CN101489165A - Audio frequency compensation apparatus - Google Patents

Abstract

An audio compensating device comprises a left input end and a right input end which are respectively used for receiving a left channel sound input signal and a right channel sound input signal that are output by a player. The audio compensating device also comprises a left output end and a right output end which are respectively used for outputting the left channel sound input signal and the right channel sound input signal to an earphone. The audio compensating device further comprises a frequency compensating unit. The frequency compensating unit is coupled between the left and right input ends and the left and right output ends, is used for selecting the low range component of left and right channel sound input signals which are input from the left input end and the right input end, and crossly couples the low range component to the left and right channel sound input signals after amplifying and adjusting amplitude. The audio compensating device can improve the bass effect of sound output from the earphone and can be realized with a simple analog circuit.

Description

Audio frequency compensation apparatus

Technical field

The present invention relates to a kind of audio frequency compensation apparatus, relate in particular to a kind of audio frequency compensation apparatus with bass compensation.

Background technology

Along with the development of Audiotechnica, audio player is more and more used in life.So, when using the bad earphone of bass domain response to carry out playback, the low range composition of audio player output sound can not fully be play on earphone, causes the bass effect of player output sound relatively poor.

Open day is on November 6th, 1996, and publication number is that the Chinese patent of CN1135120 has disclosed a kind of bass bossting circuit.This circuit adopts low pass filter to extract reproduction range following low range composition in earphone bass territory in the audio input signal, produce the even-order harmonic of above-mentioned low range composition through full-wave rectification, extract 2 subharmonic in this even-order harmonic, be added on the audio input signal after it is amplified to suitable level.So, the low range composition of the left and right acoustic channels audio input signal that the low-pass filter circuit of this bass bossting circuit is chosen can not be adjusted, and causes the bass effect of earphone output sound not ideal enough.

Based on above problem, the invention provides a kind of audio frequency compensation apparatus, can adjust the low range composition of the output sound chosen, improve the bass effect of earphone output sound.

Summary of the invention

A kind of audio frequency compensation apparatus, comprise that a left input and a right input are used for receiving respectively a L channel audio input signal and a right channel sound input signal of player output, an one left output and a right output are used for exporting respectively described left and right sound channels audio input signal, one frequency compensation unit, described frequency compensation unit comprises one first second-order low-pass filter circuit, one first capacitance, one the 3rd potentiometer, one second second-order low-pass filter circuit, one second capacitance and one the 4th potentiometer.The described first second-order low-pass filter circuit, first capacitance and the 3rd potentiometer are connected in series between described right input and the described left output successively; The described second second-order low-pass filter circuit, second capacitance and the 4th potentiometer are connected in series between described left input and the described right output successively.The described first second-order low-pass filter circuit comprises one first potentiometer, one first operational amplifier, described first potentiometer has one and adjusts the in-phase input end that end is connected in described first amplifier, regulate the low range composition of this adjustment end with the right channel sound input signal that changes the described first second-order low-pass filter circuit and choose, cross-couplings is to described L channel audio input signal with its amplification and after adjusting amplitude.The described second second-order low-pass filter circuit comprises one second potentiometer, one second operational amplifier, described second potentiometer has one and adjusts the in-phase input end that end is connected in described second amplifier, regulate the low range composition of this adjustment end with the L channel audio input signal that changes the described second second-order low-pass filter circuit and choose, cross-couplings is to described right channel sound input signal with its amplification and after adjusting amplitude.

The present invention's advantage is that above-mentioned audio frequency compensation apparatus can be adjusted the low range composition of choosing, thereby improves the bass effect of earphone output sound.

Description of drawings

Fig. 1 is positioned at the schematic diagram of player for audio frequency compensation apparatus of the present invention.

Fig. 2 is the circuit diagram of audio frequency compensation apparatus one execution mode of the present invention.

