SU928546A1 - Switching device - Google Patents

Description

(SOO COMMUTING DEVICE

Claims (2)

The invention relates to electrical engineering and can be used in asymmetrical control systems of AC-DC to DC converters. Known valve control devices include thyristors, resistors, diodes, and a transformer, the output winding of which is connected to the valve fl. . A disadvantage of the known devices is low reliability. The closest technical solution to the invention according to the means and the achieved result is a switching device containing two six-phase trans groups; The repeater cascades with transformers, the input windings of which are connected by the same terminals through a diode and a voltage divider, are bridged by a capacitor to the terminal for connecting the negative terminal of the current source and simultaneously to the collectors of the corresponding transistors whose emitters are connected to the terminal for connecting the positive terminal of the current source, and the second leads to the terminal for connecting the negative lead of the current source, and the additional windings are connected by one leads to the emitters of the corresponding transistors the second through the first and second diodes, respectively, to the bases of the transistors of the phase transistor cascades; the additional winding of the transformer of each odd phase is connected to the bases of the transistors of the same and subsequent phases of the other group, and the additional windings of the transformer of each even phase of the other group and transistor subsequent phase of this group 2. The disadvantages of the known device are the impossibility of its use with the control pulse width of 3 laziness less than 60 al. Degrees, and the low reliability of operation in dynamic modes when the control pulses are sharply out of phase. The purpose of the invention is to increase the reliability of the switching device. The goal is achieved by the fact that in the device each transistor is equipped with an additional diode and a second additional winding connected by one pole output to the emitter of the corresponding transistor and a second pole output through the opposite-pole connected additional primary diode to the opposite pole output of the first additional winding. The drawing shows a circuit diagram of a switching device. . The switching device contains two six-phase groups of transistor cascades with a transformer output. In accordance with the order of phase alternation, the transistors of the first group are labeled 1-6, and the transistors of the second group -. The output transformers of the transistor cascades, in addition to the primary winding 13 connected to the collector circuit of the transistor, and the output winding H, have two additional windings 15 and 16. The first additional windings 15 of the transformer of each odd phase are connected to the inputs of the transistors of the same name and subsequent phases of the other groups a of each even phase - to the inputs of the transistor of the same phase of another group and the transistor of the subsequent phase of this group. The second additional windings 16 of the transformer of each odd phase are connected with opposite ends to the windings 15 via additional separating diodes 18 to the input of the transistor of the subsequent phase of another group and each even phase to the input of the transistor of the subsequent phase of this group. To limit the negative voltage half-wave, which occurs in the transformer windings after the control pulse ends, are protective diodes 19 connected to the collectors of transistors and connected to the common ends of the other ends of the diodes 19 and the common point of the primary windings 13 are connected parallel with the other ends RC chain 20. A six-phase input pulse control system with a width of 30-120 electrical degrees. connected to the input of the transistors through resistors 21, in accordance with the order of the phase alternation of the input pulses, the input terminals are labeled 22-27. The switching device operates as follows. At the initial arrival of input control pulses, when this was preceded by the closed state of all transistors 1-12, the first of the control pulses, for example, the pulses of the first phase, coming to the input 22, can cause unlocking of one of the two transistors — either the transistor of the first group or the transistor of the second group 7. Their simultaneous unlocking is impossible due to the presence of circuits through which the blocking signals are transmitted through diodes l7 from the winding 15 of the transformer 1 of the transistor 1 to the input of transistor 7 and from the winding 15 a transformer transistor 7 to the input of transistor 1. If transistor 1 is unlocked, the locking signal from the winding 15 of its transformer will also be supplied through the separating diode 17 to the input of transistor 8, which excludes the possibility of unlocking it with the input pulse of the second phase from input 23 for a duration the input pulse from input 21. After the end of the pulse of the first phase, when transistor 1 is turned off, a voltage of opposite polarity will be induced in the windings of its transformer, due to the decay of the magnetizing present current in the primary winding 13. This