SU919569A1 - Current pulse generator - Google Patents

Abstract

1. GENERATOR OF PULSE CURRENT containing a source of constant voltage, an electromagnet with an excitation winding, the conclusions of which are connected to the two adjacent shoulders of the bridge, formed by the main and commutating thyristors, to the other two adjacent shoulders of the bridge, connected to a cumulative capacitor battery, as well as a commutator; ICL capacitors and diodes, differing in that, in order to increase reliability, increase repetition and simplification, the switching capacitors are connected to parallel-switching diodes connected in series and matching the switching thyristors, and in parallel to the excitation winding of the electromagnet a charging diode and a charging conductor are connected and a charge conductor is connected and a charging diode is connected and a charging diode is connected. the input thyristor is connected to the connection point of one of the ends of the excitation winding of the electromagnet, the anode of the main thyristor and an Yes kommutiruyuschegodioda. 2. The generator according to claim 1, which means that the constant voltage source is connected via an additional input thyristor to the connection points of the switching thyristors with the switching diodes.

Description

The invention relates to a pulse technique. The generator can be used to form quasi-triangle current pulses in inductive loads, such as electromagnetic induction accelerators of charged particles. A known generator of current pulses that form quasi-triangular current pulses in inductive loads 1. The main element using co. The second is artificial coupling, which is a switching capacitor, which is precharged up to a maximum con voltage. -tour and at the right time. transfer in I by means of switching thyristor parallel to power tee. to the resistor of the contour, by locking it. In addition, additional valves and chokes are needed to recharge the switching capacitor. In the generator circuit, the switching capacitors are recharged between the pulses through the valves and chokes. In device 2 (prototype), a cumulative capacitor battery is connected to an electromagnet through a valve switching node, representing m from controlled and unmanaged gates, with a switching device. The switching device contains a series of droplets and a diode that is connected to the cathode of the switching thyristor and through the switching capacitor to the connection point of the cathode of the main thyristor with the start of the electromagnet winding, and the second to the anode of the other switching capacitor to the connecting point another main thyristor with the end of the electromagnet winding. In this device, the switching capacitors are recharged through a choke and a diode during the generation of pulses. The disadvantage of this generator is the bipolar mode of operation of the switching capacitors, which leads to a decrease in the reliability of the entire device, since the durability of capacitors operating in the bipolar mode is less than that of the capacitors operating in the rdnopolar mode. Besides. 692 The generator has a relatively low frequency of current pulses with a complex system of inputting energy from a constant voltage source. The aim of the invention is to improve the reliability of the generator, increase the frequency and simplify the current pulse generator. The goal is achieved by the fact that in a current pulse generator containing a constant voltage source, an electromagnet with an excitation winding. terminals which are connected to the adjacent arm of the bridge formed by the main and kommutiruyui of NA tori to another adjacent arm of the bridge connected securing accumulator capacitor bank switching diodes and switching capacitors, switching capacitors are connected in parallel with the switching diodes included ocledqvatelno and in accordance with commuting thyristors parallel excitation winding the electromagnet is connected in series with the included input thyristors and charge choke, the input thyristor anode is connected to the connection point of one of the ends of the excitation winding of the electromagnet, the anode of the main thyristor and the anode of the switching diode. The source of constant voltage is connected through an additional input thyristor to the connection points of the switching thyristors with the switching diodes. .2 - voltage and current plots on the generator elements. The current pulse generator contains a storage capacitor battery 1, an electromagnet 2 with an excitation winding, the first and second o the main thyristors 3 and 4, the first switching thyristor 5, the first, switching capacitor 6, the first diode 7, the second switching thyristor 8, the second switching capacitor 9, the second diode 10, a constant voltage source 11, an input thyristor 12, an additional input thyristor 13 charging choke 14. FIG. 2 position 15 is the current in the electromagnet winding, 16 is the voltage on the electromagnet winding, 17 is the voltage on the storage capacitor bank, 18 is the voltage on the first switching capacitor, 19 is the voltage on the second switching capacitor. In the initial state, the storage capacitor battery 1 and the switching capacitors 6 and 9 are charged to the required voltage with polarity indicated in Fig. 1. With the passage of the control pulses (time point to figure 2), the main thyristors 3 and 4 start the oscillating discharge of the storage capacitor battery to the excitation winding of the electromagnet. In this case, the front of the current pulse is formed. At time t (see Fig. 2), a triggering pulse is applied to the first switching thyristor 5 and it opens, since the voltage on the switching capacitor is at this time; greater than the voltage across the storage capacitor bank. From this point in time, the reverse voltage is applied to the main thyristor 4. The current of the electromagnet winding 2 from time t (see fig, 2) flows through the next moment the electromagnet winding 2 - switching capacitor 6 - switching thyristor 5 - main thyristor 3. - winding. electromagnet, 2. Main thyristor 4 is de-energized and switched off by the action of reverse voltage. The current of the electromagnet winding, flowed through the switching capacitor, discharges it. At time t (see FIG. 2), after the main thyristor 4 is turned off, a triggering pulse arrives at the second commuting 8 thyristor. The voltage of the second switching capacitor 9 is applied in the opposite direction to the main thyristor 3, the winding current of the electromagnet 2c is this, the moment of time flows through the following circuit: the winding of the electromagnet 2 is switching capacitor 6 is switching thyristor 5 is a storage capacitor battery t thyristor 8 is switching capacitor 9 - electromagnet 2 winding. Main thyristor 3 de-energizes. . and under the action of reverse voltage is turned off. When the switching capacitors are discharged, the diodes 7 and 10 and the shunt-switched capacitors open to zero voltage, excluding their recharging. From time t to f, the magnetic field of the electromagnet winding goes to storage capacitor bank 1. At this time, the current pulse is cut 15 (figure 2). The charge time of the switching capacitors through the electromagnet winding is comparable to the duration of the current pulse. This leads to the limitation of the limiting frequency of the following dm – g current pulses, since the charge of the switching capacitors occurs through a sufficiently large inductance of the electromagnet 2. To reduce the charging time (correspondingly to an increase in the frequency of the current pulse), switching throttle 14 and tyrkstore 12 are introduced to the switching capacitors. input. During a pause, current pulses arrive at the thyristor 12 of the input and the additional thyristor of the input 13 and the switching capacitors 6 and 9 are charged through the parallel-connected winding of the electromagnet 2 and the charging choke 14 from the voltage source, 11. Thus, the current pulse generator is more reliable in operation than the known ones, it has an increased frequency of the current pulse and a simpler energy input circuit.

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Claims (2)

1. A CURRENT PULSE GENERATOR containing a constant voltage source, an electromagnet with an excitation winding, the terminals of which are connected to two adjacent shoulders of the bridge, • formed by the main and switching thyristors, and connected to the two other adjacent shoulders of the bridge '·. to a storage capacitor bank, as well as switching capacitors and diodes, characterized in that, in order to increase reliability, increase the repetition rate and simplify, switching capacitors are connected in parallel with switching diodes; connected in series and in accordance with the switching thyristors, and in parallel with the excitation winding of the electromagnet, connected in series are the input thyristor and a charging choke, the anode being connected to one of the excitation ends of the electromagnet, the main thyristor and the anodizing diode, at the winding point of the anode of the input switching thyristor. 2. The generator according to claim 1, characterized in that the voltage source is connected through an additional input thyristor to the connection points of the switching thyristors with the switching diodes. 919569 2