SU1738263A1 - Device for studying cardiac rhythm - Google Patents

Abstract

Usage: veterinary medicine, in particular, devices for the diagnosis of animal diseases. The invention: the signal from the sensor is normalized, after which the duration of the cardiac interval is determined. From the total sample, only information about intervals with a specified duration, i.e., is received at the input of the counter-decoder counter. risk intervals. 1 il.

Description

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The invention relates to the field of medicine and veterinary medicine, namely to technical devices for the diagnosis of various diseases.

The purpose of the invention is to expand the functionality.

The drawing shows a block diagram of a device for examining heart rate.

The device contains a sensor 1, suppressed, for example, on the basis of an optocoupler pair, an input amplifier 2, an adapting amplifier 3, a threshold adjustment unit 4, a voltage comparator 5, a generator of 6 rectangular pulses, a frequency divider 7, the first 8 and second 9 counters pulses, the first 10 and second pulse formers, a code comparison circuit 12, a sensor of 13 time slots, a decoder counter 14, and a digital indicator 15.

The output of sensor 1 is connected to the input of amplifier 2, the output of which is connected to the input of adapting amplifier 3, the output of which is connected through the threshold adjustment unit 4 to one of the inputs of the voltage comparator 5, the other input of which is connected directly to the output of adapting amplifier 3. Comparator 5 N is connected to the input of the first shaper 10 pulses, to the input of the second counter 9 and to the first input of the second shaper 11 pulses. The output of the generator 6 is connected to the first input T of the splitter 7 of the pulse frequency, the second input of which is connected to the common output O of the time interval generator. The output of the frequency divider is connected to the information input of the first counter 8. The setup input of which the mouth is connected to the output of the first driver 10 pulses. YouVI

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The setpoint moves of the time slot 13 time intervals are connected to the first inputs of the code comparison circuit 12, the second inputs of which are connected to the outputs of the first counter 8, and the first a and second L outputs are respectively connected to the second and third inputs of the second pulse shaper 11, the fourth input of which is connected with the information output of the resolution of the second counter 9, the installation output of the mouth of which is connected to the installation input of the counter-decoder 14, the information input of which is connected to the output of the second driver 11 pulses. The outputs of the counter-decoder 14 are connected to the inputs of the digital indicator.

The device works as follows.

The signals from the photo sensor 1 are fed to the input of the amplifier 2, which together with the sensor converts the pulse waves into an electrical signal necessary for the operation of the adaptive amplifier 3. The signal at the output of the adaptive amplifier 3 depends on the magnitude of the signal at its input, from which the voltage is generated adjusting the gain of the adaptive amplifier 3, the brown eliminates floating signal level due to artifacts. From the output voltage of the adaptive amplifier 3, the threshold adjustment unit forms a reference voltage, which is fed to one of the inputs of the comparator 5 voltages. From the output of the voltage comparator, stable normalized in magnitude rectangular pulses with steep fronts are received. At the same time, stable rectangular pulses are received from the output of the generator b to the input of the divider 7 frequency. A frequency divider 7 generates pulses with a necessary period, for example, 0.01 s, which arrive at the information input of the first counter 8. Counter 8 performs a consecutive measurement of the time intervals between adjacent intervals. The first driver 10 controls the operation of the first counter 8 by applying a short pulse to its installation input from signals from the output of the comparator 5 voltages. In the comparison scheme of codes 12, the risk intervals are selected in accordance with the specified settings in the transmitter of 13 time intervals.

The selected intervals through the second driver 11 pulses are fed to the input of the counter-decoder 14. The second counter 9 forms a conventional measurement scale and controls the second driver 11, allowing 14 signals carrying the number of intervals with a given duration and counter to pass the counter-decoder 14 - decoder 14, forming measurement cycle pulses. The information is decrypted using the counter-decoder 14 and displayed on a digital indicator 15. A conventional scale is formed so that the digital indicator indicates the percentage of intervals with a given duration in the total cardiointerval sample. This is achieved by the fact that the second counter 9 cycles through 100 cardio pulses, and the input of the counter-decoder from this sample receives only information about intervals with a given duration (intervals

risk) of the total sample

The use of the device allows to extend its functionality. Assessment of the presence of specified intervals of cardio pulses in the general distribution,

on which it is possible to judge the degree of risk to a particular disease and the functional state of the organism, the ability to set time intervals depending on the objectives of the research, on the type

the animal being surveyed, its gender and other characteristics and specificity, convenient construction of a scale on which the result of the examinations is determined, the ability to assess the animal's condition, taking into account the regulatory aspects of the functional load of the body, the absence of requirements for highly qualified specialists, a prophylactic examination, expands the field of application of the device in

whole

The device can be used when conducting mass preventive examinations in the diagnosis of subclinical stages of diseases in the field

conditions The device can be implemented on the basis of a single integrated technology, for example, in the form of a large integrated circuit with a liquid crystal indicator. This increases

the immunity of the device in the presence of longitudinal and transverse electromagnetic interference that exists in livestock complexes. The efficiency of the adaptive amplifier also increases with sudden involuntary movements of animals.

Claims (1)

Apparatus of the Invention A device for examining a heart rhythm comprising a sensor connected Through an input amplifier with an adapter amplifier output, the output of which is connected to one of the voltage comparator inputs through the threshold control unit, the other input of which is connected directly to the input of the adapting amplifier, and the voltage comparator output is connected to the first input of the pulse shaper and to the first input of the second pulse former, the generator of pr - coal pulses, the output of which is connected to the first input of a frequency divider, the first and second pulse counters, the counter-decoder, the outputs of which connected to the inputs of a digital indicator, in order to expand the functionality, the device is equipped with a code comparison circuit and a time interval generator, the outputs of which are connected to the first the outputs of the comparison circuit, and the common input is connected to the second input of the frequency divider, the output of which is connected to the information input of the first counter, while the setup input of the latter is connected to the output of the first pulse shaper, and the outputs are connected to the second inputs of the comparison circuit, the first and second outputs which is connected respectively to the second and third inputs of the second pulse generator, and the fourth input of the latter is connected to the information output of the second counter, the input of which is connected to the output voltage comparator, and the installation output is connected to the installation input of the counter decoder, in addition, the information input of the latter is connected to the output of the second pulse shaper.