SU799187A1 - Electric neurostimulator - Google Patents

Abstract

1. ELECTRIC HEEPOCTH- .MULATOR, containing a power source and sequentially connected clock generator, waiting for a multivibrator and an output stage, so that, with the aim of increasing the service life, The waiting multivibrator is introduced by an emitter divider and a compensating two-port network, one pole of which is connected to the power source and the other to the midpoint of the emitter divider .21 Neurostimulator according to claim 1 connected resistor and st bilitrona >. & ES ^^^ <; about soskh > & ^

Description

1 The invention relates to the field of medical instrumentation and is intended for use in medical medical practice dp stimulation of nerves with electrical signals for relieving chronic pain. An electrical neurostimulator is known, which contains a power source and a series-connected clock pulse generator, a waiting multivibrator, and an output stage {lj. The disadvantages of such neurostimulators include the decrease in the amplitude of the output signals with a decrease in the voltage of the power source, which leads to a significant reduction in the operating time of the power source. The purpose of the invention is to increase the service life. For this, an electric neurostimulator containing a power source and series-connected clock generator, an adaptive multivibrator and an output stage, an emitter divider is inserted into the waiting multivibrator and a compensating two-port network, one pole of which is connected to the power source, and the other is with the midpoint of the emitter divider. A crown compensating two-pole consists of a series-connected resistor and a zener diode. The drawing shows a neuro stimulator circuit. The electric neurostimulator contains a power supply 1, a 1 Vrpdr 2 clock pulses, a waiting multivibrator 3 and an output cascade 4 Neither the capacitor 12 is the time of the master circuit, the resistors 13 and 14 of the emitter divider and the resistor 15 and the zener diode 16 of the compensating bipolar 1ka. The output stage contains the separation capacitors 17 and l8, the base resistor 19, the inductor 20 and the transistor 21. The load resistance 22 is connected to the output of the output stage. A compensating two-pole device is connected between the power supply bus and the midpoint of the emitter divider. 7 The neurostimulus torus operates as follows. The generator of 2 clock pulses generates at its output a sequence of pulses, each of which triggers the waiting multivibrator 3, the latter generates. voltage pulse, the duration of which T is determined by the parameters of the time by the chain driver. From the output of the waiting Multivibrator 3 impulse eg -; is supplied through the coupling capacitor 17 to the base of the transistor 21 of the output stage 4, the transistor 21 opens for a time equal to the duration of the voltage pulse generated by the mutirad of the multivibrator 3, and an exponentially increasing current begins to flow through the inductor 20 with a constant time determined by the resistance Kdr and inductance L Drossel 20 and the resistance R p, p of the open transistor 21 Urt-r Г (("Tr) 1. Where and„ „is the voltage of the battery. With a sufficiently large constant time compared to the duration As the multivibrator is waiting, the increase in current through the nuclear reactor choke can be considered linear. By the end of the voltage pulse, the current through the inductor reaches a certain final value Uf., I supply - f proportional to the voltage JLi. - energy stored in the inductor 20 is equal to O QAP -2L at the moment of the end of the pulse of the waiting multivibrator 3, the transistor 21 is locked on the load resistance 22, due to the occurrence of self-induced EMF in the inductor 20, a voltage pulse is released, the energy of this pulse avna itz where - the maximum amplitude of the pulse voltage; t is the time constant determined by the inductance of throttle villages and resistances of thrusts and loads; RH is the load resistance. From the comparison of expressions (3) and (4), we have also k, i., T. - constant coefficient. From the expression (5) it is clear that the amplitude Uj, the voltage pulse on the load, which determines the therapeutic effect, is directly proportional to the voltage of the power source and the duration of the voltage pulse generated by the multivibrator 3. power supply will decrease the voltage pulse UH amplitude at the load, which will cause a corresponding decrease in the therapeutic effect and shorten the service life (use) of the power source, since it is necessary to change it during voltage, The minimum permissible minimum for a power source is 1 /. The introduction of an emitter divider and a compensating bipolar body makes it possible to prevent a decrease in the therapeutic effect when the supply voltage is reduced. Pulse duration, generated-. j of the waiting multivibrator 3, is determined by the expression PIT of the leagues J where is the resistance of the resistor 9 ,; Rg is the total resistance of resistors 13 and 14; Cg - capacitor 12; Rg is the resistance of the resistor 11; Ug is the voltage drop across resistors 13 and 14; koH thermal current of transistor 8, Pol U U1mg we write (6) in the form., CfrftcenhtHiwl R From the expression (7) it can be seen that in order to ensure an increase in the pulse duration when the supply voltage decreases, the voltage U was decreasing with more steepness than Udz,. The required steepness of the voltage U is set by the choice of the parameters of the emitter divider and the compensating two-port in such a way that the duration of the pulse generated by the standby multivibrator 3 increases inversely with the voltage of the power source. In this case, as it follows from expression (5), the stability of the amplitude of the voltage pulse on the load and, accordingly, the maintenance of the therapeutic effect of a significant reduction in the voltage of the power source, as well as an increase in the life of the neurostimulatory power source, will be ensured.

Claims (2)

. 1. ELECTRIC NEUROSTIMULATOR containing a power source and serially connected clock pulse generator, waiting for the multivibrator and output stage, with the exception of the fact that, in order to increase the service life, an emitter divider is introduced into the waiting multivibrator and a compensating bipolar, one pole of which is connected to a power source, and the other to the midpoint of the emitter divider. 2 *. The neurostimulator according to claim 1, characterized in that the compensating bipolar consists of a series-connected resistor and a zener diode.