CN1568891A - Bioelectricity checking circuit and checking method - Google Patents
Bioelectricity checking circuit and checking method Download PDFInfo
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- CN1568891A CN1568891A CN 200410019083 CN200410019083A CN1568891A CN 1568891 A CN1568891 A CN 1568891A CN 200410019083 CN200410019083 CN 200410019083 CN 200410019083 A CN200410019083 A CN 200410019083A CN 1568891 A CN1568891 A CN 1568891A
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Abstract
The invention discloses a bioelectricity detecting circuit and its detecting method, belongs to the field of bioelectricity detection, in particular to the techniques of bioelectricity measurement applied to medical appliances. The bioelectricity detecting circuit comprises an electrode for collecting bioelectricity signals, an input protection circuit with functions of overvoltage protection and simple filtering, a sigma-delta A/D converter, and an intellectual controller with stored digital frequency spectrum compensation program for performing frequency compensation on the digital signals outputed by the sigma-delta A/D converter, and the components are connected successively by conducting wires. The bioelectricity detecting method comprises steps of bioelectricity signal collection and digital filtering of the collected bioelectricity signals. The bioelectricity detecting circuit of the invention performs frequency compensation on the digital signals by means of digital frequency spectrum compensation program, and avoids the influence of poor frequency response in sigma-delta A/D converters. At the same time, it performs bioelectricity detection by means of the high resolution and high input impedance of sigma-delta A/D converters, and obtains advantages of simple structure, debugging needlessness, and high performance.
Description
Technical field
The present invention relates to the bio electricity detection range, especially be applied in the bioelectric measurement technology on the Medical Instruments.
Background technology
Bioelectric detection has important use and is worth in medical research and clinical diagnosis, existing many bio electricity detecting instruments are widely used clinically, as electrocardiogram machine, electroencephalograph or the like.But because bioelectrical signals is faint, usually have various serious interfering signals again, many people are still in the research of detection method of carrying out bioelectrical signals and circuit.People such as Liu Song have proposed a kind of monitor ecg amplifier (health care equipment the 2nd phase of .1995,3~6), (High-quality recording of bio-electric events.Med. such as A.C.Metting Van Riji; Bio.Eng. ﹠amp; Comput., 1990, (Rapid recovery physiological preamplifier withoutAC coupling capacitor.Med. ﹠amp such as 28:389-397, D.W.McRobbie; Bio.Eng. ﹠amp; Comput., 1990, (I.A.Dotsinsky, et al., Multi-channel DC amplifier for a microprocessor electrocardiograph.Med. ﹠amp such as 28:198-200; Bio.Eng. ﹠amp; Comput., 1991,29:324-329) design of multiple bioelectrical signals detecting amplifier or circuit has been proposed also.Li Gangs etc. have proposed multiple bioelectric amplifier (a kind of design of low-noise preamplifier, Chinese medical apparatus magazine, the 13rd the 1st phase of volume, 1989:18-19; 12 lead the research of D/AC feedback-type ecg signal amplifier, Chinese journal of scientific instrument, the 21st the 5th phase of volume, pp124-126, in October, 2000; High-performance multichannel bioelectric amplifier, University Of Tianjin's journal, the 33rd the 5th phase of volume, in JIUYUE, 2000; High common mode rejection ratio preamplifier, Chinese patent, application number: 02129065.2).
There are problems such as complex structure, manufacturability difference and performance be still not ideal enough in varying degrees in above-mentioned various forms of bioelectric amplifier.Many novel ∑s-Δ pattern number converter has the conversion resolution and 10 up to 24
8The input impedance of Ω and differential input pattern, can be used for the direct collection of faint low frequency signal, speed is slow, the deficiency of frequency response difference but ∑-Δ pattern number converter exists, and often exists more serious distortion when directly adopting the ∑-Δ pattern number converter detection of biological signal of telecommunication.
Summary of the invention
Technical problem to be solved by this invention is, overcome above-mentioned the deficiencies in the prior art, a kind of direct conversion bioelectrical signals and the little bioelectrical detection circuit of distortion are provided, realize that circuit is simple, dynamic range is big, input impedance is high, need not debugging, the no amplifier bioelectrical signals testing circuit of good manufacturability, excellent performance; Another technical problem to be solved by this invention is that biological telecommunications of direct conversion and the little bioelectricity detecting method of distortion are provided.
