Mo (ks} , and with a reference signal of 1.1 U _{C, the} pulse frequency will be equal to (0.5 G _XA ax / 1.1) = 0.454 f _MttkC , where is the maximum frequency. 45

Since the circuit 13 includes an integrator 10 when each power pulse appears, the correction signal takes into account the errors of each power pulse and corrects these 50 errors by changing the frequency of the power pulses.

In FIG. Figures 4 and 5 show the timing diagrams of the operation of elements and units of the device, where is the signal at the output of the i-ro element or circuit node.

The controller’s operating procedure does not change if the power pulse in duration is equal to the network period, while the repetition rate of the clock pulses and the maximum value of the frequency of the converter 7 respectively decrease by 2 times.

Claims (1)

Claim A pulse AC power regulator comprising a power circuit consisting of a series-connected block of power thyristors and terminals for connecting a load, connected to terminals for connecting a mains supply, serially connected trigger and driver, triggering pulses, and the output of the driver triggering pulses connected to the control input of the block power thyristors, RS trigger input connected to the output of the driver of the clock, which is connected to the terminals for connecting the supply network , The R-input of the trigger is connected to the output of the voltage-frequency converter, one input of which is connected to the source of the driving signal, characterized in that, in order to improve the accuracy of power control, an instantaneous power sensor, an integrator, an integrator and analog storage device trigger circuit are introduced, the source reference voltage and analog {storage device, the output of which is connected to the second input of the voltage-frequency converter, and the input - with the outputs of the integrator, the first input of which is connected to the source reference voltage, and the other to the output of the instantaneous power sensor included in the load circuit, the first input of the integrator trigger circuit and the analog storage device is connected to the output of the trigger pulse generator, the second input to the output of the clock generator, the first output of the integrator and analog memory trigger circuit devices connected to the output of the analog storage device, the second output to the input of the integrator. Compiled by 0.Nazarov Editor M. Tovtin Tehred L. Serdyukova Corrector .ioruchar Order 5554/50 Circulation 866 Subscribed VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and printing company, Uzhhorod, st. Project, 4