CN86102850A - Produce the apparatus and method of biotic information signal - Google Patents

Produce the apparatus and method of biotic information signal Download PDF

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CN86102850A
CN86102850A CN86102850.3A CN86102850A CN86102850A CN 86102850 A CN86102850 A CN 86102850A CN 86102850 A CN86102850 A CN 86102850A CN 86102850 A CN86102850 A CN 86102850A
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pulse
signal
circuit
train
generation
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CN1003839B (en
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顾涵森
吴度民
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Priority to CN86102850.3A priority Critical patent/CN1003839B/en
Priority to CA000509146A priority patent/CA1278045C/en
Priority to AT86106617T priority patent/ATE55548T1/en
Priority to DE8686106617T priority patent/DE3673478D1/en
Priority to EP86106617A priority patent/EP0211159B1/en
Publication of CN86102850A publication Critical patent/CN86102850A/en
Priority to US07/232,536 priority patent/US5018524A/en
Publication of CN1003839B publication Critical patent/CN1003839B/en
Priority to HK313/91A priority patent/HK31391A/en
Priority to SG343/91A priority patent/SG34391G/en
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Abstract

The invention provides the apparatus and method that produce biotic information signal, the coded pulse sequence that these apparatus and method can produce at interval and all constant a plurality of trains of pulse of width are formed, wherein each train of pulse all is made of a plurality of pulses with characteristic frequency and number.The inventive system comprises pulse signal generation device and signal output apparatus, produce the pulse signal that waveform and structure reach particular requirement with this, method of the present invention utilizes information recording carrier and data reproduction apparatus to produce above-mentioned signal to be used for medical treatment or health care purpose.

Description

Produce the apparatus and method of biotic information signal
The present invention relates to produce the apparatus and method of biotic information signal, specifically, the apparatus and method that the present invention relates to can produce certain digital preface and the minimum electric impulse signal of energy, utilize sort signal that the vital functions of living body biological is adjusted, thereby reach the purpose of medical treatment or health care.
In recent years, china academia circle is based on field theory and information technology, in conjunction with traditional theory of Chinese medical science, the important vital signs-life-information of living body biological carried out extensive studies and experiment.Particularly qi-gong practitioner's " send out merit " phenomenon is tested and accomplish tangible results by modern testing equipment.The inventor makes a large amount of effort to this, relevant study is published in 3 volumes, 8 phase 563-566 pages or leaves in " Nature Journal " August in 1980, and Shanghai science tech publishing house publishes, " natural science yearbook " 1.34-1.41 page or leaf in 1981, Shanghai science tech publishing house.The content of these articles is incorporated herein by reference.
According to physical viewpoint, rest mass is zero material (various) to the material that natural world shows as rest mass with having only energy, two kinds of materials are closely related, any material that rest mass arranged all corresponding its distinctive natural resonant frequency, living body biological also shows as has the morphology system that is made of cell, tissue, organ, and the information system of the field material that is constituted by cell potential, electrocardio, the various radiation of brain electricity, the two interaction coexists as among the living body biological.
The inventor is based on field theory and information technology, to the information system of living body biological and the relation between the morphology system, and the information exchange between information system and surrounding is studied, to reach the purpose that the information of utilizing a material diagnoses the illness, and by the input signal specific, adjust the information system of live body, and then change the state of morphology system, reach medical treatment or health care purpose.
When life information science carries out information exchange at research living body biological and environment, studied the window of information exchange particularly, comprising:
Messagewindow, promptly live body comprises certain physical properties, frequency, waveform, the intensity of information to the window of Information Selection reception and selectivity emission;
Address window, promptly the live body different parts is to the ability of Information Selection reception and selectivity emission, as the acupuncture point of body surface, blood vessel, lymphatic vessel etc.
Be different from conventional physical therapy, because the meticulous structure of life-information and live body is relevant, thereby the waveform complexity of biotic information signal, comprises and contain much information.If aimed at the exchanging window of living body biological, it is little and biological activity is big just can to show as information energy, thereby multiple disease is had curative effect preferably.
The present invention utilizes modern electronic technology to realize producing the apparatus and method of biotic information signal, thereby the pulse signal that produces with characteristic frequency and dutycycle is the burst sequence of envelope, and each train of pulse includes the digital coding of given number and high-sequential, utilize thisly to have special waveform and the minimum biotic information signal of signal intensity, select the particular address window that this signal input can be reached medical treatment or health care purpose according to the state of an illness.
