SU527816A1 - Blocking generator - Google Patents

Description

The invention relates to radio engineering and can be used in automatic and computer devices. One of the known blocking generators containing the main transistor; pulsed transformer, timing master circuit, has a low stability of pulse repetition frequency and low noise immunity 1, The closest technical solution to this invention is a blocking-transistor containing transistor, in the superator circuit of which the switching circuit is connected, the emitter and the base of the transistor through the corresponding the resistors are connected to the plus of the power source, and through the storage capacitor the base of the transistor is connected to the minus of the power source, This transistor and zener diode 2. This blocking generator also has a high stability and reliability and a high noise immunity. The purpose of the invention is to increase the reliability and noise immunity of the block generator. For this, the zener diode is connected to the emitter circuit of the transistor, and the collector-electromagnetic junction of an additional transistor is connected in parallel with the zener diode, the base of which is connected to the minus of the power source through the feedback winding of the transformer. The drawing shows a typical electrical circuit of the proposed blocking generator. The blocking generator contains a transistor 1, in the collector circuit of which the primary winding 2 of the pulse transformer 3 is connected. The emitter and the base of the transistor 1 are connected via resistors 4 and 5, respectively, to the positive power source. Through the storage capacitor 6, the base of the transistor 1 is connected to the minus of the power source. The Zener diode 7 is included in the emitter circuit of transistor 1, and parallel to the Zener diode 7 is included collector-emit

A ternary transition of the transistor 8, the base of which through the winding 9 of the feedback of the transformer 3 is connected to the Mi-source of the power supply.

The output terminals 10 and 11 are connected to the output winding 12 of the transformer 3.

The blocking generator works as follows.

When the supply voltage is applied, the capacitor 6 is charged to a voltage equal to the opening voltage of the transistor 1, which is determined by the zener diode 7. As transistor 1 is slightly opened, a current flows in the primary winding 2 of the transformer 3, which imposes a voltage in the reverse 9 connection. The transistor 8 is slightly open, thereby reducing the bias voltage of transistor 1,

The full opening of transistor 1 leads to an avalanche-like process, in which a sharp increase in current occurs, and transistor 8 goes into a saturated state. As a result, two feedbacks arise: one transformer, which affects the base of transistor 8, and the other, galvanic in the emitter circuit of the main transistor 1,

After transistors 1 and 8 are covered, forming the leading edge of the pulse, capacitor 6 will begin to discharge through the base emitter of the main transistor 1 and collector-emitter of transistor 8. The discharge time of the capacitor 6 is determined by the duration of the output pulses at terminals 10 and eleven.

As soon as the flow of current through the windings of the transformer 3 stops, transistor 8 closes and closes the main transistor 1, since a low ohmic resistance is switched on between the base and the emitter of the transistor 8 - the negative winding 9 of the transformer 3 , will accelerate the closing of the transistor 8. As soon as it closes, transistor 1 also closes with the voltage of Zener diode 7. Next, the processes are repeated.

The proposed blocking generator makes it possible to eliminate the influence of the magnitude of the load on the output parameters, increases the stability of the repetition rate and pulse duration, and increases the noise immunity.

Claims (2)

1. Avt.Sv. No. 242227, M.C. H 03 KZ / 30.12.31.67 (equivalent), 2. Avt.S.№406299, M.Kl.NOZ K 3/30, 09.08.71 (prototype). -I- F