SU757151A1 - Rheograph - Google Patents

Description

one

The proposed reograf relates to medical electronic equipment and is designed to measure the relationship of the variable component of biological impedance to its constant component by the rheographic method.

The impedance plethysmograph, which contains a high-frequency current generator with a constant amplitude, generator electrodes connected to a current generator, as well as serially connected receiving electrodes, a high-frequency amplifier, a low-frequency detector and amplifier, a rheogram calibration generator and its derivative, is known the balance of the constant component of the rheogram, the scheme of the differentiator and the suppression of the signals of artifacts [1 |.

Known impedance plethysmograph ^{15 is} designed to register the rheogram and its derivative.

A significant drawback of such an impedance plethysmograph is low accuracy of determining the ratio _m hydrochloric variable component rheogram to its constant "hydrochloric component.

The closest technical solution to the invention is the rheograph ΡΓΙ-01,

2

containing a high frequency current generator and a constant amplitude, generator electrodes connected to the output of the current generator, as well as serially connected receiving electrodes, a high frequency amplifier and a detector, a low frequency amplifier and a calibration circuit [2].

The well-known rheographer also has low accuracy in determining the ratio of the variable component of a rheogram to its constant component due to separate measurement of the variable and the constant components.

The measurement error of the variable impedance component depends on the stability of the parameters of the amplification-conversion path of the rheograph and the recorder. The signal of the constant component of the impedance does not pass through the amplifying-conversion path of the rheograph and the recorder, and the error in measuring the constant component is determined by the sensitivity of the balanced circuit, the sensitivity of the balance indicator (null organ) and the degree of balance of the circuit at the time of measurement.

757151

Thus, the total instrument error in measuring the ratio will be determined by the algebraic sum of instrument errors in measuring these quantities.

6 = another + 6-,

where <6 is the instrument error in measuring the ratio;

<о ~ - instrumental error of measurement of the variable component;

<6 = - instrumental error of measurement of the constant impedance component.

The aim of the invention is to improve the measurement accuracy of the ratio of the variable component of the rheogram to its constant component.

This is achieved by the fact that the calibration circuit is made in the form of two series-connected resistors, a switch and a calibration relay, the normally open contact pair of which shunts the first resistor, and the second resistor shunts the normally open switching circuit of the switch, and the detector output is connected to the second resistor and through a normally closed switching circuit of the switch - to the low-frequency amplifier with a recorder.

The drawing shows a structural diagram of the reograf.

Rheograph contains a generator 1 current-high frequency and constant amplitude, generator electrodes 2, receiving electrodes 3, high-frequency amplifier 4, detector 5, low-frequency amplifier 6 with a recorder, calibration circuit 7. The calibration circuit contains resistors 8 and 9, switch 10, normally open contact pair 11 of the calibration relay.

The device works as follows.

The current of the generator 1, flowing through the area of the fabric, creates on its impedance a voltage drop, the amplitude of which varies according to the law of change of impedance of the fabric. This voltage is amplified by amplifier 4 and detected by detector 5. At the detector load, there are constant and alternating voltage components proportional to the corresponding components of the measured impedance. In the position of the switch 10 as shown in the diagram, from the output of the detector 5 to the input of the amplifier 6 enters the variable component of the impedance (rheogram).

When the switch 10 is set to the second position and when the contact pair 11 is opened-closed, the calibration signal from the resistor 9, which is the arm of the resistive divider, which is connected to the constant component circuit, is sent to the input of the amplifier 6. The resistance value of the resistor 9 is selected in a certain relation to the value of the resistor 8.

Thus, the amplitude of the calibration signal is proportional to the value of the constant component of the impedance and is set in a certain relation to it.

The low-frequency amplifier 6 amplifies the rheogram and calibration signals to values that ensure the operation of the recorder. By recording the rheogram and calibration signals and measuring their amplitude values, it is possible to determine the ratio of the impedance components by the formula

Δ = Δ _κ

^L to

where Δ is the measured value of the ratio of the components of the impedance;

Δχ - the established calibration value of the ratio of the components of the impedance, for example Δ _κ = 10 * 10

Ap - amplitude of the rheogram, for example, mm;

And _to - the amplitude of the calibration signal, for example, mm.

In the proposed device, the signals of the rheogram and calibration pass through the same circuits, therefore, instrument measurement errors are due to the same reasons, therefore, they are excluded when determining the ratio.

In the proposed device, the calibration circuit is included in the constant component circuit of the measured impedance between the detector output and the low-frequency amplifier input, and the calibration signal is set proportional to the constant component and in a given calibration ratio to this value, thereby improving the accuracy of measuring the ratios of the biological impedance components.

Claims (1)

Claim 1. Reograf containing a high-frequency current generator and a constant amplitude, generator electrodes connected to the output of the current generator, as well as serially connected receiving electrodes, a high-frequency amplifier and detector, a low-frequency amplifier with a recorder and a calibration circuit, characterized in that the purpose of improving the accuracy of measurements of the ratio of the variable component of the rheogram to its constant component, the calibration circuit is made in the form of two series-connected resistors, a switch and a calibration o relay, normally open contact pair which shunts the first resistor, and the second resistor shunts the normally open switching circuit of the switch, and the detector output is connected to the second resistor and through the normally closed switching757151 A new switch circuit is connected to a low-frequency amplifier with a recorder.