In order to solve the problems of the technologies described above be; bioelectrical detection circuit of the present invention; it comprises the electrode that is used to gather bioelectrical signals that connects successively by lead, have input protection circuit, the ∑-Δ pattern number converter of overvoltage protection and simple filter function and have the intelligence controlling device of digital spectrum compensation program, and intelligence controlling device is used for the digital signal of ∑-Δ pattern number converter output is carried out frequency compensation.
As a kind of improvement of technique scheme, when described intelligence controlling device moves the digital spectrum compensation program, carry out following steps:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather N data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, is then carried out single compensation to data and is calculated, promptly N data data of collection are carried out Fourier transformation, obtain the frequency spectrum of N data;
C, frequency spectrum and penalty function are multiplied each other;
D, the product that the c step is obtained carry out anti-Fourier transformation, digital signal after being compensated and output.
Another kind as technique scheme improves, and when described intelligence controlling device moves the digital spectrum compensation program, carries out following steps:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1 new data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, then compensates calculating to data, promptly calculate h (i) x (n-1);
Digital signal y (n) after c, read group total obtain being compensated;
D, judge whether to have calculated N data, if judged result is then returned the b step for not;
E, if the judged result of d step is for being to withdraw from.
Described N is 1024.
The described intelligence controlling device that has the digital spectrum compensation program is the CPU microprocessor.
The described intelligence controlling device that has the digital spectrum compensation program is a microcontroller.
The described intelligence controlling device that has the digital spectrum compensation program is a microcomputer.
First kind of bioelectricity detecting method of the present invention comprises and gathers bioelectrical signals and the bioelectrical signals of gathering is carried out filter step, it is characterized in that it is further comprising the steps of:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather N data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, is then carried out single compensation to data and is calculated, promptly N data data of collection are carried out Fourier transformation, obtain the frequency spectrum of N data;
C, frequency spectrum and penalty function are multiplied each other;
D, the product that the c step is obtained carry out anti-Fourier transformation, digital signal after being compensated and output.
Second kind of bioelectricity detecting method of the present invention comprises and gathers bioelectrical signals and the bioelectrical signals of gathering is carried out filter step, it is characterized in that it is further comprising the steps of:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1 new data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, then compensates calculating to data, promptly calculate h (i) x (n-1);
Digital signal y (n) after c, read group total obtain being compensated;
D, judge whether to have calculated N data, if judged result is then returned the b step for not;
E, if the judged result of d step is for being to withdraw from.
Compared with prior art, the present invention has following beneficial effect: 1, bioelectrical detection circuit of the present invention carries out frequency compensation by the digital spectrum compensation program to digital signal, can avoid ∑-Δ pattern number converter frequency response difference influence, the digital signal distortion of output is little; 2, utilize the ∑-high-resolution of Δ pattern number converter, high input impedance detection of biological, directly change bioelectrical signals, realize the bio electricity data acquisition that the no signal conditioning is amplified, thus realized a kind of structure very simply, need not debugging, excellent performance and fabulous bioelectricity detecting method and the circuit of manufacturability.
Description of drawings
Fig. 1 constitutes block diagram for the system of bioelectrical detection circuit of the present invention;
Fig. 2 is the digital spectrum compensation program block diagram of first kind of bioelectricity detecting method of the present invention;
Fig. 3 is the digital spectrum compensation program block diagram of second kind of bioelectricity detecting method of the present invention;
Fig. 4 is the forward and backward same curve chart of spectral characteristic of compensation.
Reference numeral: 1 is electrode, and 2 are the line that leads, and 3 is input protection circuit, and 4 is ∑-Δ pattern number converter, and 5 is the CPU microprocessor.
The specific embodiment
Below in conjunction with accompanying drawing the present invention is elaborated.
