RU176395U1 - DEVICE FOR MEASURING THE PHOTOLUMINESCENCE LEVEL - Google Patents

Abstract

The invention relates to the field of optical measurements and relates to a device for measuring the level of photoluminescence. The device includes a housing, a source of exciting radiation, a light filter, a focusing optical system, a photodiode, an electric signal amplifier, an analog-to-digital converter, a microcontroller, a stabilization unit, an indication unit, a manual control unit, a serial interface module, and a power source. The output of the photodiode is connected to the input of the microcontroller through an electric signal amplifier and an analog-to-digital converter. The output of the microcontroller is connected to a source of exciting radiation through a stabilization unit. The exciting radiation source contains at least one LED with a maximum radiation wavelength in the range from 395 to 550 nm. The housing is made of a material shielding electromagnetic radiation, and comprises a cell for placing the column with the measured object on the same axis with a light filter, the optical focusing system and a photodiode, located at an angle ^of 30 - ⁶⁰ ° relative to the direction of the exciting radiation. The technical result is to increase the accuracy of measurements. 3 ill.

Description

The utility model relates to the field of analytical chemistry and can be used to register the radiation of a test layer of immunochemical column tests using a photodetector in order to increase the accuracy and speed of immunochemical analysis.

A device for measuring the level of illumination, including a radiation source, a radiation receiver and a registration unit (see copyright certificate No. 371458, IPC G01J1 / 10, publ. 11/22/1973).

The disadvantage of this device is that an electromechanical measuring device is used as a registration unit, which, with structural complexity, does not provide high reliability and accuracy in determining the level of illumination.

Closest to the claimed one is a device for measuring the level of photoluminescence, containing a control unit-controller located in the housing, the output of which is connected to a source of exciting radiation, a photodetector, the output of which is connected to the input of the control-controller unit through an analog-to-digital converter focusing the optical system located between the source of the exciting radiation and the photodetector, an indication unit connected to the output of the control unit – controller (see patent for IZ RU No. 2460140, IPC G 07D7 / 06, G06K9 / 00, published on 08.27.2012).

The disadvantage of this device is that this device is designed to identify a protective label containing a phosphor, and may not provide accurate quantitative measurement of the level of luminescence.

The objective of the utility model is to create a device with low mass and size characteristics for measuring the level of photoluminescence of the test layer of immunochemical column tests.

The technical result of the claimed utility model is to increase the accuracy and speed of immunochemical analysis.

The specified technical result is achieved by the fact that the device for measuring the level of photoluminescence, including located in the microcontroller case, the output of which is connected to a source of exciting radiation, a photodiode whose output is connected to the input of the microcontroller through an analog-to-digital converter, focusing the optical system located between the source of exciting radiation and a photodiode, an indication unit connected to the output of the microcontroller, according to the solution, includes a light filter located between a source of exciting radiation and a focusing optical system, a serial interface module for communication with a PC connected to the microcontroller, a manual control unit connected to the input of the microcontroller, a power source connected to a signal amplifier, an analog-to-digital converter, a microcontroller, a serial interface module, and an indication unit as well as an electric signal amplifier and stabilization unit, the output of the photodiode being connected to the input of an analog-to-digital converter through an amplifier e an electric signal, and the output of the microcontroller is connected to a source of exciting radiation through a stabilization unit, while the source of exciting radiation contains at least one LED with a maximum radiation wavelength in the range from 395 to 550 nm, and the device’s body is made of electromagnetic shielding material radiation, and contains a cell for placing the column with the measured object on the same axis with a light filter, a focusing optical system and a photodiode located at an angle of 30 ^about - 60 ^about relative to excitation radiation.

The utility model is illustrated by drawings, in FIG. 1 shows a block diagram of the inventive device, FIG. 2 shows a device for measuring the level of photoluminescence (sectional view), FIG. 3 shows a device for measuring the level of photoluminescence (top view).

