SU1177880A1 - Power amplifier - Google Patents

Abstract

A POWER AMPLIFIER containing a series-connected phase inverter and a first adder, as well as a rectifier whose input is connected to the phase-inverter input and is the input of a power amplifier, and a series-connected analog-to-digital converter and a decoder whose outputs are connected to the control inputs n of the keys, source power supply and load, which is characterized by the fact that, in order to reduce nonlinear distortions, the second adder and two linear unipolar amplifiers, whose outputs are connected The power supply consists of n series-connected current sources, the corresponding output of the first current source is connected to the common bus, and the output of each current source is connected via the corresponding control key to the power output of the linear unipolar amplifiers, and the input of the first A linear unipolar amplifier is connected to the output of the first adder, the input of the second linear unipolar amplifier is connected to the first input of the second adder, to another input of the first adder and to the output Php mitele, and the output of the phase inverter is connected to the second input of the second adder.

Description

E-b ifiiTll The invention relates to radio engineering and can be used in low-frequency amplifiers and in electric drives of automatic systems. The purpose of the invention is to reduce non-linear distortions. The drawing shows a functional electrical power amplifier circuit. Amplifier, power contains phase inverter 1, first adder 2, rectifier 3, analog-digital converter 4, decoder 5, n controllable keys 6, power supply 7, load 8, second adder 9, two linear unipolar forces, bodies 10 and 11, n series-connected current sources 12. In the combined power amplifier, the phase inverter 1 is connected in series with the first adder 2, as well as with the rectifier 3, the input which is connected to the input of the phase inverter 1 and is the input of the power amplifier. Analog-to-digital converter 4 is connected in series with the decoder 5. The control inputs of the n controlled keys 6 are connected to the outputs of the decoder 5. The outputs of two linear monopole amplifiers 10 and 11, connected via a half-bridge circuit, are connected to the load 8. Source 7 of the power supply consists of n series-connected current sources 12, the corresponding output of the first power source 12 is connected to the common power supply bus, and the output of each current source is connected via the corresponding control switch 6 to the power supply terminal linear unipolar amplifiers. The input of the first linear unipolar amplifier 11 is connected to the output of the first adder 2, the input of the second linear unipolar amplifier 10 to the connection point of the first input of the second adder 9 with another. the input of the first adder 2 and the output of the rectifier 3, and the output of the phase inverter 1 is connected to the second input of the second adder 9. The power amplifier works as follows. The amplified voltage is fed to the inputs of phase inverter 1 and rectifier 3. The output voltage of phase inverter 1, summed at the output of the first adder 2 with the output voltage of the rectifier 3, goes to the input of the first linear unipolar amplifier 11, and the output voltage of the rectifier 3 is fed to the input of the second linear unipolar amplifier 10. The output voltages of the linear unipolar amplifiers are amplified and subtracted at the load 8. At the output of the second adder 9, a voltage is formed that is proportional to the sum of the voltages A phase inverter 1 and rectifier 3. This voltage in analog-to-digital converter 4 is converted into a binary code, and then restored in decoder 5 as a code. One of p. controls the amplitude of the input voltage signal to be amplified. n controllable switches in such a way that the power supply of linear unipolar amplifiers is changed simultaneously and in steps by connecting a certain number of current sources 12. Due to the fact that step adjustment affects only the power supply circuits of the output stages (10, 11) whose phase and amplitude characteristics are identical, along with high efficiency, a reduction in nonlinear distortion is achieved.

Claims (1)

A POWER AMPLIFIER comprising a series-connected phase inverter and a first adder, as well as a rectifier, the input of which is connected to the input of the phase inverter and is the input of a power amplifier, and series-connected analog-to-digital converter and decoder, the outputs of which are connected to the control inputs of ri keys, power supply and load , characterized in that, in order to reduce non-linear distortions, a second adder and two linear unipolar amplifiers, the outputs of which are connected to the power source consists of series-connected current sources, with the corresponding output of the first current source connected to a common bus, and the output of each current source connected via an appropriate key to the power output of linear unipolar amplifiers, the input of the first linear unipolar amplifier connected to the output of the first adder, the input of the second linear unipolar amplifier is connected to the first input of the second adder, with another input of the first adder and the output of the rectifier, and in stroke reflex coupled to a second input of the second adder. 1177880. 2