UA120378C2 - DEVICE FOR MEASURING GAS CONCENTRATION - Google Patents

Abstract

The invention relates to devices for measuring gas concentration. The device for measuring gas concentration contains an analog-to-digital converter, a source of coherent radiation, optically connected through a cuvette and a lens to a photodetector of scattered radiation in the form of a single-junction phototransistor, to the emitter and the first base of which a capacitor is connected. Between the second base of the capacitor and the positive pole of the DC voltage source is connected in parallel interconnected field-effect transistor with p-n junction and MOSFET. Frequency and amplitude detectors are connected to the capacitor, the outputs are connected to the inputs of the differential amplifier. According to the invention, the device comprises an additional source of coherent radiation, optically connected via an additional cuvette and an additional lens to an additional photodetector of the scattered radiation flux. The device includes an additional capacitor, an additional field-effect transistor with a p-n junction and an additional MOSFET. Additional frequency and amplitude detectors connected to the additional differential amplifier are connected to the additional capacitor, and the outputs of the main and additional differential amplifiers are connected to the analog-to-digital converter through the subtraction unit. EFFECT: increased accuracy of the device.

Description

The invention belongs to the field of instrumentation and can be used as an optical gas concentration meter.

A known device for measuring the gas concentration, containing a source of coherent radiation, which is optically connected through a light-splitting element, a cuvette, a diaphragm, a lens with a diffuse radiation photodetector, the output of which is connected to the input of the comparator and to the first output of the switch, installed in series along the path of the beam, the second output of which is connected to the bus of zero potential, the information input is connected to the output of the photodetector of the reference radiation flux, and the control input is connected to the output of the comparator and the input of the low-pass filter, the output of which is connected to the reference device 11.

The disadvantage of the known device for measuring gas concentration is that due to the amplification of inherent noise of semiconductor elements, it has insufficient sensitivity.

A device for measuring gas concentration is also known, which contains a source of coherent radiation, optically connected through a cuvette and a lens to a diffused radiation photodetector, a single-junction phototransistor is used as a diffused radiation photodetector, a capacitor is connected to the emitter and the first base of which, and between the second base of which and the positive pole of the constant voltage source are connected in parallel with each other, a field-effect transistor with a p-p junction and an MDN transistor, each of which has a gate and a drain connected (21.

The disadvantage of the known device is that due to the measurement of only one physical quantity (oscillation frequency), it has insufficient sensitivity and linearity of the metrological characteristic.

A known device for measuring gas concentration, containing a source of coherent radiation, optically connected through a cuvette and a lens with a photodetector of a scattered radiation flux, a single-junction phototransistor is used as a photoreceptor of a scattered radiation flux, a capacitor is connected to the emitter and the first base of which, and between the second to the base of which and the positive pole of the constant voltage source, a field-effect transistor with a p-p transition and an MDN transistor are connected in parallel, each of which has a gate and a drain, frequency and amplitude detectors are connected to the capacitor, the outputs are connected to the inputs of the differential amplifier, the output of which is connected to the analog

With a digital converter. FROM). This device is selected as a prototype.

The disadvantage of the known device for measuring gas concentration is that it does not provide continuous measurement, but compares the measured value of the concentration of the gas mixture only once with the initial value when there is no gas in the cuvette. This reduces the accuracy of the measurement.

The invention is based on the task of improving the device for measuring gas concentration by using an additional source of coherent radiation, optically connected through a cuvette and a lens to a photodetector of a diffused radiation flux, as a photoreceptor of a diffused radiation flux, a single-junction phototransistor is applied to the emitter and the first base of which a capacitor is connected, and between the second base of which and the positive pole of a constant voltage source, a field-effect transistor with a p-p transition and an MDN transistor, each of which is connected in combination with a gate and a drain, are connected in parallel, an additional capacitor is connected to which additional frequency and amplitude detectors, the outputs of which are connected to the inputs of the additional differential amplifier, and the outputs of the main and additional differential amplifiers are connected to the analog-to-digital converter through the subtraction unit. This will increase the accuracy of gas concentration measurement.