In the prior art, also there are some devices can produce the signal of telecommunication, and are used for medical treatment or health care purpose, as acupuncture electric therapeutic instrument, cardiac pacemaker etc. with certain waveform.But quantity of information is few in the signal that this class device produces, they mainly are that physical effect by signal self works, contain much information and energy is minimum and signal of the present invention comprises, biological activity is big, it is to work by its information, and this point becomes an internal difference between the present invention and the prior art.
Method and apparatus provided by the present invention can produce the biotic information signal with different wave, and the waveform configuration of these signals has following feature:
(1) strict orderly digital coding train of pulse;
(2) this burst periods repetition;
(3) particular physiological function height correlation in the ad hoc structure of waveform and the human or animal body, thereby can be used for specific medical and health care purpose targetedly;
(4) each quantitative target of this train of pulse (comprising coding structure, frequency, dutycycle, alternating current-direct current component etc.) all has strict span, exceeds admissible span promptly to lose original effect, sometimes even can produce deleterious effects.
In order to produce pulse train, the invention provides a kind of novel device with above-mentioned feature.
According to first embodiment of device of the present invention, this device comprises that a primary key produces circuit, and a subcode produces circuit, and an output circuit and one or more output electrode are right.
According to second embodiment of device of the present invention, this device comprises a coded pulse generation circuit, encoding control circuit and output circuit and output electrode.
According to the 3rd embodiment of device of the present invention, this device comprises a central processing unit, a clock circuit, memorizer or input interface, pulse generator and output circuit and output electrode.
According to the 4th embodiment of device of the present invention, this device comprises a light source, an optic modulating device, a light-sensitive element, the driving device of an optic modulating device, an output circuit and one or more output electrode.
The present invention also provides a signal attenuation device that is used for output circuit, so as in the spectral range of broad with signal attenuation and improve the shape of output waveform, to reach preferable waveform output.
The present invention also provides the method that produces above-mentioned coded pulse sequence.
First embodiment of the method according to this invention, this method may further comprise the steps:
The signal record that above-mentioned signal generation apparatus of the present invention is produced with video signal recording apparatus is on recording medium;
With video signal reproducing apparatus the shape information that writes down on the recording medium is reappeared;
Above-mentioned reproducing signal is carried out shaping and decay by output circuit of the present invention, and output is used for medical treatment or health care purpose then.
Wherein video signal recording and reproducer can be conventional tape recorders, laser disk image apparatus etc.
Second embodiment of the method according to this invention, this method may further comprise the steps:
It is computer program that above-mentioned pulse train is compiled.
In the memorizer with this program input computer.
Produce control signal corresponding and output by central processing unit according to this program.
With this control signal input pulse generation circuit to produce above-mentioned coded pulse sequence.
This pulse train is carried out shaping and decay by output circuit of the present invention, and output is used for medical treatment or health care purpose then.
An object of the present invention is to provide a kind of coded pulse sequence of forming by a plurality of trains of pulse in order strict and that periodically repeat, the specific waveforms structure of this pulse train is relevant with the specific function of human or animal's life information system, thereby can adjust life information system, thereby reach specific medical treatment or health care purpose.
Another object of the present invention provides a kind of device, and this device can produce the electrical pulse sequence of above-mentioned waveform configuration, and with on the specific part of this pulse train input human or animal body to reach specific medical treatment or health care purpose.
A further object of the present invention provides a kind of method, and this method can produce the electrical pulse sequence with above-mentioned waveform configuration, and with the specific part of this pulse train input human or animal body, to reach specific health care purpose.
A further object of the present invention provides a kind of signal attenuation device that makes electrical pulse sequence have good waveforms.