current will close its through diode 19 and RC 20 -chain, so the shape, magnitude and duration of the negative half-wave voltage is determined by the parameters RC-chain. With a sufficiently large capacitance, the voltage form is close to rectangular, and with a sufficiently small resistance of the resistor, the voltage amplitude will be limited to a small value; the half-wave duration is approximately equal to the ratio of the volt-second pad of a positive pulse in the primary winding to the amplitude of the negative half-wave; 5 Therefore, by adjusting the resistance value of the resistor of the RC chain, it is possible to widely change the duration of the negative half-wave voltage of the second auxiliary winding 16. This voltage through the additional separation diode 18 will be fed to the input of transistor 8 and will not allow it to be unlocked by the input pulse from the input 23, if this pulse arrives after the end of the pulse at the input 21. Thus, regardless of whether the input pulse arrives at the input 23 until the moment when the pulse ends at the input 21 or The transistor 8 is locked and only the transistor 2 is unlocked from the input pulse at input 23. During the positive half-wave of the generated pulse, the winding 15 of the transformer of this transistor will receive the blocking signals at the inputs of transistor 8 and 3, and after the end the positive half-wave of the pulse, the blocking signal will be fed to the input of the transistor 3 from the winding 16. Due to this, the transistor 8 will be held in the closed state until the end of the trigger pulse at input 23 (even if by this time the locking signals from the winding of the transformer 1 are no longer present), and by the time the third phase unlocking pulse arrives at the input, the transistor 3 will be unlocked and only the transistor 9 Similarly, at the moment the fourth phase input pulse arrives at the input 25, the transistor k will be held in the closed state and only the transistor 10 will be unlocked. Then, the transistors 5 and 6 will sequentially start and start from the new period the locking signal from one of the additional windings of the transformer of transistor 6 will be present at the input of transistor 1. Therefore, in the second period of the mains voltage from the input pulse of the first phase, transistor 7 will be unlocked. Then the unlocking of transistors 8, 3,, 11, 12 will occur i.e. all those who remained locked during the entire first period. At the beginning of the third period of the mains voltage, the locking signal from one of the additional transformer windings of transistor 12 is fed to the input of transistor 7. This leads to the opening of the first azimuth of transistor 1, i.e. to the beginning of a new cycle of work. In connection with the use of the second additional windings, the duration of the blocking signals to the input of the transistors from the transformers of the previous phases is determined not only by the width of the control pulses, but also by the width of the negative half-voltage of the voltage that occurs in the windings of the transformer after the end of the control pulse. Such an extension of the locking signal ensures the operability of the switching device with a control pulse width of less than 60 electr. And ensures high reliability of its operation in dynamic modes. A switching device for asymmetrical control of a converter converter that converts a six-phase pulse frequency system of the supply network into two six-phase pulse systems of half the frequency with a mutual shift of the same phases for the period of the network frequency, containing two six-phase groups of transistor stages with transformers whose input windings are connected. leads through a diode and a voltage divider, shunted by a capacitor, to the terminal for connecting the negative the current source and simultaneously to the collectors of the corresponding transistors, the emitters of which are connected to the terminal for connecting the positive output of the current source, and the second terminals to the terminal for connecting the negative terminal of the current source, and the additional windings are connected by one terminals to the emitters of the corresponding transistors and the second through the first and the second diodes, respectively, to the bases of the transistors of the phase transistor cascades, the additional winding of the transformer of each odd phase being connected to the bases t anzistors 792 of the same and subsequent phases of another group, and an additional winding of each even phase transformer with bases of a transistor of the same phase of another group and a subsequent phase transistor of this group, about T that, in order to increase reliability, each transformer is equipped with an additional diode and a second additional A winding connected by one pole terminal to the emitter of the corresponding transistor and the second pole terminal through an additional and main circuit connected counter-serially ode - to ppotivopolozhnomy pole terminal of the first auxiliary winding. Sources of information taken into consideration during the examination 1. USSR author's certificate No. 760330, cl. N. 02 M 1/08, 1978. 2. USSR author's certificate number 266042, cl. H 03 K 17/56, 19b5. 11 2} g; - 25 2о g.