FR2568130A1 - CIRCUIT FOR GENERATING IRREGULAR SUCCESSION OF SEPARATE ELECTRIC PULSES FOR ELECTRO-ANALGESY PROCESSING - Google Patents

Abstract

TO PRODUCE AN IRREGULAR SUCCESSION OF SEPARATE ELECTRICAL PULSES, AT AN IRREGULAR AND STOCHASTIC RATE, FOR AN ELECTROANALGESIA TREATMENT, THE CIRCUIT INCLUDES A SOURCE OF RECURRENCE SIGNALS, ENSURING A RANDOM FREQUENCY SUCCESSIVE. THE SOURCE OF RECURRENCY SIGNALS IS CONSTITUTED BY A SOURCE OF NOISE SIGNALS, PREFERABLY MADE BY MEANS OF A TR1 TRANSISTOR, MOUNTED DOWNWARDS. AT THE OUTPUT OF THIS SOURCE OF NOISE SIGNALS, AN R4, C4, VE, ICM SIGNAL FILTERING AND SUPPRESSION CIRCUIT IS MOUNTED, WHICH PROCESSES THE NOISE SIGNAL FROM SOURCE TR1, TO PRODUCE AN IRREGULAR SUCCESSION AT LOW FREQUENCY OF SEPARATE SIGNALS . APPLICATION TO THE PRODUCTION OF ELECTRIC PULSES AT IRREGULAR RATE, IN PARTICULAR FOR A TREATMENT OF ELECTROANALGESIA.

Description

The present invention relates to a circuit for

  to obtain an irregular succession of separate electrical impulses, at an irregular and stochastic rate, for an electro-analgesic treatment; the system includes a source of recurrence signals, to ensure a steady state

  random emission of successive pulses.

  It has long been known to produce currents of

  quote, called stochastic, to perform an electroanalgesia treatment. We have already studied several times

  the use of such electrical impulses, the most

  wind in the form of pulses of rectangular shape of

  duration (1 ms), produced at an irregular rate and

  periodic, for electro-analgesic treatment. This-

  the study showed that the electrical impulses in ques-

  have a maximum analgesic effect, even over periods of

  rather long, and that no addiction phenomenon

  appears, thanks to the irregular succession of these

  urges. The use of a stochastic pulse excitation electric current is particularly indicated and effective in the following cases: mainly states

  painful chronic pain in the colon

  spine, lumbago, ischialgia, osteoarthritis, epi-

  dylitis and humeroscapular periarthritis.

  To produce a stochastic pulsed excitation current, a generator has already been used.

  random signals, but this one is relatively

  expensive and expensive, because it works on the principle of a processor control, and only serves to produce a

  quasi-random succession of electrical impulses from

  quote. The object of the invention is to provide a circuit for

  produce an irregular succession of electrical impulses

  separated, of the kind defined above, which is of a relatively simple configuration, and makes it possible to obtain separate pulses according to a purely

  statistics (impulses in purely stochastic succession

  than). In this regard, we also seek to achieve a

  circuit to produce an irregular succession of impulses

  electrical connections, which is very flexible

  to adapt to a variety of cases and to obtain

  considerable variations in impulse excitation currents

  stochastic products thus produced. According to the invention, these results are obtained with a circuit of the type considered, characterized in that the source of recurrence signals is constituted by a source of

  noise signals, at the output of which is mounted a cir-

  baked filtering and signal suppression, which processes the noise signal of the noise signal source, for

  produce an irregular succession at low frequency of

separate animals.

  Through this use of a signal source of

  noise, from which separate pulses are obtained.

  we are trying to produce, we are in the presence

  succession of impulses of a purely random nature

  to avoid any addictive effects.

  This use of a source of noise signals

  also allows the adjustment of the average frequency

  recurrence of the impulses thus produced, in

  extended limits, and by means of relatively simple

  ples in the circuit concerned; such a setting also affects

  the level of voltage of the pulses produced,

if only their width.

  According to the invention, the source of noise signals is advantageously constituted by a transistor that is made

  operate upside down; the base of this transistor is

  thus to a reference potential, while the emitter is subjected to a voltage of at least 10 volts, of positive or negative polarity depending on whether it is an NPN transistor or a PNP transistor, and while the collector of the transistor is not subjected to any determined voltage, and

  therefore operates at a "floating" voltage.

  Advantageously, the cir-

  in accordance with the invention by providing a plurality of sections for the signal filtering and suppressing step, namely a first section which includes a filter capacitor, for removing the high frequency portions of the

3 2568 13 0

  noise signal; then a comparator, which allows you to choose

  only signals whose level is greater than

  a determined value (comparison value); and a

  monostable vibrator, which makes it possible, for example, to suppress

  the successive peak signals at close intervals

  because of the idle time of the multivibrator.

  It is interesting to provide further means of

  setting, to adjust the shape and / or width of the impulse

  produced by the monostable multivibrator. These

  The impulses can thus have different forms,

  a rectangular, triangular, sinusoidal shape, in

sawtooth, or trapezoidal.