Above-mentioned feature of the present invention and purpose and other advantage and purpose will embody in the detailed description of doing below in conjunction with accompanying drawing, in the accompanying drawings:
Figure 1A-1E is the sketch map that biotic information signal of the present invention is carried out waveform analysis;
Fig. 2 is the structured flowchart of first embodiment of device of the present invention;
Fig. 3 is the detailed circuit schematic of embodiment shown in Figure 2;
Fig. 4 is the signal waveforms on each interdependent node in Fig. 3 circuit;
Fig. 5 A-5C is the structured flowchart of device second embodiment of the present invention;
Fig. 6 is the signal waveforms of each node in the block diagram shown in Fig. 5 A and the 5B;
Fig. 7 is the structured flowchart of the 3rd embodiment of device of the present invention;
Fig. 8 is the program flow diagram of device shown in Figure 7;
Fig. 9 A and 9B are the 4th embodiment sketch maps of device of the present invention;
Figure 10 is the sketch map of first embodiment of method of the present invention;
Figure 11 is the sketch map of second embodiment of method of the present invention;
Figure 12 is the exemplary circuit diagram of output circuit of the present invention.
Referring to Figure 1A-1E, wherein be depicted as the waveform analysis figure of biotic information signal of the present invention.For the ease of understanding and analyzing, be decomposed into the feature of train of pulse in envelope feature and the envelope at this wave character with this signal, the feature of this two aspect all shows as the form of digit pulse, therefore the conventional method of analysis of available digital pulse is analyzed, in the following description, envelope is called the primary key of biotic information signal, and the train of pulse that it is inner is called subcode.
In Figure 1A, n represents the time ordinal number of biotic information signal of the present invention, the desirable different positive integer n of unlike signal as the time ordinal number, expression constitutes a circulation of this signal by n primary key pulse.The occurrence of n will be in following explanation.C represents the time width of each pulse period of primary key, and F represents primary key frequency F=1/ (C).P represents the primary key pulsewidth, E represents the primary key pulse spacing, D represents dutycycle, D=(P)/(E), in a series of life-information waveforms of the present invention, primary key frequency F and dutycycle D are steady state values, the span of F is 230-280KC, wherein 250KC is a preferred values, and the span of D is 0.33-5, and wherein 1.67 is preferred values.
It is the subcode structure of envelope that Figure 1B illustrates with the primary key waveform of Figure 1A, by Figure 1B as seen, the subcode pulse exists only within the width of primary key pulse, in each primary key pulse, the rising edge of first subcode pulse should overlap substantially with the rising edge of primary key pulse, and the trailing edge of last subcode pulse should overlap substantially with the trailing edge of this primary key pulse.N 1-N nThe number of representing the subcode pulse that comprises in each primary key pulse respectively, in Figure 1B, N 1=3, N 2=6, N 3, N n=8.Each subcode pulsewidth p in same primary key pulse, e and dutycycle d=(p)/(e) all should be equal substantially at interval.The span of d is 0.8-1.2, and wherein 1.0 is preferred values.
Fig. 1 C illustrates an example of biotic information signal of the present invention, n=6 wherein, and dotted line is represented the primary key waveform among the figure, and it is not the waveform of actual output, and only is its envelope.Subcode structure among the figure is N 1=3, N 2=6, N 3=9, N 4=4, N 5=6, N 6=8, F=250KC, D=1.5, d=1.During practical application, this waveform is recycled.
Fig. 1 D illustrates four kinds of acceptable waveforms of subcode pulse, and wherein, (1) is square wave, and (2) are the fillet square wave, and (3) are the integration ripple, and (4) are sinusoidal wave.Fillet square wave effect is preferable in actual applications.
Fig. 1 E illustrates the amplitude and the time relation of biotic information signal of the present invention, wherein V dBe the DC component of signal, U pBe peak one crest voltage of subcode pulse, their span is respectively 0<V d<1.0 volts, 0<U p<1.5 volts, subcode is positive pulse among Figure 1B-1E, also can obtain similar curative effect if change negative pulse into.
Following table 1-4 has provided several examples of biotic information signal waveform and the medical effect that these waveforms produced has been described.
Table 1
n=6 F:230-280KC D:0.33-5
d:0.8-1.2
N 1N 2N 3N 4N 5N 6
3 6 9 4 6 8
4 6 9 3 6 8
3 4 6 6 8 9
3 8 9 4 6 6
4 8 9 3 6 6
3 4 9 6 6 8
3 4 8 6 6 9
Each pulse train shown in the table 1 can be used for improving the intravital metabolism that follows ring function And promotion tissue of human or animal.
Table 2
n=4 F:230-280KC D:0.33-5
d:0.8-1.2
N 1N 2N 3N 4
1 8 2 8
Pulse train shown in the table 2 can be used for proofreading and correct Shi Li And and obtains quick curative effect.
