SU1039508A2 - Device for controlling electric cardiostimulating device - Google Patents

Abstract

CONTROL DEVICE, ELECTROCARDIOSTIMULATORS BY AUT. St. No. 805999, o. so that, in order to increase the control accuracy, the control current amplifier contains the first integrator, a resistor and a series-connected driver: beating pulses, the second integrator, a differential amplifier and a current amplifier, and the calibrator pulses with a comparison circuit, a second integrator is connected to a differential amplifier, and a resistor is connected to its feedback circuit. L S oo with JV cx

Description

The invention relates to medicine, namely to devices for controlling a pacemaker.

According to the main author. St. No. 805999, there is known a device for controlling a pacemaker containing a preamplifier, an adjustable amplifier, a filter, a detector, a comparison circuit, and a control current amplifier G1].

A disadvantage of the known device is the low accuracy of control.

The purpose of the invention is to improve the accuracy of control.

This goal is achieved by the fact that in the device for controlling a pacemaker, the regulating current amplifier is equipped with a first integrator, a resistor and serially connected calibrated pulse shaper, a second integrator, a differential amplifier and current amplifier, the calibrated pulse shaper connected to a comparison circuit, the second integrator connected to a differential amplifier, and a resistor is included in its feedback circuit.

The drawing schematically shows the proposed device.

The device for controlling a pacemaker contains a pre-amplifier 1, an adjustable amplifier 2, made on an operational amplifier 3, a photoresistor 4 and an optocoupler 5, a filter 6, a detector 7, a comparison circuit 8, an amplifier 9 of the regulating current., A supplying emitter 10.

The control current amplifier 9 comprises a first integrator 11, a differential amplifier 12, a current amplifier 13, a calibrated pulse shaper 14, a second integrator 15 and a resistor 16..

The device operates as follows.

The cardiosignal taken with the help of electrodes is fed to the input of the preamplifier 1, in which the signal is amplified 10-20 * times and the symmetric interference of the industrial network and polarization signals are suppressed. The cardio signal amplified in the adjustable amplifier 2 is fed to a functional filter 6, the frequency response of which corresponds to the frequency spectrum of the P-wave of the cardiosignal. From the output of the detector 7, the signal goes to the comparison circuit 8, the output of which produces rectangular pulses, which are then fed to VNIIIPI Order 6772/3

At the output of the second integration, a voltage is obtained, which is proportional to the appearance of ORS complexes. input of a second integrator for synchronization of a pacemaker or monitor systems. At the same time, the output signal from detector 7 goes to the first integrator 11, the output of which goes to the inverting input of the differential amplifier 12. Simultaneously, from the output of the comparison circuit 8, the rectangular pulses are fed to the input of the calibrated pulse generator 14, the output of which is connected to the input of the second integrator 15. The output the latter is connected to the non-inverting input of the differential amplifier 12. At the output of the first integrator 11, a voltage is obtained whose amplitude depends on the amplitude of the biopotential and on the frequency from the appearance of the ORS complex of the cardiac signal of the torus 15 the amplitude to the frequency Since 15 pulses of constant duration and amplitude are supplied, the voltage 'at the output of the second integrator 15 is independent of the amplitude of the ORS complex. Thus, a voltage depending ^on the amplitude and frequency of the appearance of the ORS complex is applied to the inverting input of the differential amplifier 12, and a voltage whose amplitude depends only on the frequency of the appearance of the ORS complex is supplied to the non-inverting input of the differential amplifier 12. If the transfer coefficients of the integrators 11 and 15 are the same, then the output of the differential amplifier 12 should get a voltage whose amplitude ι is proportional only to the amplitude of the signal О Rs. The current amplifier 13 amplifies the power and a voltage is applied to the emitter 10 of the optocoupler 5, the magnitude of which is proportional only to the amplitude of the ORs complex and its increase entails an increase in the voltage at the output of the current amplifier 13, an increase in light emission and a decrease in the resistance of the photoresistor 4 and amplification of the operational amplifier 3. Thus, a constant-amplitude cardiosignal is supplied to the detector 7 and the comparison circuit 8 regardless of the level of the input signal and the heart rate frequency ¹ , and therefore, the direct circuit 8 is allocated These pulses are precisely phased from a certain point of the leading edge of the R-wave of the electrocardio signal, not only with a stationary rhythm of the heart, but also with its changes, which increases the accuracy of control.

Circulation 713 Subscribed

Branch of PPP Patent, Uzhhorod, st. Project, 4

Claims (1)

DEVICE FOR MANAGEMENT, ELECTROCARDIAC Pacemaker according to ed. St. No. 805999, characterized in that, in order to increase the accuracy of control, the regulating current amplifier comprises a first integrator, a resistor and a calibrated pulse shaper in series, a second integrator, a differential amplifier and a current amplifier, the calibrated pulse shaper connected to a comparison circuit, the second integrator is connected to a differential amplifier, and a resistor is connected to its feedback circuit. SU „..1039508