CN205092963U - Modified audio circuit - Google Patents

Abstract

The utility model provides a modified audio circuit, it includes: a microphone bias circuit of offset voltage is provided, the microphone circuit, it is received audio signal and produces the reflection audio signal's current signal is through its output reflection audio signal's current signal, connect the response resistance between the output of offset voltage and microphone circuit, gain amplifier able to programme, its first input end links to each other with the one end of response resistance, and the second input links to each other with the other end of response resistance, adc, its input links to each other with gain amplifier's able to programme output, filter module, its input links to each other with gain amplifier's able to programme output, digital signal processor, its input links to each other with the input of wave filter. The utility model provides an audio circuit need not set up external blocking capacitance and carry out the high -pass filtering, but carries out the high -pass filtering at the numerical portion, can reduce the pin of chip like this, reduce cost.

Description

The voicefrequency circuit improved

[technical field]

The utility model relates to voicefrequency circuit, the voicefrequency circuit of particularly a kind of improvement.

[background technology]

Fig. 1 is the circuit diagram of existing voicefrequency circuit.Described voicefrequency circuit comprises microphone bias circuit (MicrophoneBias), inductive reactance R1, microphone circuit (Microphone), electric capacity C1, C2, programmable gain amplifier PGA, analog to digital converter ADC, low pass filter, digital signal processor (DSP).In prior art, general microphone bias circuit, programmable gain amplifier, analog to digital converter, low pass filter, digital signal processor are all be integrated in a chip, and microphone, inductive reactance R1, electric capacity C1, C2 are chip periphery device, be electrically connected on a printed circuit.Chip in existing scheme at least needs three chip pins: VMB, MICP, MICN, and chip pin is more, and chip package is larger, is unfavorable for miniaturization.In bluetooth earphone, wearable device, wish that system schema is the smaller the better, less, easily carry and dress.In addition, extra peripheral components too increases system cost.In prior art, microphone bias circuit produces bias voltage, such as 1.8V.General employing powered battery, is converted into 1.8V by cell voltage, and namely VMB voltage is 1.8V.Microphone circuit produces the pull-down current of reaction voice signal according to the sound collected, this pull-down current coating-forming voltage on inductive reactance R1 falls.Namely the sound variation that the voltage drop on inductive reactance R1 collects along with microphone and changing.

Capacitance C1, C2 filtering low-frequency noise.The characteristic of electric capacity is passed through for allowing high-frequency signal, intercepts low frequency signal, is equivalent to a high pass filter.The corner frequency of this high pass filter is determined by the capacitance of capacitance C1 and C2 and the input impedance of programmable gain amplifier (PGA).The capacitance of such as capacitance C1 and C2 is C, the input impedance of programmable gain amplifier (PGA) is R, then the corner frequency of high pass filter is Ft=1/ (2 π .R.C), namely the signal higher than Ft frequency can pass through, and the signal (comprising low-frequency noise) lower than Ft frequency is blocked.After electric capacity C1, C2, audio signal is amplified by programmable gain amplifier, then digital signal is become through analog to digital converter, then by wave digital lowpass filter, filter away high frequency noise, last digital signal processor realizes various algorithm operating, such as recording or speech recognition etc.

Therefore be necessary to provide a kind of new solution to solve the problems referred to above.

[utility model content]

The purpose of this utility model is to provide a kind of voicefrequency circuit, and it does not need external capacitance to carry out high-pass filtering, thus decreases the pin of chip, reduces cost.

For achieving the above object, the utility model provides a kind of voicefrequency circuit, and it comprises: microphone bias circuit, and it provides bias voltage; Microphone circuit, its received audio signal produces the current signal of the described audio signal of reflection, and exports the current signal of the described audio signal of reflection by its output; Be connected to the inductive reactance between bias voltage and the output of microphone circuit; Programmable gain amplifier, it comprises first input end, the second input and output, and first input end is connected with one end of inductive reactance, and the second input is connected with the other end of inductive reactance; Analog to digital converter, its input is connected with the output of programmable gain amplifier; Filtration module, its input is connected with the output of programmable gain amplifier; Digital signal processor, its input is connected with the input of filter.

Further, described filtration module is band pass filter, and frequency can pass through described band pass filter higher than the signal of the first corner frequency and frequency lower than the signal of the second corner frequency.

Further, described filtration module is low pass filter and high pass filter, and the input of low pass filter is connected with the output of described analog to digital converter, and this low pass filter can make frequency can pass through lower than the signal of the second corner frequency; The input of high pass filter is connected with the output of low pass filter, and this high pass filter can make frequency higher than the signal of the first corner frequency.