Table 3
n=2 F:230-280KC D:0.33-5
d:0.8-1.2
N 1N 2
2 8
Pulse train shown in the table 3 also can be used for proofreading and correct Shi Li And and reaches late result.
Table 4
n=2 F:230-280KC D:0.33-5
d:0.8-1.2
N 1N 2
8 9
Pulse train shown in the table 4 can be used for adjusting intestinal function, and it both can be used for treating habitual constipation, also can be used for treating enteritis, diarrhea.
Referring to Fig. 2, be depicted as the structured flowchart of first embodiment of apparatus of the present invention.Reference number 100 indication devices itself wherein; Master frequency generators of 101 expressions, it can be the clock circuit of any routine, its output signal V 1Frequency F in the 230-280KC scope, get a steady state value.Sequence circuit of 102 expressions, it can produce n road clock signal V according to the ordinal number n of required biotic information signal 21-V 2n, control circuit of duty ratio of 103 expressions, the signal V that its control sequence circuit 102 produces 21-V 2nDutycycle make its output V 31-V 3nArrive required pulsewidth.Above-mentioned master frequency generators 101, sequence circuit 102 and control circuit of duty ratio 103 common formation primary keys produce circuit.One group of subcode generator of 104 expressions, it is according to the signal V from control circuit 103 31-V 3nProduce the parallel controlled subcode signal V in n road 41-V 4n, the umber of pulse of every way coded signal is predisposed to N respectively 1, N 2N n, the subcode dutycycle is changed to d, compound circuit of 105 expressions, and it will be from the n road parallel signal V of subcode generator 104 41-V 4nSynthesize one road strict orderly serial signal V 5, make it have desirable waveform.Fig. 4 expresses signal V 1-V 5Waveform.As an example, n=3, D=1.5, N among Fig. 4 1=3, N 2=6, N 3=9, d=1.106 represents an output circuit, and it is with signal V 5Along separate routes, shaping, decay is then by electrode 10 outputs in parallel.
Fig. 3 is an exemplary circuit diagram of embodiment shown in Figure 2.Master frequency generators 101 among Fig. 3 is made of crystal oscillator 1011 and frequency dividing circuit 1012.Be the clock signal V shown in Fig. 4 behind high-frequency signal process frequency dividing circuit 1012 frequency divisions that crystal oscillator 1011 produces 1Sequence circuit 102 is made of shift register 1021 and many inputs or door 1022, and when the circulation ordinal number n=2 of biotic information signal, sequence circuit 1021 also can be made of a double D trigger.Shift register is according to required n value, at input signal V 1Triggering under, export n parallel signal V 21-V 2n, its waveform is shown in Figure 4, and this sequence circuit 102 also can be made of ring counter or counting decoder, and occupancy controller 103 is made of monostable circuit, and it adjusts V according to required D value 21-V 2nWidth make it become signal V 31-V 3nSubcode generator 104 is made of n may command agitator 1041-104n in parallel, and the frequency of each controlled oscillator 1041-104n is all passed through and preset, and makes it at signal V 31-V 3nThe internal energy N that exports respectively of pulsewidth scope 1-N nIndividual subcode pulse is as the V among Fig. 4 41-V 43Shown in, N wherein 1=3, N 2=6, N 3=9.The also line output of subcode generator 104 synthesizes serial signal V through the compound circuit 105 of many inputs or door formation 5, output circuit 106 is made of multidiameter delay output circuit 1061 and a plurality of shaping attenuator circuit 1062, and this circuit will further specify hereinafter.Also has frequency dividing circuit 107 among Fig. 3, enumerator 108 and display 109, they are counted the subcode number in the biotic information signal of this device output in can be during fixed, when appearring in signal, error can show like this by display 109, also can add autoalarm, in case the mistake of signal.Select circuit 110 to constitute,, show its signal level with display 111 respectively the signal of each road output in parallel is selected by a band switch.In the circuit of Fig. 3, by presetting the frequency F of master frequency generators 101, the pulsewidth P of occupancy controller 103, the frequency f of controlled oscillator 1041-104n 1-f nWith dutycycle d, can determine output signal V 5Each waveform parameter F, D, N 1-N n, d, thereby the correct coding structure of assurance waveform.
