SU1052216A1 - Optronic differential amplifier of electrocardiosignal - Google Patents

Description

The invention relates to medical equipment, namely to devices for amplifying electrocardiograms.

Known optoelectronic amplifier with differential input, containing two optically coupled through an LED and the first photodiode of the differential optocoupler operational amplifiers with bias elements of zero level, while the second photodiode 'differential optocoupler is connected in parallel to the inputs of the first operational amplifier, the first photodiode is connected to a current amplifier made on second operational amplifier [jlj.

A disadvantage of the known amplifier is the low amount of noise suppression from the mains voltage acting between the ground and the common point of the isolated part of the amplifier, since the input impedance of the amplifier is small and almost equal to the value of the resistor included in the input circuit of the known device.

The aim of the invention is to increase the noise immunity of the amplifier.

This goal is achieved by the fact that · an optoelectronic differential amplifier, an electrocardiosignal, ¹ containing two optically coupled via an LED and a first photodiode. A differential optocoupler of an operational amplifier with zero-level bias elements, while the second differential optocoupler photodiode connected to the input of the first operational amplifier contains two resistors, the first of which is connected in series to the input of the first operational amplifier, and the second is connected in parallel to the non-inverting input of the second ,, of the operational amplifier and the first differential photodiode of optocoupler connected in parallel with the second resistor, the second photodiode is connected parallel to the first resistor, and the LED is connected to the output of the first operational amplifier.

The drawing shows a structural. scheme of the proposed optoelectronic differential amplifier of an electrocardiogram.

The device contains two operational amplifiers 1 'and 2 with bias elements optically coupled through LED 3 and the first photodiode' 4 of the differential optocoupler 5, bias elements 6 and 7 of the zero level, the second photodiode 8 of the differential optocoupler 5 is connected to the input of the 'operational amplifier 1, two resistors 9 and 10, the first of which. connected in series to input 5 of operational amplifier 1, and a second resistor connected in parallel to the non-inverting input of operational amplifier 2, with photodiode 4 connected in parallel to resistor 10, 10 and photodiode 8 in parallel to resistor 9, LED 3 connected to the output of operational amplifier 1.

The device operates as follows.

Active electrodes are connected to the input terminals of the operational amplifier 1, which is the isolated part of the device, the indifferent electrode is connected to the common point of the isolated part of the device (negative output of LED 3); The potential difference of the biological object between the active electrodes is compensated by the voltage at the _from photodiode 8. Due to the action of the serial negative feedback formed by LED 3 _: and photodiode 8, due to the fact that the characteristics of the photodiodes 8 and 4 of the differential optocoupler 5 are identical, the voltage on the photodiode 4 will be equal to the voltage on the photodiode 8, i.e. equal to the input potential difference. The voltage at the photodiode .4 is amplified by an operational amplifier 2 included in accordance with the scheme of a non-inverting voltage amplifier.

An optoelectronic differential amplifier can improve the quality of 4Q recording of electrocardiological signals due to the optimal matching of the high-internal resistance of the biological object with the input circuit of the amplifier, since the input resistance of the device due to the action of serial negative feedback can reach several hundred megaohms. The network noise acting between the common point of the isolated part of the device and the ground 50 is suppressed by the choice of resistors 9 and 10, when the resistors are reduced, the amplitude of the interference reduced through the passage capacitance of the differential 55 optocoupler at the input of the operational amplifier 2, the value of the useful signal at the input of the operational amplifier : at the same time, it does not change and remains equal to the potential difference ^ of the bioobject.

Claims (1)

; (5-7) OPTOELECTRONIC DIFFERENTIAL AMPLIFIER OF ELECTROCARDIO SIGNAL, containing two optically connected I via an LED and a first photodiode of a differential optocoupler of an operational amplifier with zero level bias elements, while the second photodiode of a differential optocoupler is connected to the input of the first operational amplifier, characterized in that, with In order to increase the noise immunity of the amplifier, it contains two resistors of ⁴ ra, the first of which is connected in series to the input of the first operational amplifier. and the second one is connected in parallel to the non-reversing input of the second operational amplifier / amplifier, the first photodiode of the differential optocoupler connected in parallel to the second resistor, the second photodiode connected in parallel / to the first resistor, and the light diode connected to the output of the first operational amplifier.