RU2646387C2 - Blocking-generator for standby mode operation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: blocking-generator contains a key transistor and transformer, the primary winding of which is inserted between the key transistor collector and a power source, the secondary winding is connected to the base of the key transistor, it also contains an adjusting transistor and the first and second resistors. The first resistor is connected between the emitter of the key transistor and the common ground, an emitter diode of the adjusting transistor is connected parallel to the resistor, the emitter of the adjusting transistor is connected to the common ground, and its base is connected to the emitter of the key transistor, and the collector of the adjusting transistor is connected to the base of the key transistor. The end of the secondary winding, which is not connected to the base, is connected to the common ground through the second resistor.

EFFECT: increase in the stability of the duration of the rectangular pulses of the blocking-generator operating in the standby mode.

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Description

The invention relates to a pulse technique. It can be used to form rectangular pulses of stable duration of a blocking generator operating in standby mode.

Known blocking generator containing a transistor, connecting for the duration of the pulse the primary winding of the transformer to a constant current source for a time depending on the parameters of the bias circuit and the transistor [1].

The disadvantage of this device is the low stability of the pulse duration. This is because the pulse duration of this blocking generator depends, in particular, on the β transistor. This parameter is extremely unstable for transistors and is subject to significant scatter.

To increase the stability of the pulse duration, a blocking generator was proposed containing a pulse transformer, the primary winding of which is connected to the negative of the power source, its second end to the collector of the key transistor, the secondary winding is connected to the base of the key transistor and the second end to the delay line. A bias voltage is supplied to the transistor base through a resistor, and a trigger pulse is applied to the transistor collector through a pulse formation circuit [2].

This blocking generator is taken as a prototype.

The disadvantage of the prototype is the mass, dimensions and cost of the delay line.

An invention is proposed, the use of which avoids these disadvantages.

A schematic diagram of the proposed blocking generator is shown in the drawing.

The proposed blocking generator for standby operation consists of a key transistor 1, the collector of which is connected to the primary winding 3 of the transformer, the second end of which is connected to the plus of the power source, the base of the transistor 1 is connected to the second winding 4 of the transformer, the second end of which is connected through the resistor 5 to the common ground, the emitter of the key transistor is connected to the base of the transistor 2. The generator is started through the capacitor 7 to the emitter of the key transistor or through the capacitor 8 to its base.

The device works like this. In the initial state, the key transistor is locked with zero voltage at the base, which comes from the common ground through the secondary winding of the transformer 4 and resistor 5. The near-zero current of the key transistor creates a near-zero voltage drop across the resistor 6, this voltage is applied to the emitter junction of the control transistor 2 and it is locked.

The generator is launched through a capacitor 7 to the emitter of the key transistor or through a capacitor 8 to its base. Upon receipt of a triggering pulse, the key transistor opens, part of the supply voltage is applied to the primary winding, which is transformed into the secondary winding of the transformer and is applied to the base of transistor 1 in the opening direction, which leads to even greater opening of the key transistor. Due to this positive connection, the process develops avalanche right up to the key transistor 1 entering into saturation, while almost the entire supply voltage, which is transformed into the voltage opening the transistor 1, is applied to the primary winding. This is a metastable position, due to the applied voltage, the current linearly increases through the winding 3 and transistor 1. This current causes a voltage drop across the resistor 6, and when the current, and, accordingly, this voltage rises to the opening threshold of transistor 2, it opens by shunting voltage, opening the transistor 1, and the avalanche process of closing the transistor 1 with positive feedback through the transformer will begin.

The pulse duration depends on the inductance of the winding 3, the resistor 6, the supply voltage and the direct voltage drop at the open emitter junction of the transistor 2 and is practically independent of the unstable current transfer coefficients of the transistors.

The technical result of the invention is to improve the stability of the duration of the rectangular pulses of a blocking generator operating in standby mode.

List of sources used

1. Bobrov I.I. Electronic generators. - Perm .: Publishing house Perm. state tech. University, 2008.218 s.

2. Berikashvili V.Sh. Impulse technique. - M.: Publishing Center "Academy", 2004. 240 p.

Claims (1)

A standby blocking generator comprising a key transistor and a transformer, the primary winding of which is connected between the collector of the key transistor and the power source, the secondary winding is connected to the base of the key transistor, characterized in that it contains a control transistor and first and second resistors, the first a resistor is connected between the emitter of the key transistor and the common ground, parallel to this resistor is the emitter junction of the regulating transistor, the emitter of the regulating transistor oedinen with common ground, and its base connected to the emitter of transistor regulating transistor collector connected to the base transistor; that end of the secondary winding that is not connected to the base is connected to a common ground through a second resistor.

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