Fig. 5 A-5C is the structured flowchart of second embodiment of device of the present invention, and in Fig. 5 A, reference number 200 is represented this device itself, and wherein master frequency generators 101, sequence circuit 102, and output circuit 106, electrode 10 is with identical shown in Fig. 2 and Fig. 3.201 are coded pulse generation circuit, 202 is encoding control circuit, coded pulse generation circuit 201 can be realized by the physical circuit shown in Fig. 5 B and the 5C, it can produce the train of pulse with preset frequency according to the clock signal and the control signal of input, and by encoding control circuit 202 train of pulse of its output is counted, encoding control circuit 202 sent reset pulse when counting reached predetermined value, coded pulse generation circuit 201 is resetted and through the next train of pulse of output behind one section predetermined interval with characteristic frequency, under the control of circuit 202, coded pulse generation circuit 201 produces the frequency of pulse in each train of pulse and the burst sequence that number all meets pre-provisioning request like this.As the V among Fig. 6 cShown in.Coded pulse control circuit 202 can be by for example: presettable counter, and the codified enumerator, enumerator/pulsqe distributor, or multiple circuit such as enumerator/frequency divider constitutes.
Fig. 5 B illustrates a kind of circuit structure of coded pulse generation circuit 201, it is by charging current switch 2011, discharge current switch 2012, capacitor 2013, the parallel constant-current source 2015 in pulse generator 2014 and n road constitutes, this pulse generator can be used time base circuit, and circuit such as phaselocked loop frequency divider or programmable frequency divider are realized.Under the control of encoding control circuit 202, constant-current source 2015 is by 2013 chargings of 2011 pairs of capacitors of charging current switch, and when the current potential of electric capacity 2013 reached a predetermined value, charging current switch 2011 disconnected, the discharge current switch connection makes electric capacity 2013 discharges, so just produces triangular wave V b, as shown in Figure 6.Can change the slope of triangular wave thereby change its width by the current intensity of adjusting constant-current source 2015, make it in preset time, discharge and recharge number of times and change.Signal V b Input pulse generator 2014 makes it produce signal V c, this signal is counted by encoding control circuit 202, and resets according to count value clamp-pulse generator 2014, guarantees interval required between the train of pulse with this.
Coded pulse generation circuit shown in Fig. 5 B also can be replaced by a programmable frequency divider, shown in Fig. 5 C.It can be according to the program of finishing in advance, one high frequency clock signal is produced the pulse with required frequency through suitable frequency division, by the control of programming parts, can insert different signal parameters, thereby produce the biotic information signal that satisfies the different coding requirement.
Fig. 6 is compared as can be known V with the waveform of Figure 1A-1E and Fig. 4 dHave the primary key structure shown in Figure 1A, its frequency F depends on master frequency generators 101, and dutycycle D is then determined jointly by coded pulse generation circuit 201 and encoding control circuit 202.V cHas Fig. 1 cWith V among Fig. 4 5The pulse train structure of shown biotic information signal, wherein the number of the subcode pulse that comprises in the envelope of each primary key pulse is counted by encoding control circuit 202, and according to presetting number or programming scheme count results is controlled.
Referring to Fig. 7, be depicted as the 3rd embodiment of device of the present invention, wherein, and the whole device of reference number 300 representatives, 301 is a central processing unit.302 is memorizer.303 is outer input interface.304 is clock circuit, and it provides timing signal for system, and its operating frequency should be greater than 30 megahertzes.305 is pulse generator, and it produces pulse signal under the real-time control of central processing unit 301, and this signal is by output circuit 106 shapings decay back output.
Fig. 8 illustrates the working procedure flow chart of device 300 among Fig. 7.In this program, step 100 is central processing unit 301 input initial values, comprising ordinal number n, and signal cycle number of times M, primary key dutycycle D, subcode dutycycle d, subcode umber of pulse N(i), output level u, primary key cycle c, primary key pulsewidth P; C=P+E, D=P/E, the connotation of each parameter is with identical shown in Figure 1A-1E.Step 101 and 102 is the routine value of establishing step, differentiation through step 103, program enters calculation step, in step 106, calculate P=DC/(1+D), in step 107, calculate subcode pulsewidth p, the computing formula of p is: p=dP/ (N(i) is (d+1)-1), in step 109, according to control signal of calculated subcode pulsewidth p output, it is the subcode pulse of p that this signal makes pulse generating circuit 305 produce width, through the circulation of step 109-111, makes the subcode pulse of pulse generator 305 output correct numbers, program enters step 112 then, this step clamp-pulse generator during the E of interval in the output zero-signal, E=C-P is through step 113, program turns back to step 103, begin the calculating and the output of subcode pulse in the next primary key pulse, when i=n, show that a complete biotic information signal exports, under the control of step 105, program repeats to export this biotic information signal by predetermined requirement.
