SU970635A1 - Push-pull amplifier - Google Patents

Description

(54) TWO-TIME AMPLIFIER

Claims (2)

The invention relates to electronic engineering, in particular, to amplifiers. Known push-pull amplifiers are known, which include connected to a power source with a midpoint serially connected input push-pull cascade, implemented on transistors of different conductivity types, connected according to a common base circuit, and output push-pull cascade, made On transistors, the foot of the conduction type is G1 3. In the known push-pull amplifiers, the instability of the power supply has a great influence on the parameters. The purpose of the invention is to reduce the effect of instability of a power source on the parameters of a push-pull amplifier. The goal is achieved by the fact that in a push-pull amplifier of a transistor of an output push-pull cascade are connected according to a common collector circuit, the bases of all transistors are combined and connected via a feedback resistor to the midpoint of the power supply: The drawing shows the diagram of the proposed amplifier. The push-pull amplifier contains an input two-stage cascade made on transistors 1 and 2 of different conductivity types, an output push-pull cascade made on transistors 3 and 4 of different conductivity type, the power source with a midpoint consisting of power sources 5 and 6 of different polarity load resistor 7; feedback resistor 8. Push-pull amplifier works as follows. The input signal is fed to the emitters of the transistors 1 and 2. The signal of positive polarity passes through the transistor 1 (for example, pnp type), and the negative polarity passes through transistor 2 (for example, pnpipa). The collector currents of the transistors 1 and 2 pass through the sources 5 or 6 of the supply, the resistor 7 of the load and enter the emitter 3 or 4 transistors, respectively, and depending on the floor. A portion of the current is coupled to the feedback resistor 8. Due to the fact that the load resistor 7 is connected to the positive feedback circuit from the collectors to the emitters of transistor 3 and 4, the input current is amplified respectively or (L times with open feedback (Rg co, where (current gain factors in The total emitter of the transistors 3 and 4, and R is the resistance value of the feedback resistor 8. At the final value of Q and the RIT condition is “p J, Ib, where RT is the voltage l 4ijHa of the resistance of the load resistor 7, the current gain factor is -7 As transistors 3 and 4 we can but use composite, composite, and composite-composite cascades with large fb values. Amplifier circuits have a wide range of functionality, for example, amplifiers can work in reversing mode: the source of input voltages can be switched on as a load resistance. In this case, the current "collectors of the output transistors will be input currents. This functional potential of the circuit can be x; useful when using antenna systems as loads. In radiation mode, the antenna will be the load, and in reception mode it will be the input source. When the antenna is working at the receiving output, the cascades will be input. Amplifiers have a particular advantage when used as amplifiers. power for radio, acoustic and other antennas. When operating at a resonant load, the quality factor increases. The push-pull amplifier circuit is tested when operating as an output stage of a power amplifier for ultrasonic speakers. As output transistors 3 and 4, composite and composite transistors composed of several high-power transistors are used to increase fb to the amount of power delivered to the load. At the same time, the current gain is 2Li 190 with high efficiency. The output signal does not depend on the supply voltage of the sources 5 and 6 of the power supply until the output transistors are in active mode. A change in voltage affects only the efficiency value. The circuit is linear in the wide range of output signals, nonlinear distortions are insignificant when the output transistors operate in mode B for a resistive load and are almost completely absent at work for a resonant load. A push-pull amplifier containing serially connected input push-pull cascade connected to a power source with a midpoint, performed on transistors of different conductivity type, connected according to a common base circuit, and output push-pull cascade performed on transistors of different conductivity type, as well as a feedback resistor Z, characterized in that, in order to reduce the influence of the instability of the power source on the parameters of the push-pull amplifier, the transistors of the output two-stage cascade included in the circuit with a common collector, while the base of all transistors are combined and connected via a reverse resistor. connection to the midpoint of the power source. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 543136, cl. H 03 F 3/42, 1973.