The problem is solved by the fact that in the device for measuring the concentration of gas, which contains a source of coherent radiation, optically connected through a cuvette and a lens with a photodetector of a diffused radiation flux, a single-junction phototransistor is used as a photoreceptor of a diffused radiation flux, to the emitter and the first base of which a capacitor is connected, and between its second base and the positive pole of a constant voltage source, a field-effect transistor with a p-p junction connected in parallel is connected and

An MDN transistor, each of which has a gate and a drain connected, frequency and amplitude detectors are connected to the capacitor, the outputs are connected to the inputs of the differential amplifier, and also contains an analog-to-digital converter, according to the invention, an additional source of coherent radiation, optically connected, is used through a cuvette and a lens with a photodetector of a diffuse radiation flux, a single-junction phototransistor is used as a photoreceptor of a diffuse radiation flux, a capacitor is connected to the emitter and the first base of which, and between the second base of which and the positive pole of the constant voltage source, a field-effect transistor connected in parallel with each other is connected p-p-

transition and an MDN transistor, each of which has a gate and a drain, an additional capacitor to which additional frequency and amplitude detectors are connected, the outputs are connected to the inputs of the additional differential amplifier, and the outputs of the main and additional differential amplifiers are connected to the analog-digital through the subtraction block converter

The essence of the invention is explained by the drawing (Fig. 1), which shows a device for measuring gas concentration, which contains a source 1 of coherent radiation, optically connected through a cuvette 2 and a lens C with a single-junction phototransistor 4, a capacitor 5, a field-effect transistor with p-p- transition b and MDN transistor 7, in each of which the gate and drain are connected, such a connection is a carentor circuit that acts as a current stabilizer and at the same time effectively compensates for temperature disturbances, frequency detector 8 and amplitude detector 9, the outputs of which are connected to the inputs of the differential amplifier 10, analog-to-digital converter 11, source 12 of constant voltage E, and also contains an additional source 13 of coherent radiation, optically connected through a cuvette 14 and a lens 15 with a single-junction phototransistor 16, additional capacitor 17, field-effect transistor with p-p- crossing 18 and

MDN transistor 19, in each of which a gate and a drain are connected, this connection is a carentor circuit that acts as a current stabilizer and at the same time effectively compensates for temperature disturbances, additional frequency detector 20 and amplitude detector 21, the outputs of which are connected to the inputs of an additional differential amplifier 22, the subtraction unit 23, the inputs are connected to the differential amplifiers 10, 22, and the output is connected to the analog-to-digital converter 11, and the output of the device Output is formed by the output of the analog-to-digital converter 11 and the common bus.

The device for measuring gas concentration works as follows. At the initial moment of time, clean air is supplied to the cuvettes 2, 14. When the source 12 of constant voltage E is connected, the capacitor 5 (17) begins to charge according to the linear law through the transition of the second base-emitter of the single-junction phototransistor 4 (16) and the field-effect transistor with p-p junction 6 (18) and

MDN transistor 7 (19). As soon as the capacitor 5 (17) is charged to the breakdown voltage Ozro (circuit 40, Fig. 2), the emitter-first base transition of the single-junction phototransistor 4 (16) is turned on and the capacitor 5 (17) is discharged through it to the residual voltage Iz (circuit 40, Fig. 2), after

As a result, the capacitor 5 (17) begins to charge again to the breakdown voltage I»: (epigraph 4 95 fig. 2). At the same time, the same voltage pulses with a period of 70 and an amplitude of Ао-ЮШОзро-Оз are formed on both capacitors 5 and 17 (circuit 40, Fig. 2). Further, the signals from the capacitor 5 through the frequency detector 8 and the amplitude detector 9 are received at the inputs of the differential amplifier 10, where their algebraic summation takes place, and the signals from the capacitor 17 through the frequency detector 20 and the amplitude detector 21 are received at the inputs of the differential amplifier 22, where their algebraic summation takes place summation, while at the output of the subtraction unit 23 and at the output of the analog-to-digital converter 11, which is the output of the Output device, there is no signal.