The embodiment one of bioelectrical detection circuit of the present invention:
As shown in Figure 1, bioelectrical detection circuit comprises electrode 1, the line 2 that leads, input protection circuit 3, ∑-Δ pattern number converter 4 and intelligence controlling device, and above-mentioned building block by lead successively.Wherein electrode 1 is used to gather bioelectrical signals; input protection circuit 3 has overvoltage protection and simple filter function; ∑-Δ pattern number converter is used for mimic bioelectrical signals is converted to high-resolution digital signal; intelligence controlling device has the digital spectrum compensation program, is used for the digital signal of ∑-Δ pattern number converter output is carried out frequency compensation.Intelligence controlling device in the present embodiment is a CPU microprocessor 5.During operation digital spectrum compensation program, CPU microprocessor 5 is carried out following steps:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1024 data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, is then carried out single compensation to data and is calculated, promptly N data data of collection are carried out Fourier transformation, obtain the frequency spectrum of N data;
C, frequency spectrum and penalty function are multiplied each other;
D, the product that the c step is obtained carry out anti-Fourier transformation, digital signal and output after obtaining repaying in fact.
The embodiment two of bioelectrical detection circuit of the present invention:
Compare with the embodiment one of bioelectrical detection circuit of the present invention, difference only is with microcontroller replaced C PU microprocessor 5 as intelligence controlling device.
The embodiment three of bioelectrical detection circuit of the present invention:
Compare with the embodiment one of bioelectrical detection circuit of the present invention, difference only is with microcomputer replaced C PU microprocessor 5 as intelligence controlling device.
Bioelectrical signals is by the electrode and the input of leading; be input to ∑-Δ pattern number converter again through input protection circuit; by ∑-Δ pattern number converter mimic bioelectrical signals is converted to high-resolution digital signal; by the digital signal filter device is the digital spectrum compensation program; bioelectrical signals is carried out frequency compensation, obtain bioelectrical signals certain bandwidth, that passband response is smooth at last.
Operation principle of the present invention is as follows; the collection of signal is finished by one group of bioelectrode; what it was gathered is bioelectrical signals; signal is transferred to by the line that leads and is input protection circuit; the effect of input protection circuit is to prevent too high voltage to damage circuit and carry out simple filtering; then signal converts high-resolution digital signal to by ∑-Δ pattern number converter; this digital signal passes through intelligence controlling device; as the CPU microprocessor; the digital spectrum compensation program of storage in microcontroller or the microcomputer; carrying out digital signal filter handles; according to the Frequency Response of ∑-Δ pattern number converter and the signal response characteristic that requires bioelectrical signals is carried out frequency compensation; obtain certain bandwidth at last; the bioelectrical signals that passband response is smooth is seen Fig. 4.
Combination of the present invention and give full play to the characteristics of ∑-Δ pattern number converter and digital filter, realized a kind of direct conversion bioelectrical signals and little bioelectrical detection circuit and the method thereof of distortion, realize that circuit is simple, dynamic range is big, input impedance is high, need not debugging, the no amplifier bioelectrical signals testing circuit of good manufacturability, excellent performance.Can realize integrated, the digitized and the self adaptationization of bioelectrical signals detection system.
The embodiment of first kind of bioelectricity detecting method of the present invention:
The digital spectrum compensation program block diagram of a kind of bioelectricity detecting method of the present invention shown in Figure 2 is according to SINC
3The amplitude-frequency characteristic of wave filter uses the FFT method directly to compensate at frequency domain, calculates its inverse-Fourier transform then, the data after being compensated.Per 1024 electrocardiogram (ECG) datas are divided into one section, are made as x (n), it is 1024 FFT, the result is X (k).Transfer function with ∑-Δ ADC (is SINC
3The amplitude-frequency characteristic of wave filter) structure frequency domain compensation function H (k) (is SINC
3The product of the amplitude-frequency characteristic of wave filter and penalty function H (k) is smooth in passband), then the signal y (n) after the compensation is:
y(n)=IFFT(X(k)×H(k))=IFFT(FFT(x(n))×H(k))
In the formula: IFFT is anti-fast Fourier transform (FFT), and x (n) is the signal that ∑-Δ ADC obtains, and X (k) is the frequency spectrum of x (n), and H (k) is that the transfer function of ∑-Δ ADC (is SINC
3The amplitude-frequency characteristic of wave filter).The computer stream machine journey figure that realizes following formula sees Fig. 2.
