SU1518877A1 - Power amplifier - Google Patents

Abstract

The invention relates to amplifier technology. The purpose of the invention is to increase reliability by protecting against short circuits (cs) of the load and eliminating overload at the input of the operational amplifier (op-amp). The power amplifier contains an input stage 1, an intermediate stage 2 at the OS, a terminal push-pull stage 3, a resistive voltage divider 4, a load 5, capacitors 6, 7. A current source 8 and a controlled resistance 9 are introduced into the amplifier. Source 8 provides stabilization of the stage 1 and high linearity of the amplifier when the voltage on the op-amp supply bus voltage changes as a result of a change in the output signal and corresponding changes in the resistance parameters 9. In the case of a short circuit. load 5, the current through the resistance 9 decreases, limiting the voltage on the op-amp supply bus. 1 il.

Description

ate

00 00

This invention relates to an amplifier technique and can be used as an audio power amplifier.

The purpose of the invention is to improve reliability due to protection against load and exclusion of overload on the input of the DLO.

The drawing shows a conventional wiring diagram of a power amplifier.

The power amplifier contains an input stage 1, an intermediate stage 2 at the op-amp, a terminal push-pull stage 3, a resistive voltage divider 4, a load 5, first and second capacitors 6 and 7, a current source 8 and a controllable resistance 9,

The power amplifier works in the following wayg

When the power supply voltage is turned on in the power amplifier, a transient occurs, during which the first and second capacitors 6 and 7, as well as the capacitor in a controlled 9o resistance, are charged. In this case, the connection of the power supply bus of the input stage 1 with the power supply bus of the intermediate stage 2 through current source 8 eliminates the possibility of overvoltages at the inputs of the op-amp in relation to the voltage on its power supply bus 8 current source provides stabilization of the input stage 1 and high linearity of the amplifier when the voltage changes on the op-amp supply bus as a result of a change in the output signal and corresponding changes in the parameters of the controlled resistance 9. The new internal resistance of the current source 8 allows the bandwidth of the power amplifier to be expanded in the low-frequency region for a given capacitance of the first add-on capacitor 6 (or ). If there is no input signal, the output potential is determined by a constant 1P level at the output of the input stage 1.

In the case of the occurrence of k. With, load 5, the current through controllable resistance 9 decreases, limiting the voltage on the op-amp supply bus. If we suggest that with a negative half-wave of the signal in the short-circuit mode. Since capacitor 7 will discharge more strongly than it will charge at a positive half-wave, the voltage on capacitor 7 will decrease, which will further decrease the current through controlled resistance 9, and as a result, current limited through a short-circuited load 5 at a positive half-wave signal. em dynamic equilibrium in the scheme

To ensure the symmetry of the power supply of the OS and the corresponding linearity of the circuit, an offset element on the zener diode can be included in the power supply circuit of the OS that does not contain controllable resistance 9.

Claims (1)

Invention Formula A power amplifier containing an input stage, performed according to a common emitter circuit, an intermediate stage on an operational amplifier, a terminal push-pull stage, controlled by the power supply of an operational amplifier and implemented on transistors of the opposite structure according to a common emitter, resistive voltage divider, load , the first and second capacitors, while the output of the input stage is connected to a non-inverting input of an operational amplifier, the inverting input of which is connected to a resistive divide tap Voltage and through the first capacitor - with the input stage power bus, the power bus of the terminal push-pull stage are connected respectively to the common busbar and power supply bus, the output of the terminal push-pull stage is connected to the first terminals of the resistive voltage divider and load, the second terminals of which are combined and connected through a second capacitor to a common gaine, characterized in that, in order to increase reliability, a current source and a controlled resistance are introduced, the input stage power supply bus through A current loop is connected to the corresponding power supply bus of the operational amplifier, which through a controllable resistance is connected to the base of the corresponding transistor of the terminal push-pull stage, the code of which is connected to the control input of the controllable resistance