  In a particularly advantageous embodiment

  the circuit according to the invention comprises at least one counting stage arranged between the comparator and the

  monostable multivibrator. Thanks to such a stage of accounting

  ge, it is possible to determine the average value of the recurrence frequency of the pulses produced, in particular to reduce the amplitude of variation of the frequency of recurrence of

these impulses.

  An embodiment of the invention will now be described by way of example, with reference to FIG.

  annexed annex, which represents a diagram of the circuit

me to the invention.

  The essential features of the circuit according to the invention are related on the one hand to a noise signal source constituted by a transistor Tr1, and on the other hand to a filter and signal suppression circuit, which comprises a capacitor of C4 filtering, a V2 comparator

  and a monostable multivibrator ICM. Thanks to these three

  of the circuit elements, it is possible to select

  terminated in the signal spectrum of the signal source

noise.

  Depending on the noise characteristics sought, the source of noise signals constituted by the

  transistor Trl. In the embodiment considered at

  For example, the transmitter of the NPN transistor

  Trl a positive voltage supplied by a power source

  N, through a first resistance R1 and a second

2568 130

  resist resist c2. The voltage supplied by the source N has for example a value of +90 volts, and this voltage is already stabilized by the source N.

  This tension is stabilized a second time, at

  yen of an auxiliary circuit connected in parallel, and consisting of a capacitor C1, a Zener diode Z and a

  capacitor C2, so as to obtain a voltage value of

  about 40 volts, at the point where the

  zener Z diode and resistor R1.

  The transistor Tr1 is excited in reverse mode, its base

  being at a reference potential (mass), while

  that its collector undergoes a variable tension.

  It should be noted that instead of an NPN transistor, one could as well use a PNP transistor, in

  consequently reversing the polarity of the voltage of

  mentation. The noise signals of the transistor Tr1 terminate via a capacitor C3 to a filter, constituted by a capacitor C4, which filters out the high frequency parts of the spectrum of the noise signals. After

  reinforcement of the part thus conserved of the spectrum of

  noise level, in a V1 amplifier, which can be

  to adjust the amplification rate by means of the

  ge consisting of the resistors R4, R6, the potentiometer PI, and the capacitor C5; the amplified signal passes through a resistor R7, to arrive at a comparator V2. The latter acts as a signal suppressor circuit, to act according to the adjustment value adopted for the comparison voltage, allowing only the signals to pass through.

  whose voltage is greater than a threshold of

  parison. At the input of the comparator is connected a diode

  luminescent LED, via a circuit with

  both the resistors R8, R9, RiO, R11 and R12. This LED has a dual function. On the one hand, it serves to indicate

  that the power switch is closed and that the

  he is ready to work; on the other hand, this LED also serves as a reference voltage source. For example, a voltage having a value of +5 volts or 25681l30 + 6 volts arrives through the resistor RiO. It suits

  to specify that the comparison voltage sent to the com-

  V2 paratrooper can also be adjustable.

  The output signals of the comparator V2 pass through a capacitor C6, to arrive at the exciter input.

  of the ICM monostable multivibrator, which produces

  sequence of pulses of constant width. During the

  dead time of the ICM monostable multivibrator, other

  the incoming signals are deleted, so that the multivariate

  ICM monostable braker not only plays the role of a

  impulse generating stage, but also that of a

signal presser.

  Thanks to a control circuit comprising the resistors

  these R13, R14, PR, and capacitor C7, can be adjusted

  to be determined limits the width of the pulses 1ro-

  monostable multivibrator ICM, for example

be 30 and 500 microseconds.

  But it is also possible to obtain, at choice, at the output of the monostable multivibrator ICM pulses having various profiles, including a rectangular profile,

  triangular, sinusoidal, sawtooth or trapezoidal.

  The output pulses of the monostable multivibrator ICM follow one another at a completely random rate, because the succession of these signals has no repetition, because of the source of noise signals that are used; and this completely avoids the addictive effects that are undesirable as it is

  knows. This is why the impulses produced by the

  ICM monostable tivibrator are provided at an ap-

  riodic, stochastic, and entirely irregular.

  The output pulses of the monostable multivibrator ICM pass through a potentiometer P2, to arrive at

  a voltage / current converter consisting of an amplifier

  OP operating indicator, at the output of which is mounted a transistor Tr2 having its base associated with a resistor R15, which serves to limit the intensity of the output current

  when transistor Tr2 is saturated. Electricity impulses

  thus obtained are applied to a patient by means of the electrodes E and F. These are in parallel on

6 2568130

  a resistance R16 (about 100 k-Ohms).

  The circuit finally includes another source of food.

  tation, consisting of a battery B associated with two

  densifiers C8, C9, which makes it possible to have a source of

  low internal resistance diet, providing a

  voltage value of about + 5V which is often needed.

