SU600697A1 - Pulse generator - Google Patents

Description

The connection is connected between the collector of the transistor 2 and the base of the transistor 1, the second terminal of the resistor 10 being connected to the power supply line bus 11.

Consideration of the generator will start from the moment when the voltage on the capacitor 6 has a negative polarity and a significant value. At the same time, transistors 1 and 2 are closed and capacitor 6 is discharged mainly to resistor 4. As the capacitor 6 discharges, the voltage at the base of transistor 2 decreases. When this voltage reaches zero, transistor 2 opens and the positive feedback starts . Transistor 1 is turned off, and its collector current, due to the charge of capacitor 6 and the accumulation of energy in inductor 3, increases. Due to the feedback effect, the process of detaching the transistors 1 and 2 is forced, and on the inductance 3 an unfrozen low-voltage impulse is formed. Thus, an avalanche-like process develops in the circuit, culminating in the amplification of transistor 1 and the repainting of the feedback action.

As the collector current of transistor 1 grows, resorption of minority carriers accumulated in its base occurs, and the top of the low-voltage power supply is formed. Upon completion of the magnetization of the core of the inductance 3, the charge of minority carriers in the base of transistor 1 reaches such a level that it leaves the saturation state. With the restoration of the amplifying properties of the transistor 1, the feedback action is resumed and an avalanche-like process of its locking occurs. The decay of the collector current causes the appearance in the inductor 3 of an emf of self-induction, contributing to the forced locking of transistor 2 and due to the feedback action of transistor 1. Since transistors 1 and 2 undergo, two processes run simultaneously in the circuit.

The first is related to the release of energy,

injected in the coil of inductance 3 in the form of a high-voltage pulse. This process is boosted by oscillation in a series oscillatory circuit consisting of capacitor 6 and inductance 3. The second process is connected with the discharge of capacitor 6 through resistor 4. As capacitor 6 is discharged, the voltage at the base of transistor 2 drops, and The reviewed work cycle is repeated.

Claims (2)

1. A pulse generator containing two transistors of different types of conductivity with an inductor in the collector circuit of one of them and a resistor connected to the base of the other transistor, the emitter of the other transistor connected to the output of the inductor and the source of the thread, characterized in that expanding the range of pulse durations and reducing the recovery time, a capacitor is inserted in it, which is connected between the collector junction point of the first transistor with one coil terminal inductively and five-point compound base of a second transistor with a resistor; a resistor connected between the collector of the second transistor and the power supply bus; a positive feedback circuit is connected between the collector of the second transistor and the base of the first transistor, while the second terminal of the resistor of the base circuit of the second transistor is connected to the power supply bus. 2. Pulse generator no. 1, that is, so that the positive feedback circuit contains a series-connected resistor, capacitor and resistor. Sources of information taken into account at the examination 1. USSR author's certificate number 425324, cl. H OZK 3/282, 1972. 2. USSR author's certificate number 349081, cl. H OZK 3/26, 1968. five -Ci 0