Referring to Fig. 9 A and 9B, wherein be depicted as the 4th embodiment of device of the present invention.Wherein reference number 400 is represented this device itself, and 401 is an optic modulating device.402 is light source, and it can be any conventional light source or LASER Light Source.403 is light-sensitive element, as light sensitive diode, and photosensitive field effect transistor etc., its photoelectric respone time T<10 -8Second, dark current I<10 -8Peace, photoelectric sensitivity>100 microampere/LX.404 is driving device, and as a high-speed motor, it drives optic modulating device 401 and does relative motion with respect to light source 402 and light-sensitive element 403.405 is an amplifying circuit, and it can amplify 403 signals that produce, and is sent to output circuit 106.According to the impulse waveform of desired signal, be carved with the corresponding grating of width and required pulse on the optic modulating device 401.Shown in Fig. 9 B, when optic modulating device 401 under the driving of driving device 404 during with respect to 403 motions of light source 402 and light-sensitive element, the light that light source 402 sends is modulated to the light pulse sequence identical with the required pulse sequence, light-sensitive element 403 produces electrical pulse sequence corresponding to this light pulse sequence, this electrical pulse sequence can directly be used for medical treatment or health care purpose through electrode output, also can export, but make it that suitable level and multichannel output be arranged through amplifier 405 and output circuit 106.Obviously, photomodulator 401 also can be changed into reflective by the transmission-type among the figure, and light source 402 and light-sensitive element 403 are done corresponding adjustment, still can reach same effect.In this programme,, can adjust the frequency of primary key, the frequency of dutycycle and subcode by adjusting rotating speed and the radius of optic modulating device and the distance of transmissive slit of driving device 404.
Referring to Figure 10, be depicted as the illustrative diagram of first embodiment of the inventive method, wherein 501 is signal output interface.502 is video signal reproducing apparatus, as magnetic tape video recorder, and laser disk image device etc., 503 is the video signal recording medium, as tape, laser disk etc., this method comprises the steps:
1, the output pulse sequence that arbitrary scheme produced in the above-mentioned embodiment with device of the present invention is recorded on the video signal recording medium through after the suitable level adjustment, on tape or laser disk as signal;
2, with above-mentioned signal record medium and signal reproducing device as signal source, produce coded pulse series of the present invention;
3, the coded pulse sequence that is produced is sent to output circuit 106 by signal output interface 501; With.
4, be used for medical treatment and health care purpose through output circuit 106 shapings and decay back by electrode 10 outputs.
Referring to Figure 11, wherein be depicted as the illustrative diagram of second embodiment of the inventive method.Wherein 601 is output interface.602 is computer, and its clock frequency should be more than 30 megahertzes.603 is program recorded medium, as tape, hard disk, floppy disk, and also available computers built-in storage, this method comprises the steps:
1, with the waveform coding program of biotic information signal of the present invention, concrete steps can be referring to the flow chart of Fig. 8;
2, utilize computer 602 to produce the waveform real-time control signal according to the suitable waveform parameter of said procedure input;
3, by interface circuit 601 control signal is sent to pulse generator 305, makes its generation have the signal of required coded pulse sequence;
4, pass through output circuit 106 with above-mentioned coded pulse sequence shaping and decay, be used for medical treatment and health care purpose by electrode output then.
Referring to Figure 12, be depicted as the exemplary circuit diagram of output circuit 106 of the present invention, wherein 1061 is a level adjusting circuit, 1062 and 1063 is signal attenuation device of the present invention, V iBe the input of circuit, V 01-V 0nIt is n road parallel output terminal.Level adjusting circuit can (0-10 megahertz) be adjusted input signal V in relative broad range iLevel and its waveform carried out shaping, carry out multichannel output then, so that simultaneously for a plurality of patients' uses. Signal attenuation device 1062 and 1063 is a resistive attenuating elements, and its resistance is greater than 10 7Europe, Hz-KHz are the 0-10 megahertzes.This signal attenuation device can adopt biomaterial to make.As adopting one section antiseptic dry blood vessel of process, biological tissues such as peritoneum make, and the waveform of output is improved.
