SU1045365A1 - Pulse amplifier - Google Patents

Abstract

PULSE AMPLIFIER, holding the first transistor connected according to the common emitter circuit, the second transistor whose collector is connected to the power source, the base directly, and the emitter through the diode to the collector of the first transistor, in order to increase the power into it a transformer and a limiting resistor and two capacitors connected in series between the power supply outputs are introduced, the transformer primary winding is connected between the emitter of the second transistor and the common connection point capacitors, and the winding of positive feedback through the current limiting resistor connected to the base of the second transistor.

Description

The invention relates to a pulse technique and can be used in power supplies. A pulsed amplifier is known that contains a first transistor connected in series with a direct current, connected in accordance with a common emitter circuit, and a second transistor, whose base is directly connected to the collector of the first transistor 1. The disadvantage of this device is low efficiency due to the presence of a bias circuit of the second transistor and additional losses in the resistor included in the collector of the second transistor to provide saturation of the latter. The closest in technical essence to the proposed invention is a pulse amplifier containing a first transistor connected in series in DC, connected in a circuit with a common emitter and a second transistor, the collector of which is connected to the power source, the base directly, and the emitter through the inductor, are connected with the collector of the first transistor, and a diode is connected parallel to the inductor. A disadvantage of the known device is the low starting reliability, due to the fact that The second transistor is dug out by the energy stored by the inductor, which is stored only when the capacitor connected in turn with the load is discharged, and also the fact that the capacitor connected in series with the load can be operated only through the open second transistor capacitor discharged These reasons worsen the initial start-up of the device, and at negative ambient temperatures make this start impossible. The purpose of the invention is to increase by. the reliability of the launch of a pulse amplifier. The goal is achieved by the fact that the second transistor, the collector of which is connected to the power source, the base directly, and the emitter through the diode to the collector of the first transistor, are inputted into the pulse amplifier containing the first transistor connected to the common emitter circuit. a transformer and a limiting resistor and two capacitors connected in series between the outputs of the power source, the primary winding of the transformer is connected between the emitter of the second transistor and the common connection point of the capacitors, and the positive feedback winding is connected to the base of the second transistor. The drawing shows a circuit diagram of the device. The pulse amplifier contains the first and second transistors 1 and 2, diode 3, limiting resistor k, transformer 5 with primary winding 6, positive feedback winding 7, output winding 8, capacitors 9 and 10 of the voltage divider, source 11 square-wave pulses, power supply 12, load 13. The first transistor is connected in -circuit with a common emitter, the base of the second directly, and the emitter through the di-; one connected to the collector of the first transistor. The device works as follows. When power supply voltage Unwi is applied: from source 12, transistors 1 and 2 are closed, capacitors 9 and 1.0 are charged up to about 0.51), the impulse from source 11 of rectangular pulses opens transistor 1 and current flows through; uenvi transistor 1 diode 3 - load 13 - capacitors 9 and 10 - source .12, and the capacitor 9 is charged, and the capacitor 10 is discharged. In addition, the current flows through the primary winding 6 of the transformer 5, as a result of which energy is accumulated in it, as well as through the winding 7 and the resistor k. A voltage drop across the diode 3 keeps the transistor 2 closed. At the time of the end of the pulse of the source 11, the transistor 1 is closed. The self-induction EMF of the tranformator 5, induced in the winding 7 through the gearbox 4, is applied to the base-emitter transition of the transistor 2 and opens it, current begins to flow through the circuit of the transistor 2 - the load 13, the capacitors 9 and 10 are charged, source 12, and the condenser 10 is charged, and Capacitor 9 is discharged. In addition, a current flows through the primary winding 6 of the transformer 5, as a result of which the winding 7 and the resistor close the feedback circuit, which keeps the transistor 2 in the open state. At the moment of arrival of the core pulse from the source 11, transistor 1 opens again. Transistor 1, diode 3 — load 13 — capacitors 9 and 10 — source 12 begin to flow through the circuit, the capacitor 9 being charged, and the capacitor 10 discharging. The voltage drop across the diode 3 forcefully closes the base-to-emitter (Emitter of transistor 2, as a result of which it is locked. At the same time, the trans 6 is through the primary winding (P-5) a current flows that peremagnetizes its core. Then the process repeats.

Thus, at the load 13, amplified square-shaped pulses are formed, the frequency of which is determined by the frequency of the source pulses 11. I To provide galvanic unloading 13 and power to the amplifier, the amplitude adjustment at the load 13 can be connected to the external winding in a) Eformator 5. The amplitude of impulses on the load 13

it is determined by the transformation ratio of the tronformator 5

Introduction to a pulse amplifier of a transformer 5, the primary winding 6 of which is connected half-bridge, and the secondary winding 7 forms a positive feedback when opening transistor 2 ensures reliable guaranteed start of the amplifier with zero initial conditions on capacitors 9 and 10, since the opening of transistor 2 at the end of the first impulse from the source 11 (by locking the transistor 1), it is produced by the energy stored in the transformer 5, which accumulates when current flows through the primary winding 6 tra nformator 5.

When opening the transistor 1 on the first impulse from the source 11, then through the primary winding 6 of the transformer 5 flows due to the charge of the capacitor 9, which is discharged before the power supply, and when the power supply is applied, it charges to the level of 0.5 (/ yj-

High efficiency allows to provide the necessary thermal conditions of power transistors in continuous operation for 10 hours or more.

Claims (1)

PULSE AMPLIFIER holding the first transistor, switched on! According to the scheme with a common emitter, the second transistor, the collector of which is connected to the power source, the base is * directly, and the emitter through the diode to the collector of the first transistor, characterized in that, in order to increase reliability, a transformer and a limiting resistor and two capacitors are inserted in it, connected in series between the outputs of the power source, the primary winding of the transformer is connected between the emitter of the second transistor and the common connection point of the cond nsatorov and winding of positive feedback through the current limiting resistor connected to the base of the second transistor. § £ 10P5365