Further, microphone bias circuit, programmable gain amplifier, analog to digital converter, filtration module and digital signal processor are integrated in same chip; Or microphone bias circuit, inductive reactance, programmable gain amplifier, analog to digital converter, filtration module and digital signal processor are integrated in same chip.

Further, after described chip production completes, in test screen link by measuring the value of described inductive reactance, comparing carry out trimming calibration with desired value, calibration adopts fuse to trim mode or laser trimming mode.

Further, the signal of described programmable gain amplifier to input carries out gain amplification, and its amplifying signal comprises low-frequency noise and high-frequency noise; The signal of described analog to digital converter to input carries out analog-to-digital conversion.

Compared with prior art, the voicefrequency circuit in the utility model, does not need to arrange external capacitance and carries out high-pass filtering, but carry out high-pass filtering at numerical portion, can reduce the pin of chip like this, reduce costs.

[accompanying drawing explanation]

In conjunction with reference accompanying drawing and ensuing detailed description, the utility model will be easier to understand, the structure member that wherein same Reference numeral is corresponding same, wherein:

Fig. 1 is the circuit diagram of existing voicefrequency circuit;

Fig. 2 is the circuit diagram during first of voicefrequency circuit in the utility model is implemented;

Fig. 3 is the circuit diagram during second of voicefrequency circuit in the utility model is implemented.

[embodiment]

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in further detail the utility model below in conjunction with the drawings and specific embodiments.

Alleged herein " embodiment " or " embodiment " refers to that the special characteristic relevant to described embodiment, structure or characteristic at least can be contained at least one implementation of the utility model.Different local in this manual " in one embodiment " occurred be non-essential all refers to same embodiment, must not be yet with other embodiments mutually exclusive separately or select embodiment." multiple ", " some " in the utility model represent two or more."and/or" in the utility model represents " with " or "or".

Fig. 2 is the circuit diagram during first of voicefrequency circuit 200 in the utility model is implemented.As shown in Figure 2, described voicefrequency circuit 200 comprises microphone bias circuit (MicrophoneBias) 210, inductive reactance R2, microphone circuit (Microphone) 220, programmable gain amplifier PGA230, analog to digital converter ADC240, low pass filter 250, high pass filter 260 and digital signal processor (DSP) 270.

Described microphone bias circuit 210 produces bias voltage, such as 1.8V.General employing powered battery, is converted into 1.8V by cell voltage, and namely MICP voltage is 1.8V.Microphone circuit 220 produces the pull-down current of reaction audio signal according to the audio signal collected, this pull-down current coating-forming voltage on inductive reactance R2 falls.Namely the voltage drop on inductive reactance R2 changes along with the audio signal that microphone collects and changes.

The first input end of described programmable gain amplifier 230 is connected with one end of inductive reactance R2, and the second input is connected with the other end of inductive reactance R2.Described programmable gain amplifier carries out gain amplification to the pressure drop signal on inductive reactance R2, exports the simulated audio signal VA after amplifying.Now, the low frequency signal while of described programmable gain amplifier 230 meeting in amplify analog audio signals and high-frequency signal.

The input of described analog to digital converter 240 is connected with the output of described programmable gain amplifier 230.The simulated audio signal VA of described analog to digital converter 240 to input carries out analog-to-digital conversion and obtains digital audio and video signals VD.

The input of described low pass filter 250 is connected with the output of described analog to digital converter 240.Described low pass filter 250 carries out low-pass filtering to described digital audio and video signals VD, with filter away high frequency noise, namely filters out the signal of more than its corner frequency, by its corner frequency signal once, obtains the digital audio and video signals VL after low-pass filtering.

The input of described high pass filter 260 is connected with the output of described low pass filter 250.Described high pass filter 260 carries out high-pass filtering to described signal VL, with filtering low-frequency noise, namely filters out the signal of below its corner frequency, by signal more than its corner frequency, obtains comparatively clean digital audio and video signals VS.Described digital signal processor 270 carries out various algorithm operating, such as phonetic storage, speech recognition, speech coding etc.

High pass filter 260 in the utility model is numeral, and it is designed to the corner frequency Ft identical with prior art, to realize similar filter effect, intercepts the noise signal of below corner frequency, namely makes the signal of frequency more than corner frequency pass through.In one embodiment, microphone bias circuit 210, programmable gain amplifier 230, analog to digital converter 240, low pass filter 250, high pass filter 260, digital signal processor 270 are integrated in same chip, only need two chip pins MICP, MICN in such the utility model, save a pin than prior art.In another embodiment, inductive reactance R2 is also integrated in chip, only can need 1 chip pin MICN like this, chip pin can be saved further, because resistance absolute value precision general in chip is poor, integrated inductive reactance R2 needs to calibrate, can after chip production completes, in test screen link by measuring the value of inductive reactance R2, compare with desired value and carry out trimming calibration, calibration can adopt fuse to trim mode, also can adopt laser trimming mode, and inductive reactance R2 is trimmed desired value accurately.