Output electrode of the present invention is divided into positive and negative two electrodes, can adopt any conductive material to make, and preferably adopts acupuncture needle or scale copper, and the latter can avoid the misery of acupuncture as no wound electrode. When biotic information signal of the present invention is used for medical treatment or health care purpose, should be according to the state of an illness, select suitable acupoint, as the address window of information exchange, also can adopt the arteriovenous inserting needle, artery such as a side upper limbs thrusts anode, the offside veins of lower extremity thrusts negative electrode, and such information exchange effect is better, but does not have at signal in the situation of good shaping and decay, Ying Shenyong arteriovenous inserting needle to avoid ill-effect.
The present invention produces the apparatus and method of biotic information signal and describes in above specification by the form of embodiment; above example only is used for explanation and helps to understand; for those skilled in the art; need not deviate from essence of the present invention; can carry out to it modification of various ways; therefore, protection scope of the present invention never is limited to above example, only depends on claim proposed below.

Claims (17)

1, a kind of device that produces biotic information signal is characterized in that this device comprises:
A pulse signal generation device, the coded pulse sequence that this signal generation apparatus produces at interval and all constant a plurality of trains of pulse of width are formed, wherein each train of pulse all is made of a plurality of pulses with characteristic frequency and number, the envelope of this pulse train constitutes a frequency and the constant pulse signal of dutycycle, its frequency is in the 230-280 kilohertz range, and dutycycle is in the 0.33-5.0 scope;
A signal output apparatus, this circuit receive pulse train that above-mentioned pulse signal generation device produces and with its shaping and decay so that mate with live body; With
At least one is to output electrode, and the signal of this electrode pair after with above-mentioned signal output apparatus shaping and decay is to the specific part output of human or animal body.
2, the device of the generation biotic information signal of claim 1, wherein said pulse signal generation device comprises:
A primary key generation circuit, this circuit are by a master frequency generators, and a control circuit of duty ratio and a sequence circuit constitute, and this primary key generation circuit produces the envelope signal with said frequencies and dutycycle;
One group of subcode generator, they produce the multidiameter delay train of pulse with required frequency and umber of pulse successively under the control of above-mentioned sequence circuit and envelope signal; With
A compound circuit, the parallel train of pulse that it produces above-mentioned subcode generator is compound to be the coded pulse sequence of a serial output.
3, the device of the generation biotic information signal of claim 1, wherein said pulse signal generation device comprises:
A coded pulse generation circuit,
A control circuit; With
A master frequency generators;
Wherein coded pulse generation circuit produces above-mentioned coded pulse sequence under the control of control circuit, this control circuit is made of an encoding control circuit and a sequence circuit, encoding control circuit is counted the pulse of above-mentioned pulse generating circuit output, the number that presets according to count value and its inside resets this pulse generating circuit, controls the coding structure of output signal with this.
4, the device of the generation biotic information signal of claim 1, wherein said pulse signal generation device comprises:
A central processing unit, the real-time control signal that it can take place according to the parameters and the program output control pulse of input;
A memorizer, it can store operation program and the parameters that produces pulse train;
An input interface circuit, it can be with parameters and operational order input store and central processing unit; With
A pulse generator, it can produce required coded pulse sequence under the control of central processing unit.
5, the device of the generation biotic information signal of claim 1, wherein said pulse signal generation device comprises:
A light source;
A light-sensitive element;
An optic modulating device; With
A driving device;
Wherein, be carved with on the optic modulating device and the corresponding grating of the waveform of biotic information signal, when pressing certain speed under the driving of this optic modulating device at driving device with respect to light source and light-sensitive element motion, the optical signal that this light source produces is modulated to the light pulse sequence of certain waveform, makes light-sensitive element produce corresponding electrical pulse sequence.
