SU465710A1 - Pulse amplifier - Google Patents

Description

one

This invention relates to the field of technical electronics.

In the known pulse amplifiers containing a cascade on a transistor connected according to a common emitter circuit, and a load with an inductive reaction is included in the collector circuit of the transistor, while playing current pulses with steep ratios, e is induced. D. s., which leads to the formation of voltage surges during the formation of the front and the cut-off of the output pulse. In a number of devices, these emissions reach hundreds of volts and even kilovolts. Emissions of such a large amplitude lead either to breakdown of the amplifying element or to deep saturation, which is accompanied by a significant slowdown in the rate of rise or fall of the current in the inductance.

The purpose of the invention is to reduce the voltage spikes at the output of the amplifier.

For this, the circuit contains an auxiliary amplifier, which forms a compensating voltage on the secondary winding of the output transformer, with the secondary winding of the transformer connected in series with the load.

The drawing shows the scheme of the proposed pulse amplifier.

The circuit contains a transistor 1 which is intended to be supplied with pulses of a load current, usually consisting of inductance

2 and resistance 3. The direct current amplifier is powered from the voltage source 4. Unlike the existing solutions, the circuit contains an amplifying amplifier 5, the input of which is connected to the collector of transistor 1. The output of the auxiliary amplifier is connected in series with the load 2-3. The transistor 1 is the output

a cascade of a conventional amplifier designed to reproduce current pulses with steep ratios in the load. In the output stage circuit, it is possible to use not only a bipolar transistor, but also a unipolar traazistor, an electrovacuum lamp.

The compensation voltage UKOM is formed by an auxiliary amplifier, the input of which is supplied from the collector of the transistor, i.e.

vzhn vnnn- / koiI This voltage is amplified K to an auxiliary amplifier and appears at its output as a compensating voltage

 koi-- ah EXIT - (n com) "out equal

f / Ko-- / f / - / H2eJ, (1)

where 2out - the output impedance of the auxiliary amplifier, reduced to the secondary winding of the transformer. From relation (I), it follows that by using an auxiliary amplifier with a small output impedance and a sufficiently large gain factor, it is possible to ensure the formation of a compensating voltage in shape and amplitude coinciding with the load voltage UH, which includes the surge voltage, i.e. Therefore, the voltage change on the collector of the transistor decreases sharply, reaching the level and +. OUK - -N-to-K - The proposed scheme allows to reduce the change in the output voltage on the amplifying element by 1–2 times, thereby eliminating the failure of the normal operation of the circuit due to breakdown or saturation. In this case, the voltage on the inductance reaches rather large values, thereby ensuring a high rate of rise or fall of the current pulse in the load. Compared with the non-compensated circuit, which usually works with breakdown or saturation, the proposed circuit provides for the formation of the front and cut of the current impulse in a time that is ten times smaller. The advantage of the circuit is also a smaller power consumption: the compensation of emissions at the output of the amplifying element makes it possible to significantly facilitate the operation of this element, reducing the dissipated power not only during the formation of steep drops, but also in the steady state. As an auxiliary amplifier, you can use any pulse amplifier with a low output impedance and a sufficiently high gain during transmission of emissions with steep ramps. Subject of the Invention A pulsed amplifier comprising a cascade on a transistor connected according to a common emitter circuit, and an inductive response load included in the collector circuit of the transistor, characterized in that, in order to reduce the surge voltage on the collector of the transistor, an additional amplifier is connected to the output of the amplifier transformer at the output, with the secondary winding of the transformer connected in series with the load.