SU425305A1 - TWO-TERM EMITTER REPEATER - Google Patents

Description

one

The invention relates to radio engineering, namely to push-pull emitter followers comprising two main transistors of different types of conductivity and a control transistor.

In the known push-pull amplifier, in which two main transistors of different conductivity types operate according to the push-pull emitter follower circuit, a control transistor is used to stabilize the mode.

However, in a known repeater, when the arm in which the control transistor is turned on, the latter must be closed, but the voltage at its collector junction decreases to zero and changes sign to the corresponding forward junction bias. Since the collector circuit of the control transistor is connected through a capacitor to the output of the amplifier, sharply the nonlinearity of the collector junction leads to an increase in the nonlinear distortion in the repeater.

The aim of the invention is to reduce non-linear distortion.

For this, the base of the control transistor is connected to the collector of one of the main transistors, and the collector of the control transistor is connected respectively through a resistor to the base of the other main transistor and the power supply, and through a capacitor to the output of the amplifier.

The drawing shows the principle electrical circuit repeater.

The push-pull emitter follower contains input 1 and output 2 terminals, respectively, main transistors 3, 4, control transistor 5, zener diode 6, resistors 7, 8, 9, 10, I, 12, capacitor 13, terminals 14, 15 of the power supply.

The control transistor 5 is connected by a base to the collector of the main transistor 4, and the collector is connected through a resistor 8 to the base of the main transistor 3 and through a capacitor 13 to the output (terminal 2).

The repeater works as follows.

In static mode, the resistor 7 passes the collector current of the control transistor 5 and the output current of the preliminary stage (connected to terminal 1), which is closed through resistors 8 and 9. At the same time, the DC voltage drop across the resistor 9 provides the necessary offset of the emitter transitions of the main transistors 3 and 4, and the quiescent current of the main transistors 3 and 4 is set by selecting the resistances of the resistors I and 12. The stabilitron (or other non-linear circuit with a voltage-current characteristic of the zener diode) 6 in the static mode has t great resistance and almost does not conduct current.

With the help of the control transistor 5, the quiescent current of the main transistors 3 and 4 is stabilized. For example, when the temperature rises, an increase in the quiescent current leads to an increase in the current of the control transistor 5, as a result the current through the resistors 8 and 9 decreases and the voltage of to the emitter junction of the main transistors 3 and 4, which is achieved autocompensation of the change of the quiescent current.

In the dynamic mode, when the main transistor 4 is closed, the collector current is controlled, its transistor 5 is practically absent, that is, this transistor is also closed. When the main transistor 4 is opened, the control transistor 5 also opens and its current increases until, as a result of an increase in the voltage drop across the resistor 12, its zener diode 6 starts to limit, the voltage at which the zener diode 6 starts to limit the current of the control transistor 5, is chosen so that the alternating current of the collector of this transistor is almost symmetrical pulses, in shape close to rectangular. In this connection, instead of Zener diode 6, other, more complex circuits can be applied: the series connection of zener diodes, the diode switching on of transistors, etc.

The alternating current of the control transistor 5 collector is connected through the capacitor 13 to the follower output.

At the same time, by using the capacitor 13, the shunting effect of the circuit is eliminated from the resistors 7, 8 at the input of the repeater. The minimum collector voltage of the control transistor 5 is determined by the drop in the DC voltage across the resistor 8 and does not reach zero, therefore the control transistor 5 does not introduce non-linear distortions.

The DC current of the collector (emitter) of the control transistor 5 is chosen to be approximately equal to the quiescent current of the main transistors 3, 4, and the quiescent current can be 10 to 20 times less than the maximum output current of the repeater, which corresponds to the economical mode of class B.

The resistor 10 is turned on to reduce nonlinear distortion (ensuring symmetry of the shoulders of the repeater on alternating current) and can be replaced by a resistor in the emitter circuit of the main transistor 4.

The push-pull emitter follower, in comparison with the known ones, is characterized by less non-linear distortion, simpler circuit and higher thermal stability (the temperature drift of the control transistor compensates for the instability of the main transistors); It can be used in the development of high-quality pre-amplifiers with increased overload capacity in cinema, radio and television equipment, especially when the efficiency of the casting mode is important.

Subject invention

A push-pull emitter follower containing two main transistors of the opposite conductivity type and a control transistor, characterized in that, in order to reduce non-linear distortions, the base of the control transistor is connected to the collector of one of the main transistors, and the collector of the control transistor is connected via a resistor to the base, respectively the other main transistor and the power supply, and through a capacitor to the output of the amplifier.