The positions in the figures indicated:

1. a source of exciting radiation;

2. column for the measured object;

3. light filter;

4. focusing optical system;

5. photodetector block;

6. stabilization unit;

7. controller unit;

8. display unit;

9. manual control unit;

10. power supply;

11. the hole of the maximum diameter of the column;

12. measured object;

13. photodiode;

14. amplifier;

15. analog-to-digital converter (ADC);

16. microcontroller;

17. serial interface module;

18. cover;

19. cell;

20. base.

A device for measuring the level of photoluminescence contains an optical system including sequentially located in the direction of the exciting radiation: the source of the exciting radiation 1, made in the form of a set of LEDs with maximum radiation wavelengths in the range from 395 to 550 nm, column 2 with the measured object 12 in the form of a membrane, a light filter 3, the transmission spectrum of which corresponds to the photoluminescence spectrum of the measured object 2, focusing the optical system 4 (for example, collecting lens or lens system F = 5 ÷ 30 mm) and 5 lok photodetector. The photodetector unit 5 consists of elements electrically connected and placed on one printed circuit board: a photodiode 13, the spectral sensitivity range of which lies in the range from 420 to 675 nm, which is connected through a signal amplifier 14 to an analog-to-digital converter 15.

Unit 5 of the photodetector is connected via cable to the unit 7 of the controller. The controller unit 7 includes a microcontroller 16 with programmable logic and a module 17 of a serial interface for communication with a personal computer (PC), which are electrically connected and placed on a single circuit board. The connection of the photodetector unit 5 with a cable to the controller unit 7 is ensured by the fact that the output of the analog-to-digital converter 15 of the photodetector unit 5 is connected to the corresponding input of the microcontroller 16 of the controller unit 7.

An indication unit 8, for example, a liquid crystal display, and a voltage stabilization unit 6 connected to a source of exciting radiation 1 are connected to the corresponding outputs of the controller unit 7.

The manual control unit 9 is connected to the corresponding input of the microcontroller 16 of the controller unit 7 using a cable.

The device contains a power source, which can be selected as an autonomous current source (galvanic cell or electric battery), a power supply unit configured to connect to an AC network.

The power source 10 is connected via cables to the serial interface module 17 and the microcontroller 16 in the controller unit 7 and to the amplifier 14 and the ADC 15 in the photodetector unit 5, as well as to the indication unit 8.

In the claimed device, all the nodes and blocks are placed in a cylindrical body made of a material that shields electromagnetic radiation, for example, an aluminum alloy (duralumin), steel, brass, copper, reinforced plastic, as well as foil or metallized plastic.

The case consists of a cylindrical cover 18 and a cylindrical base 20 placed on the same axis 20 with a cell 19. The dimensions of the case do not exceed: 200 mm in height and 100 mm in diameter. The weight of the structure does not exceed 2 kg.

The lid 18 contains a cavity in which the light filter 3, the focusing optical system 4 and the photodetector unit 5 are placed so that the light filter 3, the focusing optical system 4 and the photo diode 13 are located on the axis of the housing, and an indication unit 8 and a block are placed on the outside of the end face of the cover 18 9 manual controls.

The base 20 contains a cavity in which the controller unit 7 and the power unit 10 are placed, and is configured to be fixed inside the cell body 19.

Cell 19 contains a source of exciting radiation 1 and a voltage stabilization unit 6 and is configured to accommodate column 2 for the measured object on the axis of the housing. The design of the cell 19 is made in such a way that illumination by the exciting radiation from the source 1 is carried out through the translucent wall of the column 2 for the measured object. The registration of the photoluminescence signal, in this case, will be through the hole 11 of the maximum diameter of the column.

For uniform illumination of the surface and effective excitation of the photoluminescence of the measured object, the direction of the exciting radiation from source 1 is located at an angle φ in the range from 30 ^about to 60 ^about from the axis of column 2.

The inventive device for measuring the level of photoluminescence works as follows.

