SU738113A1 - Pulse generator - Google Patents

Description

(54) PULSE GENERATOR

Claims (2)

The invention relates to a pulse technique and can be used to form powerful opposite-field pulses. A generator of high-power pulses is known, containing the compression link with the capacitor 11 through passage. However, this generator cannot be used to pump pulsed gas lasers, since it cannot work with a load that has a large resistance during the pause between pulses. The closest to the technical essence of the present invention is a pulse generator containing connected to a power source, a serial circuit from a switching node, a charge throttle and a primary winding of a pulse transformer, to the secondary winding of which through magnetic compression links with pass-through throttles a load is attached 2. The disadvantage of this generator is instability in operation in a symmetric mode due to the inequality of amplitudes of different polarity, for example due to azbrosa voltage drop across the thyristor otkryt1H kommutatsionnbgb node participating in the formation of pulses of different polarity. The aim of the invention is to increase the stability of the generator. This is achieved in that a generator of wmpulses containing a torus bridge, in one diagonal of which a power source is included, and in another diagonal - successively connect a ney choke and the primary winding of a pulsed T1 encoder, to the secondary winding of which, via magnetic compression, with passing switches Drossel MI attached load, introduced two damping tsegsh, connected in parallel to each other between the outputs of the primary winding of the pulse transformer, each damping circuit containing a thyristor, in the anode of the circuit of which is connected a gTerviy resistor, and in the cathode circuit of a capacitor, tripped by a diode connected in accordance with the thyristor, the control electrode of which is connected to the cathode of the diode through a second resistor, resistor. The drawing shows an electrical diagram of the proposed pulse generator. The generator contains a power source 1, included in the diagonal of the bridge on thyristors 5, in another diagonal of which are connected in series the choke 6 and first on the winding of the transformer 7. To the secondary winding of the transformer 7 through magnetic links 8, consisting of parallel-connected capacitors 9 and passable switching chokes 10, a load 1L is connected. Parallel to the primary winding of a pulse transformer 7, two anti-parallel damping circuits 12 and 13 are connected. The damping circuit 12 contains the last in anode resistor 14, a thyristor 15 and a capacitor 16 shunted by a diode 17, the anode of the diode 17 connected to the cathode of the thyristor 15, and the control electrode of the thyristor 15 through a resistor 18 connected to the cathode of the diode 17. The damping circuit 13 has an anode resistor connected in series 19, the thyristor 20 and the capacitor 21, shunted by the diode 22, the anode of the diode 22 connected to the cathode of the thyristor 20, and the control electrode of the thyristor 20 through a resistor 23 connected to the cathode of the diode 22. The anodes of the diodes 17 and 22 are interconnected through a resistor 24. Ge erator operates as follows. Suppose, for example, the total voltage drop on open thyristors 3 and 4 is greater than on thyristors 2 and 5. Then, when turning on thyristors 2.5, capacitor 9 is charged to a greater voltage, than when turning on thyristors 3, 4, and In this case, the following processes occur in the circuit. Until the moment when the first link of C5kat’s Drossel 10 is charged, capacitor 21 (the polarity is shown in the drawing) is charged through resistor 24 and diode 17. At the same time, current in the circuit of the thyristor control electrode 20, which does not turn on, flows through resistors 24, 23 and diode 17 , since a positive voltage is applied to its anode. After stopping the throttle 10, the energy of the condenser 9 of the first compression section begins to be transmitted through subsequent compression links to the load 11. Due to the high voltage to which the capacitor 9 is charged into the considered half-period of the supply voltage, the transformer 7 sat down and the capacitor 9 tries to recharge to voltage reverse (negative) polarity. However, when the voltage is inverted to the capacitor 9 and, therefore, the primary winding of the transformer 7 turns on the thyristor 20, since a direct voltage is applied to it, and a current. in the control electrode circuit is maintained due to the discharge of the capacitor 21. The thyristor 20, including, shunts the recharge circuit of the capacitor 9 of the first compression link, and thus provides a damping of the negative surge on the condenser 9 of the first compression link. If the total voltage drop on open thyristors 3 and 4 is less than on thyristors 2 and 5, then when the thyristors 3, 4 are turned on, the generator works as above, but the damping is performed by circuit 12. Since recharging capacitor 9 of the first compression link to Directly opposite polarity, i.e. Prior to voltage, the polarity of which coincides with the polarity of the pulse less than the alouditude, causes preliminary magnetisation of the throttles 10 and thereby reduces the pulse duration with amplitude, respectively, reducing the time allowed for the restoration of the controlled properties of the bridge thyristors, which can lead to generator operation , the damping of the surge of opposite polarity on the condenser 9 of the first compression section increases the stability in the operation of the generator. Claims An impulse generator containing a thyristor bridge, in one diagonal of which a power source is connected, and in another diagonally connected choke and the primary winding of a pulse transformer, to the secondary winding of which through magnetic links with passing switching throttles a load is applied that that, in order to increase stability in the work, two damping circuits were inserted in it, connected counter-parallel to each other between the terminals of the pressure winding of impulses There is a transformer with a fuse, each damping circuit contains a thyristor, the first resistor is included in the anode circuit, and a capacitor, which is bridged by a diode, is connected to the cathode circuit, but with a thyristor, the control electrode of which is connected to the cathode of the diode through the second 5. a resistor, and the anodes of the diodes of anti-parallel connected damping circuits are connected via a third resistor. Sources of information taken into account in the examination. . .a Ml 1 Ij. . ". “L 7381136 1. USSR author's certificate N 46308, cl. H 03 K 3/53, 1971. 2. Meerovich, L. A. et al. Magnetic pulse generators. M., Sov.radno, 1968, 5 p. 228, fig. 7.1, c. ,