SU521653A1 - Pulse generator - Google Patents

Description

(54) PULSE GENERATOR

The invention relates to radio engineering and can be used in self-oscillating generators of powerful pulses.

A pulse generator is known, which is a relaxation avalanche transistor generator in which avalanche transistors are connected in parallel. However, the known generator does not provide a self-oscillation mode and requires a powerful triggering pulse || lj to start.

Also known is a pulse generator containing two avalanche transistors, a charging resistor, a storage capacitor, and a load 2.

Such a generator does not provide a sufficiently large amplitude of the output pulses.

The purpose of the invention is to increase the amplitude of the pulses.

For this, the avalanche transistor collectors are connected in parallel and connected between the charging resistor and the storage capacitor, the bases and emitters of both avalanche transistors are connected to the load through resistors, the base of the first avalanche

transistor through a capacitor connected to the emitter of the second transistor, and the base of the second through another capacitor connected to the emitter of the first transistor.

The drawing shows the principal electrical circuit of the proposed generator.

The pulse generator includes avalanche transistors 1, 2 charging resistor 3, a storage capacitor 4.

The avalanche transistor 1 and 2 collectors are connected in parallel and connected between the charging resistor 3 and the storage capacitor 4. The bases and emitters of the avalanche transistors 1 and 2 are connected to the load 9 through resistors 5, 6, 7, 8 respectively. with the emitter of transistor 2, and the base of transistor 2 through a capacitor 11 - with the emitter of transistor 1.

The pulse generator works as follows.

Claims (2)

Assuming that transistor 1 has a varying voltage of breakdown than transistor 2, capacitor 4 is charged through resistor 3 and the voltage across it increases exponentially. At some point in time, it reaches the turn on voltage of transistor 1 which is turned on. In this case, the capacitor 4 begins to discharge through the transistor 1, the resistor 7 and the load 9. A negative pulse appears on the resistor 7, which is applied through the capacitor 11 to the base of the closed transistor 2 and opens it. A part of the discharge current of the capacitor 4 branches into a circuit: avalanche transistor 2, resistor 8, load 9, so that a negative pulse appears on the resistor 8, accelerating the I unlocking of transistor 1. Due to the almost simultaneous switching on of transistors 1 and 2, they turn on parallel, which doubles the limiting amplitude of the pulses. Claims An impulse generator comprising two avalanche transistors, a charging resistor, an accumulator capacitor 6 and a load resistor, characterized in that, in order to increase the amplitude of the pulses, avalanche transistor collectors are connected in parallel and connected between the charging resistor and the storage capacitor, the base and the emitters of both avalanche transistors are connected to the load through resistors, the base of the first avalanche transistor is connected to the emitter of the second transistor through a capacitor, and the base of the second circuit another capacitor connected to the emitter of the first transistor. note: Sources of information taken during the examination: 1L.N.Nat1 $ et1, M-A.5s1pp1a1 Prgos 1Sh 1967, 55, No. 2216. 2. DI Konov, V.P. Avalanche transistors and their use in pulse devices, M. Sov. Radio, 1973, pp. 60-61 (prototype).