SU849480A1 - Pulse modulator - Google Patents

Description

The invention relates to a pulse technique, in particular, to pulse modulators with full discharge of an energy storage device and can be used in pulse systems of various purposes. A known modulator containing a power source, a charging unit, for energy storage devices, a switching element and a load, the principle of action of which consists in alternately discharging energy storage devices through a switching element on the load. The disadvantage of this modulator is that it forms only a short pulse-peak with a steep front of large amplitude, which, after a decline, turns into a longer pulse of smaller amplitude. Such an impulse can cause gaps in the ignition of thyratrons, thyristors, and other instruments p. Closest to the present invention is a pulse modulator containing a power source, the first output of which is connected to the input of the charging unit, the output of which is connected through a serially connected first drive, in parallel to which the reverse discharge unit is connected, and the primary winding of the transformer is connected to the common busbar which is also connected to the second output of the power supply unit, and through serially connected second storage and discharge KOMh lithium element, the control input of which is connected to the bus starting pulses, retraction of the primary winding of the transformer, to the secondary winding of which the load is connected, and the valve, the first output of which is connected to the output of the charging unit 2. The disadvantage of this modulator is that the output pulse has at the moment of the pulse-peak and the beginning of the long part Impulse impulse less than amplitude

Apr Jayi of the durable part - pro-, al. Such a distortion of the pulse shape can lead to: unstable load performance, i.e. to pass a normal arson load, which reduces the reliability of the device.

The purpose of the invention is to increase the reliability of the operation of a pulse modulator.

To achieve this goal, in the modulator containing the source of the foot, the first output of which is connected to: a charging unit, whose output is connected via the first connected First storage device, which is parallel to which the reverse discharge unit is connected, and the primary winding of the transformer is connected to the common VIIII, which also connects the second output of the power supply unit and, through the 20 serially connected second storage unit and the bit switch, give an element whose control input is connected to the trigger pulse bus, the middle retraction of the primary winding 25 of the transformer, to the secondary winding of which the load is connected, and the valve, the first output of which is connected to the output of the charging unit, the second output of the valve is connected to the combined terminals of the second storage device AND of the discharge switching element.

The drawing shows the proposed modulator.

The pulse modulator contains a power source, the positive pole of which is connected to the input of the charging unit 2, and negative to the common bus, the output of the charging unit 2 is connected to the combined leads of the energy storage device 3 and the reverse discharge unit 4, Others are connected to the beginning of the primary winding of the transformer 5, the end of which is connected to a common bus 45, the secondary winding is connected to a load 6, and the primary winding of the transformer 5 is connected to a common bus through a series-connected drive 7 50 and switching element 8, the control input of which is connected to the bus 9 trigger pulses and the valve (the diode 10 whose anode is connected to the HEATPass of the charging unit 2, and the cathode to the output pins of the energy accumulator 7 and the discharge switching element 8.

The device works as follows.

The energy storage devices 7 and 3 are charged from the power source 1 through the charging unit 2 and the primary winding of the pulse transformer 5, and the charge of the second energy storage device 7 occurs through the valve 10. When a start pulse from the generator arrives at the bus 9, the switching element 8 opens and the discharge of the second 7 and first 3 energy storage devices to the load 6 is started. First, the second energy storage device 7 is discharged, connected to the primary winding tap of the pulse transformer 5. A short circuit is formed on its secondary winding second pulse-peak amplitude sufficient to ignite the load (e.g. a thyratron). In this case, a blocking voltage is applied to the anode of the valve IO and the discharge of the first energy storage device 3 does not occur. After the second energy accumulator 7 is discharged, the valve JO is unlocked and the second energy accumulator 3 is discharged through the primary winding of the pulse transformer 5. The secondary winding of the pulse transformer 5 generates a pulse with a voltage sufficient to maintain the load 6 in a conducting state. In this case, the discharge of the first energy storage device 3 through the second energy storage device 7 does not occur.

The reverse discharge unit 4 is designed to relieve the reverse voltage of the recharge of the storage energy 7 and 3 in the presence of a mismatch between the characteristic impedance of the accumulators ji and the load resistance 6.

The use of a pulse modulator in pulse systems allows one to ensure stable load operation — the absence of gaps in its normal ignition, i.e. increases the reliability of the devices.

Claims (2)

1. USSR author's certificate No. 514430, cl. H 03 K 7/02, 01.03.74. 2. USSR author's certificate No. 594581, kp. H 03 K 7/02, 30.12; 76 (prototype).