Microprocessor collects 1024 laggard capable single compensations calculating of data whenever: calculate the frequency spectrum (calculating FFT) of 1024 data that newly collect earlier, frequency spectrum and penalty function are multiplied each other again, at last product is made IFFT, 1024 data after being compensated.Also can be whenever to collect 512,2048 or 4096 laggard capable single compensations of data to calculate.Fig. 4 is the forward and backward same curve chart of spectral characteristic of compensation.
In the present embodiment, bioelectricity detecting method comprises gathers bioelectrical signals and the bioelectrical signals of gathering is carried out filter step, further comprising the steps of:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1024 data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, is then carried out single compensation to data and is calculated, promptly 1024 data data of collection are carried out Fourier transformation, obtain the frequency spectrum of N data;
C, frequency spectrum and penalty function are multiplied each other;
D, the product that the c step is obtained carry out anti-Fourier transformation, digital signal after being compensated and output.
Wherein, the step of gathering bioelectrical signals is realized by the electrode of above-mentioned testing circuit; The bioelectrical signals of gathering being carried out the input protection circuit by above-mentioned testing circuit of filter step realizes; A to d step is realized by the CPU microprocessor that has the digital spectrum compensation program 5 of above-mentioned testing circuit.
In bioelectrical detection circuit, intelligence controlling device is microcontroller or microcomputer, and then above-mentioned a to d step is realized by microcontroller that has the digital spectrum compensation program or microcomputer.
The embodiment of second kind of bioelectricity detecting method of the present invention:
The digital spectrum compensation program block diagram of the another kind of bioelectricity detecting method of the present invention shown in Figure 3, this method is by the FIR wave filter, carries out convolution algorithm with this wave filter and initial data.If good compensation effect will be arranged, the coefficient of general FIR wave filter can be many more, and amount of calculation is just big more.If filter parameter is h (k), number is N, and then FIR filtering is output as:
y(n)=h(0)·x(n)+h(1)·x(n-1)+...+h(N-1)·x(n-(N-1))
All to calculate N multiplication and N sub-addition for each y (n).The frequency domain compensation function is mended to be the time domain shock response h (k) that IFFT can draw penalty function after the linear phase.If obtain h (k) by penalty function shown in Fig. 3-13, because notch bandwidth is very narrow, h (k) will be very long; If remove trap, only carry out SINC
3Compensation can well compensate though get fewer purpose h (k), and the clean 50Hz interference of filtering can further not increase yet simultaneously.Therefore we at first carry out 4 average filters to the original electrocardiographicdigital signal, and the basic filtering of 50Hz this moment is clean, but at this moment 4 declines that on average also caused the signal band bandwidth also will compensate it simultaneously, and design FIR wave filter is shown in Fig. 3-15.This FIR wave filter is 255 integral coefficient wave filter, and wave filter amplified 256 times (with will directly giving up lowest byte and get final product divided by 256 after the primary signal convolution), and its spectral characteristic such as Fig. 3-16.As seen, this FIR wave filter can not only be to SINC
3Compensate, can compensate simultaneously because 4 amplitudes that on average cause descend.
In addition, this wave filter is the integral coefficient wave filter, only carries out multiplication of integers and additive operation when computing.And this FIR wave filter left-right symmetric can be simplified the convolution formula, promptly thus
In h (k), having much is 1 byte number, and wherein some is 1,2, and therefore simple datas such as-1 ,-2, can simply carry out computing according to these numbers, do not use unified multiplying, can accelerate arithmetic speed greatly like this.Use this wave filter that electrocardiosignal is carried out result such as Fig. 3-17 after the filtering.
In the present embodiment, bioelectricity detecting method comprises gathers bioelectrical signals and the bioelectrical signals of gathering is carried out filter step, it is characterized in that it may further comprise the steps:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1 new data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, then compensates calculating to data, promptly calculate h (i) x (n-1);
Digital signal y (n) after c, read group total obtain being compensated;
D, judge whether to have calculated N data, if judged result is then returned the b step for not;
E, if the judged result of d step is for being to withdraw from;
Wherein, the step of gathering bioelectrical signals is realized by the electrode of above-mentioned testing circuit; The bioelectrical signals of gathering being carried out the input protection circuit by above-mentioned testing circuit of filter step realizes; A to d step is realized by the CPU microprocessor that has the digital spectrum compensation program of above-mentioned testing circuit.