Fig. 3 is the circuit diagram during second of voicefrequency circuit 300 in the utility model is implemented.As shown in Figure 3, described voicefrequency circuit 300 comprises microphone bias circuit (MicrophoneBias) 310, inductive reactance R3, microphone circuit (Microphone) 320, programmable gain amplifier PGA330, analog to digital converter ADC340, band pass filter 360 and digital signal processor (DSP) 370.Compared with the voicefrequency circuit 200 in Fig. 2, original low pass filter and the combination of high pass filter is instead of with band pass filter 360 in described voicefrequency circuit 300, described band pass filter 360 can carry out bandpass filtering to digital audio and video signals VA, namely frequency can pass through described band pass filter 360 higher than the signal of the first corner frequency and frequency lower than the signal of the second corner frequency, thus high-frequency noise directly in filtering digital audio and video signals VA and low-frequency noise.The high pass corner frequency Ft identical with prior art that in the utility model, the first corner frequency of digital band-pass filter can design, to realize similar filter effect, intercepts the noise signal of below corner frequency Ft.

In one embodiment, microphone bias circuit 310, programmable gain amplifier 330, analog to digital converter 340, band pass filter 360, digital signal processor 370 are integrated in same chip, only need two chip pins MICP, MICN in such the utility model, save a pin than prior art.In another embodiment, described inductive reactance R3 is also integrated in chip, only can need 1 chip pin MICN like this, chip pin can be saved further, because resistance absolute value precision general in chip is poor, integrated inductive reactance R3 needs to calibrate, can after chip production completes, in test screen link by measuring the value of inductive reactance R3, compare with desired value and carry out trimming calibration, calibration can adopt fuse to trim mode, also can adopt laser trimming mode, and inductive reactance R3 is trimmed desired value accurately.

Above-mentioned explanation fully discloses embodiment of the present utility model.It is pointed out that the scope be familiar with person skilled in art and any change that embodiment of the present utility model is done all do not departed to claims of the present utility model.Correspondingly, the scope of claim of the present utility model is also not limited only to described embodiment.

Claims (6)

1. a voicefrequency circuit, is characterized in that, it comprises:

Microphone bias circuit, it provides bias voltage;

Microphone circuit, its received audio signal produces the current signal of the described audio signal of reflection, and exports the current signal of the described audio signal of reflection by its output;

Be connected to the inductive reactance between bias voltage and the output of microphone circuit;

Programmable gain amplifier, it comprises first input end, the second input and output, and first input end is connected with one end of inductive reactance, and the second input is connected with the other end of inductive reactance;

Analog to digital converter, its input is connected with the output of programmable gain amplifier;

Filtration module, its input is connected with the output of programmable gain amplifier;

Digital signal processor, its input is connected with the input of filter.

2. voicefrequency circuit according to claim 1, is characterized in that, described filtration module is band pass filter, and frequency can pass through described band pass filter higher than the signal of the first corner frequency and frequency lower than the signal of the second corner frequency.

3. voicefrequency circuit according to claim 1, is characterized in that, described filtration module is low pass filter and high pass filter,

The input of low pass filter is connected with the output of described analog to digital converter, and this low pass filter can make frequency can pass through lower than the signal of the second corner frequency;

The input of high pass filter is connected with the output of low pass filter, and this high pass filter can make frequency higher than the signal of the first corner frequency.

4. voicefrequency circuit according to claim 1, is characterized in that,

Microphone bias circuit, programmable gain amplifier, analog to digital converter, filtration module and digital signal processor are integrated in same chip; Or

Microphone bias circuit, inductive reactance, programmable gain amplifier, analog to digital converter, filtration module and digital signal processor are integrated in same chip.

5. voicefrequency circuit according to claim 4, it is characterized in that, after described chip production completes, in test screen link by measuring the value of described inductive reactance, compare with desired value and carry out trimming calibration, calibration adopts fuse to trim mode or laser trimming mode.

6. voicefrequency circuit according to claim 1, is characterized in that, the signal of described programmable gain amplifier to input carries out gain amplification, and its amplifying signal comprises low-frequency noise and high-frequency noise; The signal of described analog to digital converter to input carries out analog-to-digital conversion.