Fig. 3 is connected in schematic diagram between player and the earphone for audio frequency compensation apparatus of the present invention as a standalone module.

Fig. 4 is positioned at the schematic diagram of earphone inside for audio frequency compensation apparatus of the present invention.

Embodiment

See also Fig. 1.The present invention's audio frequency compensation apparatus 1 places player 2 inside.Described player comprises that further an audio output interface 21 is used to connect an earphone 3.The audio signal of described player 2 outputs is carried out audio compensation through described audio frequency compensation apparatus 1, inputs to described earphone 3 through described audio output interface 21 then and plays.

See also Fig. 2, Fig. 2 is the circuit diagram of audio frequency compensation apparatus one execution mode of the present invention.Described audio frequency compensation apparatus 1 comprises a right input 11, is used to receive a right channel sound input signal S1; One left input 12 is used to receive a L channel audio input signal S2; One right output 13 is used to export described right channel sound input signal S1; And a left output 14, be used to export described L channel audio input signal S2.Described audio frequency compensation apparatus 1 also comprises a frequency compensation unit 10.Described frequency compensation unit 10 is coupled between described input 11,12 and the output 13,14, be used to choose the low range composition of the L channel audio input signal S2 that described right channel sound input signal S1 that described right input 11 receives and left input 12 receive, after described low range composition is carried out corresponding amplification and adjusts amplitude respectively cross-couplings to the described L channel audio input signal S2 of the described right channel sound input signal S1 of described right output 13 outputs and 14 outputs of left output.

Described frequency compensation unit 10 comprises one first second-order low-pass filter circuit, 15, one first capacitance C3, one the 3rd potentiometer SW3; One second second-order low-pass filter circuit, 16, one second capacitance C6, one the 4th potentiometer SW4.The input of the described first second-order low-pass filter circuit 15 is electrically connected on described right input 11, and its output is electrically connected and the described first capacitance C3, one end.The other end of described capacitance C3 is electrically connected on the input of described the 3rd potentiometer SW3, the output head grounding of described the 3rd potentiometer SW3, and it adjusts the left output 14 that end 17 is electrically connected on described audio frequency compensation apparatus 1.Described right channel sound input signal S1 chooses low range composition and processing and amplifying through the described first second-order low-pass filter circuit 15, and, after carrying out the amplitude adjustment, described the 3rd potentiometer SW3 obtains a right low range voice signal S1 ' then through described first capacitance C3 inhibition direct current signal.The described adjustment end 17 of described the 3rd potentiometer SW3 is coupled to the described L channel audio input signal S2 of described left output 14 outputs with the low range voice signal S1 ' in the described right side, and obtaining a coupling voice signal S2+S1 ', the output sound signal output of voice signal S2+S1 ' as left output 14 will be coupled.In different execution modes, can adjust the adjustment end 17 of described the 3rd potentiometer SW3 by an outer adjusting knob (figure does not show) of being located on the player 2, thereby change the amplitude size of the low range voice signal S1 ' in the described right side, make its amplitude ripple consistent with described L channel audio input signal S2.

Equally, the input of the described second second-order low-pass filter circuit 16 is electrically connected on described right input 12, and its output is electrically connected and the described second capacitance C6, one end.The other end of described capacitance C6 is electrically connected the input with described the 4th potentiometer SW4, the output head grounding of described the 4th potentiometer SW4, and it adjusts the right output 13 that end 18 is electrically connected on described audio frequency compensation apparatus 1.Described L channel audio input signal S2 chooses low range composition and processing and amplifying through the described second second-order low-pass filter circuit 16, and, carry out the amplitude adjustment through described the 4th potentiometer SW4 then and handle and obtain the low range voice signal S2 ' in a left side through described second capacitance C6 inhibition direct current signal.The described adjustment end 18 of described the 4th potentiometer SW4 is coupled to the described right channel sound input signal S1 of described right output 13 outputs with the low range voice signal S2 ' in a described left side, and obtaining a coupling voice signal S1+S2 ', the output sound signal output of voice signal S1+S2 ' as described right output 13 will be coupled.Equally, the adjustment end 18 of described the 4th potentiometer SW4 can also be adjusted by an outer adjusting knob (figure does not show) of being located on the player 2, thereby change the amplitude size of the low range voice signal S2 ' in a described left side, make its amplitude consistent with the described right channel sound input signal of described right output 13 outputs.

