CS260684B1 - Two-beam photometer for evaluation of reagent fringes' dyeing intensity - Google Patents

Abstract

The photometer consists of a measuring cell (1) which is connected to an electronic changeover switch (10) and to a phase detector (9). A light-emitting diode (luminescent diode) (2) of the measuring cell (1) is connected to a working voltage/current transformer (11). A reference light-emitting diode (5) of the measuring cell (1) is connected to a reference voltage/current transformer (12) which is connected via a measuring potentiometer (13) to the working voltage/ current transformer (11). The measuring cell (1) is provided with a photo resistor (9) which is connected via an amplifier (7) and a block (8) for signal reconstruction to the phase detector (9), to which the output of the electronic changeover switch (10) is further connected, and whose output is fed to a balance indicator (14). <IMAGE>

Description

The invention relates to a double-beam photometer for evaluating the color intensity of reagent strips, consisting of a measurement cell connected to an electronic switch and a phase sensitive detector.

Up to now, two basic types of instruments have been designed for objective evaluation of reagent strips. '

The first type is microprocessor-controlled devices, the disadvantage of which is the high cost of small-lot production, the lower measurement accuracy achieved and the complexity of portable systems based on the available component base.

The second type is more accurate analog instruments, which are larger and also more expensive than the first group. As a source of radiation, they usually use glow tubes switched by high voltage transistors. They typically use fast photodiodes or phototransistors to evaluate reflected light fluxes. The luminous flux ratio, that is, the flux reflected from the reagent strip and the luminous flux from the reference source, is evaluated compensatively with the aid of a costly needle depression measuring system.

According to the invention, these two drawbacks are overcome by a two-ray photometer for evaluating the color intensity of the reagent strips, consisting of a measuring cell connected to an electronic switch and a phase-sensitive detector. It is based on the fact that the luminescence diode of the measuring cell is connected to the working voltage-current converter and the reference luminescence diode of the measuring cell is connected to the reference voltage-current converter, which is connected to the working gear via a measuring potentiometer block.

260 684

- a voltage-current transducer, wherein the measuring cell is provided with a photoresistor coupled via an amplifier and a signal reconstruction block to a phase detector to which the output from the electronic switch is connected and from which the output to the balance indicator is output longer.

The higher effect of the invention consists in replacing the expensive depression meter with a pair of indicating luminescent diodes and using a cheap and sensitive photo resistor. Another advantage is a substantial reduction in the geometric dimensions of the apparatus and a reduction in production costs.

The apparatus for objective evaluation of the color intensity of the reagent strips is further explained in the accompanying drawing.

The two-ray photometer consists of a measuring cell 1 which is formed by a luminescent diode 2. The luminescent diode 2 is connected by a working voltage-current transducer 11 and a reference luminescent diode 6 is connected by a reference voltage-current transducer 12, which is connected to a working voltage-current transducer 11 via a measuring potentiometer block 13. The cell 1 is provided with a photoresistor 6 which is connected via a phase detector 6 via an amplifier 7 and a signal reconstruction block 8 to it. The output from the electronic switch 10 is connected to it.

The photometer works as follows. The luminous flux of the luminescent diode 2 illuminates the reagent strip 6 through the aperture 2, and the luminous flux reflected from this strip alternates with the luminous flux of the reference luminescent diode 2 on the photoresistor 6. to the phase detector 9. The electronic switch 10 generates a control voltage for the working voltage-current converter 11 and the reference voltage-current converter 12, while the AC signal from the electronic switch 10 is simultaneously supplied to the phase sensitive detector 9. luminescent diodes

260 684 а 2 measuring cells 1. The luminous flux ratio of these diodes is controlled by a suitable wiring of the measuring potentiometer 13. The balance of these fluxes can be monitored by means of two indicator luminescent diodes of the balance indicator 14. The scale of the potentiometer 12 can be calibrated directly in the concentration units of the analyte and can be exchanged.

The above apparatus was tested by measuring stained reagent strips. The time required to measure one reagent strip is about a few seconds. Accuracy of measurement using the instrument itself (after conversion) is better than - 0.03 mmol / l in the range of 1 to 20 mmol / l glucose, while the reproducibility of the reagent strip staining is about 0.4 mmol / l ·

Claims (1)

A two-beam photometer for evaluating the color intensity of the reagent strips, consisting of a measuring cell connected in an electronic switch and a phase sensitive detector, characterized in that the luminescent diode (2) of the measuring cell (1) is connected to a working voltage-current converter (11) the reference luminescence diode (5) of the measuring cell Л / is connected to a reference voltage-current converter (12), which is connected via a measuring potentiometer block ДЗ / to a working voltage-current converter Д1 /, the measuring cell / 1 / is provided with photoresistor / 9), connected via amplifier (7) and signal reconstruction block (8) to a phase detector (9), to which the output from the electronic switch ДО / is connected and from which the output is output to the indicator D4 (balance).