When the gas mixture is supplied to the cuvette 2, a different amount of optical energy will fall on the single-junction phototransistor 4, and the resistance of its transition to the second base-emitter will change. At the same time, the breakdown voltage Ozre will change accordingly (diagram 4, fig. 2), which will lead to a corresponding change in the period of Te pulses and the amplitude of AF-Ozroe-Oz (diagram 4, fig. 2). Further, these signals, proportional to the concentration of the gas mixture, from the capacitor 5 through the frequency detector 8 and the amplitude detector 9 are sent to the inputs of the differential amplifier 10, where their algebraic summation takes place, and the signals proportional to the possible change in the state of clean air over time from the capacitor 17 through the frequency detector 20 and amplitude detector 21 enter the inputs of the differential amplifier 22, where their algebraic summation takes place. Then, from the output of the subtraction block 23, the resulting analog signal after conversion in the analog-to-digital converter 11 is output to the output of the device in digital form.

The proposed invention will improve the accuracy of the device.

Sources of information: 1. Author's certificate of the USSR Mo 1716399, (501 M 21/01, 1989. 2. Patent of Ukraine Mo 101784, (501 M 21/01, publ. 25.09.2015, Bull. Mo 18. 3. Patent of Ukraine Mo 115382, C01M 21/01, published 04/10/2017, Mo 7 Blvd.

Claims (1)

FORMULA OF THE INVENTION A device for measuring the gas concentration containing a source of coherent radiation, optically connected through a cuvette and a lens with a photodetector of a scattered flux of radiation, as a photoreceiver of a scattered flux of radiation, a single-junction phototransistor is used, a capacitor is connected to the emitter and the first base of which, and between the second base of which and the positive pole of the constant voltage source, a field-effect transistor with p-p transition and an MDN transistor are connected in parallel, in each of which the gate and drain are connected, frequency and amplitude detectors are connected to the capacitor, the outputs are connected to the inputs of the differential amplifier, and also contains an analog-to-digital converter, which is characterized by the fact that it contains an additional source of coherent radiation, optically connected through an additional cuvette and an additional lens with an additional photodetector of the scattered radiation flux, as an additional photoreceiver of the scattered radiation flux an additional single-junction phototransistor is installed, an additional capacitor is connected to the emitter and the first base of which, and a constant voltage source is connected between the second base and the positive pole of the constant voltage source, an additional field-effect transistor with a p-p junction and an additional MDN transistor are connected in parallel, in each from which the gate and leakage are connected, additional frequency and amplitude detectors are connected to the additional capacitor, the outputs are connected to the inputs of the additional differential amplifier, and the outputs of the main and additional differential amplifiers are connected to the analog-to-digital converter through the subtraction unit. Gas amount! -- "7 from above Eh i| re 33. ! 7 ! i ; Ka : : shenation - - and Men in res fen z I z lek liezhianni and I veni: nia still NN en CHI KOKON Yak I sh | i Ka N ka and S that Io sh . f . Shk 4 N V) 1 a I Z ren , ' y | ! nin; child and she shk I I - rok! Gazova sumimo 2. now shi in B -- 1. NID / call! na rennia bpnchyud : soy ! go to sleep For M... tyu, N «I i-i This is NEWS: r shk SHY SHE m ' - God's tobacco N i tt to rn rya -i i SHI n rosh-! photo and Frequent air | ! I4 and in KOT H 1 N y r ur : N y and shk, etuyttutttatya 19 i - PI V 1 | With ke MA zhi and Tsi and we she or we SHY! r i ny kA pe | | pet Xia ozh i I I che i i i ryh | not now nn fo 1 r Ky r "What else nn Clean air M Fig. 1