The described first second-order low-pass filter circuit 15 further comprises resistance R 1, R2 and R3, one first potentiometer SW1, capacitor C 1, C2, one first operational amplifier U1.Described resistance R 1 and the described first potentiometer SW1 are series between the in-phase input end of described right input 11 and the described first operational amplifier U1; Wherein, the adjustment end of the described first potentiometer SW1 is electrically connected on the in-phase input end of the described first operational amplifier U1.Described resistance R 2 is connected between the end of oppisite phase and ground of the described first operational amplifier U1, and described resistance R 3 is connected between the input and end of oppisite phase of the described first operational amplifier U1, and realizes the negative feedback of described operational amplifier U1 with described resistance R 2.Described capacitor C 1, C2, the resistance R 1 and the first potentiometer SW1 form secondary RC filtering link, and wherein said capacitor C 1 is electrically connected on the output of described operational amplifier U1, is used to introduce an amount of positive feedback to improve amplitude-frequency characteristic; Described capacitor C 2 is electrically connected between the in-phase input end and ground of the described first operational amplifier U1.The described first potentiometer SW1 can adjust it by an outer adjusting knob (figure does not show) of being located on the player 2 and adjust end, with the frequency characteristic of the low range voice signal in the described right side that changes described secondary RC filtering link output.

The described second second-order low-pass filter circuit 16 further comprises resistance R 4, R5 and R6, one second potentiometer SW2, capacitor C 4, C5, one second operational amplifier U2.Described resistance R 4 and the described second potentiometer SW2 are series between the in-phase input end of described left input 12 and the described second operational amplifier U2; Wherein, the adjustment end of the described second potentiometer SW2 is electrically connected on the in-phase input end of the described second operational amplifier U2.Described resistance R 5 is connected between the end of oppisite phase and ground of the described second operational amplifier U2, and described resistance R 6 is connected between the input and end of oppisite phase of the described second operational amplifier U2, and realizes the negative feedback of described operational amplifier U1 with described resistance R 5.Described capacitor C 4, C5, the resistance R 4 and the second potentiometer SW2 form secondary RC filtering link, and wherein said capacitor C 4 is electrically connected on the output of described operational amplifier U2, is used to introduce an amount of positive feedback to improve amplitude-frequency characteristic; Described capacitor C 5 is electrically connected between the in-phase input end and ground of the described first operational amplifier U1.The described second potentiometer SW2 can adjust it by an outer adjusting knob (figure does not show) of being located on the player 2 and adjust end, with the frequency characteristic of the low range voice signal in a described left side that changes described secondary RC filtering link output.

Described right channel sound input signal S1 imports the described first second-order low-pass filter circuit 15, after described secondary RC filtering link is chosen low range composition and is amplified by the described first operational amplifier U1, by the first capacitance C3 filtering flip-flop, and carry out the amplitude adjustment through described the 3rd potentiometer SW3 and obtain a right low range voice signal S1 ', the low range voice signal S1 ' in the described right side is at the described L channel audio input signal S2 of described left output 14 couplings, so described left output 14 outputs one coupling voice signal S2+S1 '.

Equally, described L channel audio input signal S2 obtains the low range voice signal S2 ' in a left side after described second low-pass filter circuit 16, the second capacitance C6 and the 4th potentiometer SW4 handle, the low range voice signal S2 ' in a described left side is in described right output 13 and the right channel sound input signal S1 of institute coupling, so described right output 13 outputs one coupling voice signal S1+S2 '.

