SU976490A1 - Pulse generator - Google Patents

Description

one

The invention relates to a pulse technique and may be; used in various schemes. shaping pulses.

Known pulse generator ,. containing a power source, a separation diode, a charge choke, an additional separation diode, a thyratron, an ignition generator, an accumulator, a clipper element, a load O, and an additional damping accumulator 1.

However, this generator has a low efficiency.

Also known is a pulse generator, 5 containing a power source, the output of which through the first diode and the charging choke is connected to the anode of the thyratron and the first output of the artificial long line, the second output of which is connected to the common wire, the unit of igniting pulses whose output is connected to the grid the thyratron, the cathode of the thyratron through the load is connected

A common diode, parallel to the thyratron and the load included a diode and a limiting resistor f2.

However, the known generator has a low efficiency, since in the absence of equality between the line impedance and the load resistor, in particular, when the latter is less than the line impedance, a reflected current wave occurs, which is dissipated in the diode and the limiting resistor.

The aim of the invention is to increase efficiency.

Claims (2)

The goal is achieved by the fact that a generator containing a power source, the output of which through a series-connected first diode and charge choke is connected to the anode of the thyratron and the first output of an artificial long line, the second output of which is connected to the common bus, a block of ignition pulses whose output is connected To the grid of the thyratron, the cathode 397 of the thyratron is connected via a common bus to the common bus; a resistor and a second diode, the cathode of which is connected to the Tiratron anode, has been added a storage element,. threshold unit, delay element, coincidence element, key element, for example, a thyristor, a pulse transformer and a third diode, with the first terminals of the storage element of the threshold unit and the key elements. Through a resistor connected to the anode of the second Diode, the second terminals of the storage element and threshold unit i are connected to a common bus. , the input delay element is connected to the output of the n6d pulsing unit, and the output is connected to the first input of the coincidence element, the second input of which is connected to the output of the threshold unit, the output element The match unit is connected to the control input of the key element, the second output of which is connected to the common bus through the primary winding of the pulse transformer, and the secondary winding of the pulse transformer is connected. . to the common bus and the anode of the third diode, whose cathode is connected to the first output of the artificial long line. The introduction of a cumulative element connected between the common wire and the thyratron anode through a second diode and a resistor makes it possible to eliminate the negative voltage wave at the anode of the thyratron. It goes through a diode and a resistor to charge the storage element, the introduction of a threshold unit connected in parallel with the storage element, makes it possible to follow the level of the voltage on the storage element; In this case, the signal at the output of the device at the moment when the voltage on the storage element reaches the level at which the circuit efficiency: the protective (second) diode, the limiting resistor, the storage element for the protection of the thyratron against reverse voltage decreases. Introducing the key element allows control of the cumulative element discharge. A pulsed transformer and a third diode make it possible to transfer the energy discharged by a key element of a storage element into an artificial long line. The coincidence element allows controlling the operation of the key element at the moment of time when the voltage on the cumulative element reached a certain level and when the current pulse was formed in the power circuit of the thyratron by discharging the artificial long line and the thyratron regained its locking properties. The delay element provides a signal from the output of the ignition pulse unit to one of the inputs of the coincidence circuit, after which the line is discharged and the thyratron restores locking properties. Thus, the energy of the reflected waves is stored in the accumulative element and after certain periods of time enters the charge of an artificial long line. The drawing shows a block diagram of a pulse generator. The generator contains a power supply 1, a first diode 2, a charge droplet 3, a thyratron t, an ignition unit 5 of sneezing pulses, an artificial long line 6, a second diode 7, a resistor 8, XiL load 9, a backplane element 10, a coincidence element 11 , threshold unit 12, accumulator element 13, key element I, pulse transformer 15 containing windings 16 and 17, third diode 18. The generator operates as follows. Artificial line 6 is charged through diode 2 and choke 3 from source 1. From block 5 to the grid of the thyratron 4 and the input of the element 10 receives an ignition pulse. The thyratron is turned on, line 6 is discharged, a current pulse is generated at load 9. A voltage is reflected from the load (current) through diode 7 and resistor 8 to accumulative element 13 and charges it to a certain voltage. Then the line 6 is charged again, the thyratron L is turned on, charging of accumulating element 13 and etc. During operation, the voltage on the cumulative element 13 rises and at a certain level the threshold unit 12 is triggered. The threshold of operation of the block 12 is selected based on the maximum voltage on the cumulative element 13, which still provides protection against reverse voltage. The signal from block 12 enters the input of element 11. After the next discharge of line 6 when the thyratron k is turned on, the signal from the output of block 5 through element 10 enters the second input of element 11 and a control pulse is generated at its output The key element Il. The accumulative element 13 is discharged through the open key element 1 and the winding 16 of the transformer 15. The voltage from the secondary winding 17 of the transformer 15 through the diode 18 enters the recharge of the line 6. The delay value of the element 10 is chosen so that The tiratron t was found at the time of switching the element 1A and charging it. 6 in a non-conducting state and restored its locking properties. Further, the processes are repeated. An artificial long line can be used as a storage element 13. The use of this invention allows to increase the efficiency of pulse generators using artificial long lines and working on uncoordinated loads. The invention can also be used in testing artificial lines and pulsed capacitors operating at significant currents in order to reduce the power consumed from the power source. . Claims An impulse generator comprising a power source, the output of which is connected through a series-connected first diode and a charging choke to a thyratron anode and the first lead of an artificial long line. 0 the second terminal of which is connected to the common bus, the ignition pulse unit whose output is connected to the grid of the thyratron, the cathode of the thyratron through the load is connected to the common bus, resictop and the second diode, the cathode of which is connected to the anode of the thyratron, which improves efficiency , a cumulative element, a threshold unit, a delay element, a coincidence element, a key element, such as a thyristor, a pulse transformer, and a third diode, are introduced into it, with the first terminals of the cumulative element, the threshold block and the cher key element A resistor is connected to the anode of the second diode, the second terminals of the storage element and the threshold unit are connected to the common bus, the input of the delay element is connected to the output of the ignition pulse unit, and the output is connected to the first input of the coincidence element, the second input of which is connected to the output of the threshold unit, output the coincidence element is connected to the control input of the key element, the second output of which is connected to the common bus through the primary winding of the pulse transformer, and the secondary winding of the pulse transformer under lyuchena to ground and the anode of the third diode, the cathode of which is connected to a first terminal of artificial long line. Sources of information taken into account in the examination 1. The author's certificate, USSR If 26366, cl. H 03 K 3/05, 1967. 2. Kaganov I.L. Ion devices. M., Energie, 1972, p.282 (prototype) ±