SU1164863A1 - Low-frequency amplifier - Google Patents

Abstract

LOW-FREQUENCY AMPLIFIER containing the first differential amplifier, the output of which is connected in series with a communication element and loudspeaker, as well as a second differential amplifier, the output and common of which are respectively connected to the inverting input and the output of the first differential amplifier and the inverting input of the second differential amplifier is connected to The first terminals of the first and second resistors, characterized in that, in order to reduce non-linear distortions, the junction point of the speaker and loudspeaker through the input RC-high-pass filter connected to non-inverting the input of the second differential amplifier, the second terminals of the first and second resistors are connected through the same number of series-connected capacitors to the inverting input and output of the first differential amplifier, and the number of capacitors is equal to the order of the upper KS filter frequencies, and the connection points of the capacitors connected in series with the first resistor are connected to the corresponding points "Compound of capacitors connected in series with a second resistor, via an additional resistor. I

Description

The invention relates to electroacoustics, namely to amplifiers covered by feedback for voltage and load current, which is a dynamic loudspeaker. The purpose of the invention is to reduce non-linear distortions. The drawing shows a circuit diagram of a low frequency amplifier. The low-frequency amplifier contains the first differential amplifier (RC) 1 s. internal constant-current mode stabilization circuits,; loudspeaker 2, element 3, RS high-pass filter 4, the first resistor 5, the second resistor 6, capacitors 7, additional resistors 8 and the second remote control 9. The amplifier works as follows. From the source, the signal is fed to the inverting input of the first remote control 1, amplified from its output through the first and second resistors 5 and 6, capacitors 7 and additional resistors 8 as a feedback signal with a shifted phase is fed back to the inverting input of the first remote control 1. A positive current feedback signal flowing through loudspeaker 2 from element 3 is fed to the input of RC filter 4, corrected last, acquiring a phase shift, and from the output of RC filter 4 is fed back through the positive feedback circuit 1. When the voice coil of the loudspeaker 2 is inhibited, the phase shifts acquired by the negative and positive feedback signals are the same, and the corresponding selection of the values of the actual gain K and the complex transmission coefficients K - and k causes the input Remote control 1 turns out to be a signal that is exactly equal to the signal reduced by K times at the output of the first remote control 1, i.e. 100% positive feedback in a wide frequency band. In the loudspeaker voice coil oscillating mode; 2, the positive feedback is shorter; the frequency response for the ratio of the oscillatory velocity to the unit voltage of the signal at the input of the first remote control 1 exactly repeats the tilted frequency response of the RC filter 4. By selecting the latter, you can correct various frequency characteristics of the active component of the radiation resistance, which depend on the size and design of the loudspeaker, while the forced increase in the number of links of the RC filter .a 4 does not lead to unbalance signals of positive and negative feedback and the resulting increase in frequency and nonlinear distortion.

Claims (1)

A LOW FREQUENCY AMPLIFIER containing a first differential amplifier, the output of which is connected in series to a communication element and a loudspeaker, as well as a second differential amplifier, the output and common output of which are respectively connected to the inverting input and output of the first differential amplifier, inverting the input of the second differential outputs of the first and a second resistor, characterized in that, in order to reduce non-linear distortion, the connection point of the communication element and loudspeaker through The given high-pass RC filter is connected to the non-inverting input of the second differential amplifier, the second outputs of the first and second resistors are connected via the same number of series-connected capacitors to the inverting input and output of the first differential amplifier, the number of capacitors being equal to the order of the high-pass RC filter, and the connection points of the capacitors connected in series with the first resistor are connected to the corresponding connection points of the capacitors connected to consequently with the second resistor .. SUU 164863