See also Fig. 3 and 4.Fig. 3 is connected in schematic diagram between player and the earphone for audio frequency compensation apparatus of the present invention as a standalone module.Described audio frequency compensation apparatus 1 is one to be connected in the standalone module between player 2 ' and the earphone 3.Described player 2 ' is connected in described frequency compensation device 1 by an audio output interface 21, and described audio frequency compensation apparatus 1 connects an earphone 3.The left and right sound channels audio input signal of player 2 ' output inputs to after described audio frequency compensation apparatus 1 carries out audio compensation through described audio output interface 21, output one coupling voice signal.Described earphone 3 is play this coupling voice signal.Fig. 4 is positioned at the schematic diagram of earphone inside for audio frequency compensation apparatus of the present invention.Audio frequency compensation apparatus 1 of the present invention places an earphone 3 ' inside.Described earphone 3 also comprises an earphone body 31.Described player 2 ' is via described audio interface 21 output one L channel voice signal and right channel sound signals, described earphone 3 ' receives described left and right sound channels voice signal, described audio frequency compensation apparatus 1 is handled described left and right sound channels voice signal and is exported a cross-couplings voice signal, and described earphone body 31 is exported described cross-couplings voice signal.In Fig. 3 and Fig. 4, the audio compensation method of described audio frequency compensation apparatus 1 is identical with Fig. 1, so repeat no more.

In sum, obtain coupling voice signal S1+S2 ' and S2+S1 ' respectively via described right output 13 and described left output 14.

Therefore, adopt with upper type, audio frequency compensation apparatus can carry out bass compensation to the voice signal of player output, and the bass part of the voice signal of player output is strengthened, and strengthens bass effect, thereby obtains a stereo output.

Claims (4)

1. [claim 1] a kind of audio frequency compensation apparatus, comprise that a left input and a right input are used for receiving respectively a L channel audio input signal and a right channel sound input signal, an one left output and a right output are used for exporting respectively a described left side, the right channel sound input signal, one frequency compensation unit, described frequency compensation unit comprises one first second-order low-pass filter circuit, one first capacitance, one second second-order low-pass filter circuit and one second capacitance, the described first second-order low-pass filter circuit and first capacitance are connected in series between described right input and the described left output; The described second second-order low-pass filter circuit and second capacitance are connected in series between described left input and the described right output, it is characterized in that, the described first second-order low-pass filter circuit comprises one first potentiometer, one first operational amplifier, described first potentiometer has one and adjusts the in-phase input end that end is connected in described first operational amplifier, regulates right the hang down range voice signal of this adjustments end with the described right channel sound input signal that changes the described first second-order low-pass filter circuit and choose; The described second second-order low-pass filter circuit comprises one second potentiometer, one second operational amplifier, described second potentiometer has one and adjusts the in-phase input end that end is connected in described second operational amplifier, regulates this adjustments end and hangs down the range voice signal with a left side of the described L channel audio input signal that changes the described second second-order low-pass filter circuit and choose.
2. [claim 2] audio frequency compensation apparatus as claimed in claim 1, it is characterized in that, described frequency compensation unit also comprises one the 3rd potentiometer and one the 4th potentiometer, described the 3rd potentiometer comprises that one adjusts end and is electrically connected on described left output, is used to adjust the amplitude of the low range voice signal in the described right side of described first second-order low-pass filter circuit output; Described the 4th potentiometer comprises that one adjusts end and is electrically connected on described right output, is used to adjust the amplitude of the low range voice signal in a described left side of described second second-order low-pass filter circuit output.
3. [claim 3] audio frequency compensation apparatus as claimed in claim 1 is characterized in that described audio frequency compensation apparatus places in the described player.
4. [claim 4] audio frequency compensation apparatus as claimed in claim 3 is characterized in that described audio frequency compensation apparatus places in the described earphone.

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