To register photoluminescence, it is necessary to remove the cover 18 from the base 20 of the housing and install the column 2 with the measured object 12 in the cell 19. Next, install the cover 18 back to the base 20 and carry out the measurement procedure using the manual control unit 9. The registration procedure will be carried out within 1 minute.

When illuminating a measured object 12, containing, for example, photoluminescent quantum dots — semiconductor nanoparticles — by optical flux coming from the source 1 of the exciting radiation, optical photoluminescence is excited. The total light front, consisting of a useful photoluminescence signal and a spurious signal of the exciting radiation passes through the filter 3, which attenuates the spurious signal. The filtered total light front with the selected useful signal is focused by the optical system 4 onto the photodiode 13 of the photodetector unit 5. The electric signal generated at the output of the photodiode 13 (the voltage value of which corresponds to the photoluminescence level) is amplified by the signal amplifier 14, digitized using an analog-to-digital converter 15, and transmitted in digital form for registration to the input of the controller unit 7 for recording the photoluminescence level, where it is processed by comparison with the calibration constants previously stored in the memory, and the quantitative value of the photoluminescence level is stored in the memory of block 7 of the counter oller, and is displayed in block 8 of the display.

In this case, the controller unit 7, in accordance with the laid down program algorithm, automatically controls the operation of the LEDs of the exciting radiation source 1 by automatically normalizing the supply voltage of the exciting radiation source 1 by means of the stabilization unit 6 and ensures that calibration constants are stored in the memory, the values of which are determined during preliminary calibration measurements using standard sources of exciting radiation.

Using the manual control unit 9, the device is controlled: turning on, turning off, starting the measurement, saving the measurement result, outputting to the block 8 an indication of the saved measurement results.

In the claimed utility model, a high speed immunochemical analysis is realized due to the fact that the design of the device allows the use of a disk-shaped membrane (frit) embedded in a translucent syringe column as a measured object, which is easy to install in an appropriate seat.

In the design of the device, the sample of the measured object is combined with high accuracy with a source of exciting photoluminescent radiation and a photo detector (photodetector) for quantitative measurement of the level of photoluminescence without removing the frit from the column, which in turn increases the accuracy of measurements and ensures their repeatability.

Also, the accuracy of measurements is ensured by the use of shielding materials in the manufacture of the housing (for example, duralumin) to protect the electrical circuits of the device from spurious electromagnetic influences.

The presence of an additional filter located after the measured object and in front of the photodetector provides attenuation of the spurious signal of the exciting radiation, which, combined with the presence of a voltage stabilization block of the exciting radiation source and an electric signal amplifier connected between the analog-to-digital converter and the controller, provides a significant increase in the accuracy of quantitative level measurement photoluminescence with the simplicity of the design of the device.

Claims (1)

A device for measuring the level of photoluminescence, including located in the microcontroller case, the output of which is connected to a source of exciting radiation, a photodiode, the output of which is connected to the input of the microcontroller through an analog-to-digital converter, a focusing optical system located between the source of exciting radiation and the photodiode, an indication unit connected to the output of the microcontroller, characterized in that it includes a light filter located between the source of exciting radiation and focusing optical system, a serial interface module for communication with a PC connected to the microcontroller, a manual control unit connected to the input of the microcontroller, a power source connected to the signal amplifier, analog-to-digital converter, microcontroller, serial interface module and display unit, as well as an amplifier an electric signal and a stabilization unit, the output of the photodiode being connected to the input of an analog-to-digital converter through an electric signal amplifier, and the output of the microcontroller It is connected to the source of exciting radiation through the stabilization unit, while the source of exciting radiation contains at least one LED with a maximum radiation wavelength in the range from 395 to 550 nm, and the device’s body is made of material that shields electromagnetic radiation and contains a cell for column with placing the measured object on the same axis with a light filter, the focusing optical system and the photodiode, located at an angle of ^about 30 - ⁶⁰ ° relative to the direction of the exciting radiation.

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