  The power source N is also constituted by a battery (not represented), so that all the

  The system may be in the form of a

  tative. In such a device, it can be expected at the exit

  of the amplifier Vl a test socket S, which allows

  at every moment the existence of the spectrum of signals

noise.

  The values of the components used in the circuit according to the invention are the following: R1 = 82 KlI R8 = 560 K Q R2 = 470 KfIl R9 = 10 K l

R3 = 1 M f R10 O = 1 K -

  R4 = 270 fl R11 = 47 KR P1 = 5 K f R12 = 470 K fl R6 = -1 Mf R13 = 5.6 K R7 = 47 KI R14 = 33 Kf The resistances PR have successive values = 100 Kil (Potentiometer) then of 39 K and 5.6 KfL Further: P2 = 22 K C4 = 470 pF R15 = 68 l C5 = 0.47 pF R16 = 100 Kft C6 = 220 pF Cl = 0.1 F C7 = 4, 7 nF C2 = 10 'iF C8 = 0.1 pF C3 = 0.1 pF C9 = 100 pF Value of the voltage at the terminal G = approximately + 5V Value of the voltage at the terminal a = + 10 V Value of the voltage at the terminal b = - 7 V Of course, it is obvious for a specialist that we can make various variants and modifications to the circuit according to the invention without departing from the domain

  of it. For example, we can reduce the range of variation

  the frequency of recurrence of the pulses produced 7 Z t l 2568130

  the circuit, by mounting one or more stages of

  stage (binary counting stages), between the comparator

  V2 and the ICM monostable multivibrator. This also allows

  determine the average value of the frequency ob-

outfit.

  All the technical details indicated in the description

  above, and shown in the figure below.

  integral part of the description, are of importance

  for carrying out the invention.

Claims (17)

  A circuit for producing an irregular succession of separate electrical impulses, at an irregular and stochastic rate, for electro-analgesia treatment, comprising a source of recurrence signals for providing a random regime for the emission of successive pulses, characterized in that the source of the recurrence signals is constituted by a source of noise signals (Trl), at the output of which is mounted a filter and signal suppression circuit (R3, C4, V2, ICM), which produced from the noise signal of the noise signal source   an irregular succession of low frequency signals   trimmed. Circuit according to Claim 1, characterized in that the source of noise signals is constituted by   a transistor (Trl) that is operated upside down.   Circuit according to Claim 2, characterized   in that the base of the transistor (Trl) is at a potential   reference transmitter, while the emitter of the transistor (Trl) is at a positive or negative voltage of at least 10   Volts, and that the collector of the transistor (Trl) is not put on no tension.   4. Circuit according to claim 1, characterized in that the filter and signal suppression circuit comprises a filter capacitor (C4) for filtering out the high frequency parts of the signals, and a comparator (V2) for remove the low level parts signals.   Circuit according to Claim 4, characterized   in that it comprises an amplifier (V1) with an ampli-   adjustable fitting, mounted at the output of the capacitor filtering (C4).   6. Circuit according to one of claims 4 and 5,   characterized in that the output of the amplifier (Vl) is   connected to one of the comparator inputs (V2), whose two   x input receives a reference voltage, which is re- glable preferably.   7. Circuit according to one of claims 1 to 6, 9 2568 13 0   characterized in that it comprises a light indicator (LED) which is connected to the input of the comparator (Vl) and which serves at the same time as a reference voltage source for the other comparator (V2).   Circuit according to one of claims 1 and   4, characterized in that the filter and support circuit   signal pressure includes a monostable multivibrator (ICM).   9. Circuit according to claim 8, characterized   in that it comprises adjustment means for adjusting the shape and / or the width of the pulses produced by the monostable multivibrator (ICM).   Circuit according to one of claims 8 and   9, characterized in that the monostable multivibrator (ICM)   powers an operational amplifier (OP) whose   output voltage controls a transistor (Tr2).   Circuit according to claim 10, characterized   in that the operational amplifier (OP) cooperates with the transistor (Tr2) to constitute a converter voltage / current.   Circuit according to one of Claims 1 to   3, characterized in that the voltage supplied by the source   Noise signal (Trl) is stabilized several times his.   Circuit according to claim 12, characterized   in that it comprises a device (N) for feeding   in battery power, with voltage stabilization.   Circuit according to claim 12, characterized   rised in that it includes a stabilization circuit of   frequency (C1, Z, C2) independent of the power supply device   (N) and connected to the noise signal source (Trl)   via a resistor (R2).   Circuit according to claim 9, characterized   rised in that the pulse width of the multivibrator   Monostable (ICM) is adjustable between 30 and 500 microseconds.   Circuit according to one of claims 9 and   characterized in that the pulses produced by the monostable multivibrator (ICM) can have different shapes, including a rectangular, triangular shape, 2568130   sinusoidal, sawtooth or trapezoidal.   Circuit according to one of claims 6 and   8, characterized in that it comprises at least one counting stage, arranged between the output of the comparator (V2) and the input of the monostable multivibrator (ICM),