In bioelectrical detection circuit, intelligence controlling device is microcontroller or microcomputer, and then above-mentioned a to d step is realized by microcontroller that has the digital spectrum compensation program or microcomputer.
Claims (9)
1, a kind of bioelectrical detection circuit; it is characterized in that; it comprises the electrode that is used to gather bioelectrical signals that connects successively by lead, have input protection circuit, the ∑-Δ pattern number converter of overvoltage protection and simple filter function and have the intelligence controlling device of digital spectrum compensation program, and intelligence controlling device is used for the digital signal of ∑-Δ pattern number converter output is carried out frequency compensation.
2, a kind of bioelectrical detection circuit according to claim 1 is characterized in that, when described intelligence controlling device moves the digital spectrum compensation program, carries out following steps:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather N data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, is then carried out single compensation to data and is calculated, promptly N data data of collection are carried out Fourier transformation, obtain the frequency spectrum of N data;
C, frequency spectrum and penalty function are multiplied each other;
D, the product that the c step is obtained carry out anti-Fourier transformation, digital signal after being compensated and output.
3, a kind of bioelectrical detection circuit according to claim 1 is characterized in that, when described intelligence controlling device moves the digital spectrum compensation program, carries out following steps:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1 new data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, then compensates calculating to data, promptly calculate h (i) x (n-1);
Digital signal y (n) after c, read group total obtain being compensated;
D, judge whether to have calculated N data, if judged result is then returned the b step for not;
E, if the judged result of d step is for being to withdraw from.
4 a kind of bioelectrical detection circuits according to claim 1 is characterized in that described N is 1024.
5, a kind of bioelectrical detection circuit according to claim 1 is characterized in that, the described intelligence controlling device that has the digital spectrum compensation program is the CPU microprocessor.
6, a kind of bioelectrical detection circuit according to claim 1 is characterized in that, the described intelligence controlling device that has the digital spectrum compensation program is a microcontroller.
7, a kind of bioelectrical detection circuit according to claim 1 is characterized in that, the described intelligence controlling device that has the digital spectrum compensation program is a microcomputer.
8, a kind of bioelectricity detecting method comprises and gathers bioelectrical signals and the bioelectrical signals of gathering is carried out filter step, it is characterized in that it is further comprising the steps of:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather N data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, is then carried out single compensation to data and is calculated, promptly N data data of collection are carried out Fourier transformation, obtain the frequency spectrum of N data;
C, frequency spectrum and penalty function are multiplied each other;
D, the product that the c step is obtained carry out anti-Fourier transformation, digital signal after being compensated and output.
9, a kind of bioelectricity detecting method comprises and gathers bioelectrical signals and the bioelectrical signals of gathering is carried out filter step, it is characterized in that it is further comprising the steps of:
The digital signal of a, collection ∑-Δ pattern number converter output, and judge whether to gather 1 new data, if judged result is then proceeded this step for not;
B, if the judged result of a step for being, then compensates calculating to data, promptly calculate h (i) x (n-1);
Digital signal y (n) after c, read group total obtain being compensated;
D, judge whether to have calculated N data, if judged result is then returned the b step for not;
E, if the judged result of d step is for being to withdraw from.
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Cited By (1)
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CN101160092B (en) * | 2005-04-19 | 2010-12-08 | 皇家飞利浦电子股份有限公司 | System and method for measuring bioelectrical signals of a user |
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CH611790A5 (en) * | 1975-10-08 | 1979-06-29 | Hoffmann La Roche | |
US5055843A (en) * | 1990-01-31 | 1991-10-08 | Analog Devices, Inc. | Sigma delta modulator with distributed prefiltering and feedback |
US5092341A (en) * | 1990-06-18 | 1992-03-03 | Del Mar Avionics | Surface ecg frequency analysis system and method based upon spectral turbulence estimation |
CN1291465A (en) * | 2000-08-02 | 2001-04-18 | 天津市四通新技术开发公司 | Domestic electrocardiographic oscilloscope |
CN1428128A (en) * | 2001-12-27 | 2003-07-09 | 丽台科技股份有限公司 | Automatic far-end control method for evaluating autonomic nervous system function and its system |
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