6, the device of the generation biotic information signal of claim 1 to 5, in each pulse parameter of wherein said coded pulse sequence, n is the ordinal number of train of pulse, d is the dutycycle of train of pulse, N iBe the pulse number of i train of pulse, parameter list is as follows:
n=6 d:0.8-1.2
N 1N 2N 3N 4N 5N 6
3 6 9 4 6 8
4 6 9 3 6 8
3 4 6 6 8 9
3 8 9 4 6 6
4 8 9 3 6 6
3 4 9 6 6 8
3 4 8 6 6 9
7, the device of the generation biotic information signal of claim 1 to 5, in each pulse parameter of the coded pulse sequence that wherein said pulse signal generation device produces, n is the train of pulse ordinal number, d is the dutycycle of train of pulse, N iBe the pulse number of i train of pulse, parameter list is as follows:
n=4 d:0.8-1.2
N 1N 2N 3N 4
1 8 2 8
8, the device of the generation biotic information signal of claim 1 to 5, in each pulse parameter of wherein said coded pulse sequence, n is the train of pulse ordinal number, d is the dutycycle of train of pulse, N iBe the pulse number of i train of pulse, parameter list is as follows:
n=2 d:0.8-1.2
N 1N 2
2 8
9, the device of the generation biotic information signal of claim 1 to 5, in each pulse parameter of wherein said coded pulse sequence, n is the train of pulse ordinal number, d is the dutycycle of train of pulse, N iBe the pulse number of i train of pulse, parameter list is as follows:
n=2 d:0.8-1.2
N 1N 2
8 9
10, the device of the generation biotic information signal of claim 1 to 5, wherein said signal output apparatus is made of a level adjusting circuit and a signal attenuation device, this signal attenuation device is connected between level adjusting circuit and the output electrode, and its resistance is greater than 10 7Europe, Hz-KHz are the 0-10 megahertz.
11, the device of the generation biotic information signal of claim 10, wherein said signal attenuation device are to constitute with one section antiseptic biological tissue of process.
12, the device of the generation biotic information signal of claim 1 to 5 wherein further comprises:
An impulse scaler and a display device;
Whether this impulse scaler carries out step-by-step counting to the biotic information signal of this device output in cycle regular time, wrong and show its result who checks in display device to check this signal.
13, a kind of method that produces biotic information signal is characterized in that this method may further comprise the steps:
The shape information of biotic information signal is recorded on the information recording carrier;
With signal reproducing device with the information playback that writes down on the above-mentioned information recording carrier;
Above-mentioned reproducing signal is sent to an output circuit through an interface circuit;
In above-mentioned output circuit, above-mentioned information signal shaping and decay are used for medical treatment or health care purpose through output electrode then.
14, the method described in the claim 13,
Wherein said information recording carrier is the video signal recording tape, and described signal reproducing device is the tape player of video signal.
15, the described method of claim 13,
Wherein said information recording carrier is the video laser dish, and described signal reproducing device is the laser disk image apparatus.
16, the described method of claim 13,
Wherein said information recording carrier is the conventional media of storage computation machine program and data, and comprising tape, floppy disk, hard disk, read only memory, read-write memory, described signal reproducing device are computer and outer input equipment.
17, the described method of claim 13 to 16
Wherein the biotic information signal that this method produced has the waveform that any one limited in the claim 6 to 9.
CN86102850.3A 1985-05-15 1986-04-24 Apparatus and method for generating vital information signal Expired CN1003839B (en)

Priority Applications (8)

Application Number Priority Date Filing Date Title
CN86102850.3A CN1003839B (en) 1986-04-24 1986-04-24 Apparatus and method for generating vital information signal
CA000509146A CA1278045C (en) 1985-05-15 1986-05-14 Apparatus and method for generating vital information signals
AT86106617T ATE55548T1 (en) 1985-05-15 1986-05-15 APPARATUS AND SYSTEM FOR GENERATION OF LIFE INFORMATION SIGNALS.
DE8686106617T DE3673478D1 (en) 1985-05-15 1986-05-15 APPARATUS AND SYSTEM FOR GENERATING LIFE INFORMATION SIGNALS.
EP86106617A EP0211159B1 (en) 1985-05-15 1986-05-15 Apparatus and system for generating vital information signals
US07/232,536 US5018524A (en) 1985-05-15 1988-08-15 Apparatus and method for generating vital information signals
HK313/91A HK31391A (en) 1985-05-15 1991-04-25 Apparatus and system for generating vital information signals
SG343/91A SG34391G (en) 1985-05-15 1991-05-07 Apparatus and system for generating vital information signals

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN86102850.3A CN1003839B (en) 1986-04-24 1986-04-24 Apparatus and method for generating vital information signal

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CN1003839B CN1003839B (en) 1989-04-12

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