SU843187A1 - Pulse generator - Google Patents

Description

(54) PULSE GENERATOR

I. The invention relates to a pulse technique and can be used in radar transmitting devices, experimental physics, etc. The pulse generator is known, which contains a source of constant voltage, a charging choke, a controlled charging valve, a capacitive energy storage, a discharge switch, and a generator starting pulses and load. In a well-known pulse generator, when it is in operation, a resonant charge of a capacitive storage device is produced, followed by the start of the discharge switch, and the load of the capacitive storage device is discharged through it and a voltage pulse 111 is formed in the load. and changing the pulse frequency, for example, in the direction of decreasing the frequency, with the condition of ensuring the maximum NOY and a stable amplitude of the pulse. The reason for this is the accumulative charge leakage during the time after the end of the zonant charge and before the triggering pulse of the discharge switch increases, when the generator is switched to a lower pulse frequency or with single trigger pulses. The closest in technical essence to the present invention is a pulse generator, holding a source of constant voltage, to the output of which a circuit is connected, consisting of successively interconnected charge droplets, charge switch, capacitive energy storage and load, and bit switch connected in parallel to the capacitive drive and load G21. The disadvantage of the known generator is the impossibility of providing the maximum stable amplitude of the pulses

The purpose of the invention is to provide a maximum and stable amplitude of pulses while extending the range of the frequency of following pulses (in the direction of decreasing frequencies).

This goal is achieved by the fact that in the pulse generator containing a constant voltage source, to the output of which is connected a circuit consisting of series-connected charge droplets, a charge switch, a capacitive energy storage and load, and a discharge switch connected parallel to capacitive storage and load. parallel to the charging commutator, a circuit is connected consisting of a series-connected diode, a current-limiting element and a differentiating device, the output of which is connected to the input of the discharge switch.

The drawing shows a functional diagram of the pulse generator;

The generator contains a series-connected source of constant voltage I, a charging choke 2, a core switch 3, a capacitive energy storage 4, a load 5 and a discharge switch 6 connected in parallel with capacitive energy and a load connected in parallel with the charging switch 3 consisting of a series-connected diode 7, a current-limiting element 8 and a differentiating device 9, the output of which is connected to the control input of the discharge switch.

Works pulse generator as follows.

When the source of the constant voltage 1 is turned on, the charging switch 3 is closed and the charge of the capacitive storage 4 of energy does not occur. After supplying an external trigger pulse to the charge switch 3, the charge switch 3 is opened and a resonant charge of the capacitive energy storage device 4. occurs. At the moment of termination of the charge, the current in the charge choke 2 stops and a sharp voltage drop occurs on the charge switch 3, equal in magnitude to the difference in the voltage of the capacitive energy storage 4 and the constant voltage source 1, as a result of which the charge device 3 closes. The specified voltage drop is also attached.

a shepherd consisting of a diode 7, a current-limiting element 8 and a differentiating device 9 (as a result, a pulse-type transformer can be used).

 At the same time, the differentiating device 9 impulses a pulse to the input of the bit switch 6, as a result of which the switch opens.

When opening the discharge switch 6, the capacitive energy storage 4 is discharged through a load 5, in which a voltage pulse is generated.

Due to the fact that the discharge switch opens in the generator T) circuit immediately after the charge of the capacitive energy storage 4 is over, the storage leakage does not have time to occur and the amplitude of the pulses in the load is maximum.

In view of the possibility of eliminating the accumulator charge leakage, regardless of the frequency of the sounding of the pulsing impulses that occur at the input of the charging switch 3, including during single start impulses, the amplitude of the pulses in the load remains maximum and constant

Thus, the application of the proposed pulse generator circuit ensures the maximum and stable pulse amplitude when the pulse frequency is varied over a wide range, extends the functionality and application area of generators of this type.

Claims (2)

Invention Formula A pulse generator containing a source of DC voltage, to the output of which a circuit is connected, consisting of series-connected charge droplets, a charge switch, a capacitive energy storage and a load, and a discharge switch connected in parallel with a capacitive energy storage and load, characterized in that 4TOj, with the aim of maximizing and stable amplitude of pulses, when the pulse frequency is varied within wide limits, a circuit consisting of an Then there was a diode, a current-limiting element and a differentiating device 58431874criea, the output of which is connected to, 1, USSR author's certificate to the input of the bit switch. 599344, cl. H 03 K 3/335, J976. Information sources, 2. UK Patent taken into account in examination No. 1261278, cl. 40 CO 1972