DE3826263A1 - Arrangement for the measurement of the concentrations of components in a gas mixture, using non-selective gas sensors - Google Patents

Abstract

Arrangement for the measurement of the concentrations of components in a gas mixture, using non-selective gas sensors, as well as measuring method therefor. The arrangement contains a multiplicity of non-selective gas sensors (GA, GB, GC, GD), which are suitable in each case for the qualitative and quantitative detection of a plurality of types of gas. A pilot substance of known concentration is mixed in with the gas mixture to be analysed. A controllable amplifier (2) is provided for each gas sensor (GA, GB, GC, GD). The amplified signals are analysed in a pattern recognition matrix (5) and output as concentration signals. The concentration signal of the pilot substance and the predetermined desired value of this concentration are fed to a differential amplifier (7). The gain of the controllable amplifier (2) is controlled with the output signal of the differential amplifier (7) in such a way that the concentration signal of the pilot substance coincides with the desired value. The measurement method is suitable to compensate drift phenomena in non-selective gas sensors (GA, GB, GC, GD). <IMAGE>

Description

The invention relates to an arrangement for measuring the concentration trations of components in a gas mixture and a Meßver drive for such an arrangement.

Chemosensors, as for example from DE 35 19 397 A1, DE 35 19 436 A1, DE 35 19 410 A1 and DE 35 19 435 A1 are known, show by poisoning by aging or exposure punch drift phenomena. These consist in the fact that Measurement of concentrations equal to below concentrations different signals. Long-term stable measurements are therefore not possible with such a sensor.

It is therefore necessary to replace the sensor as soon as the Drift effects become unacceptably large. For accurate measurements who which often requires very short intervals for replacement Lich.

Another remedy is to re-calibrate the sensor. There to the substance to be measured with a known concentration tion introduced into the sensor system. Post-verification is inevitably ge with an interruption of normal operation couples.

The invention has for its object an arrangement and specify a measuring method with which long-term stable measurements of concentrations of a gas mixture using chemo sensors are possible.

The task is accomplished by arranging the above Resolved with the following characteristics:

• a) there are several non-selective gas sensors, each for quantitative and qualitative detection of several types of gas are suitable, intended,
• b) For each non-selective gas sensor there is an adjustable one Amplifier provided,
• c) there is a pattern recognition matrix provided by Ver stronger signals are fed
• d) a differential amplifier is provided to which a signal is supplied from the pattern recognition matrix, which the Compares signal with a specified setpoint and with whose output signal controls the controllable amplifier will.

A non-interfering pilot sub is added to the gas mixture for measurement punch with known concentration added. The pilot substance can be detected by the non-selective gas sensors. The pilot substance is chosen so that the drift behavior the gas sensors when measuring the pilot substance if possible not by that when measuring the components of the Gas mixture differs. The signals of the gas mixture and the gas sensors exposed to the pilot substance are re adjustable amplifiers. The amplified signals are a pattern recognition matrix, such as that from DE 35 19 397 A1, DE 35 19 436 A1, DE 35 19 410 A1 or DE 35 19 435 A1 is known. In the pattern recognition measure The concentrations of the components of the gas mixture are trix as well as the pilot substance and output as signals. The concentration signal of the pilot substance becomes a difference amplifier fed. The differential amplifier is also a setpoint for the concentration of the pilot substance is supplied. With the output signal of the differential amplifier, the right gelbaren amplifier controlled so that the concentration signal  the pilot substance with the target value for the concentration of the Pilot substance matches.

It is within the scope of the invention, in addition, a selective one To provide a sensor that is only sensitive to one type of gas and that shows no long-term drift effects. As a pilot substance then used this type of gas for which the selective sensor is sensitive. The signal from the selective sensor then forms the target value for the concentration of the pilot substance. That has the advantage of fluctuations in the concentration of the pilot Substance included in the target value.

The task continues through a measurement method of the beginning with the following steps:

• a) the gas sensors are exposed to a sample that is too measuring gas mixture containing several components and contains a pilot substance of known concentration, where each gas sensor delivers a signal
• b) the signals are fed to the controllable amplifiers,
• c) the amplified signals are in the pattern recognition matrix analyzes,
• d) the pattern recognition matrix gives a con for each substance center signal off,
• e) the concentration signal of the pilot substance and a target worth for the concentration of the pilot substance in the Pattern recognition matrix is saved, the difference amplifier supplied, which provides an output signal,
• f) with the output signal of the differential amplifier, the Ver Strengthening the controllable amplifier regulated so that the Kon concentration signal of the pilot substance with the setpoint Right.

When using the measuring method in a sensor system for over Watching the air, for example, it is beneficial to oxygen content of the air to use as a pilot substance.

The level of the output signal of the differential amplifier with which the adjustable amplifier is a measure of the aging or poisoning of the gas sensors. Dependent on The gas sensors can therefore measure the level of this output signal to be replaced.

Further refinements of the invention can be found in the remaining An sayings.

In the following the invention with reference to the figures and the Aus examples of management explained in more detail.

Fig. 1 shows a sensor arrangement in which the target value for the concentration of the pilot substance is stored in the pattern identifier matrix.

FIG. 2 shows a measuring arrangement in which the target value for the concentration of the pilot substance is provided by measurement with a selective sensor.

In the figures, the same reference symbols denote the same mark times.

In Fig. 1 four non-selective gas sensors G _A , G _B , G _C , G _D are shown. The non-selective feature here means that the gas sensor is sensitive to several gas sensors. The signals of the gas sensors G _A , G _B , G _C , G _D are fed to controllable amplifiers 2 via signal lines 1 . The gain of the regulatable amplifier 2 can be controlled from the outside via a control input 3 . The signals amplified in the controllable amplifiers 2 are fed to a pattern recognition matrix 5 via leads 4 . A pattern recognition matrix 5 is known for example from DE 35 19 397 A1, DE 35 19 436 A1, DE 35 19 410 A1 and DE 35 19 435 A1. In the pattern recognition matrix 5 , the sensor signals, each of which is dependent on a plurality of gas types and which are different for different gases, are analyzed and converted into signals which are proportional to the concentration of a gas type. These concentration signals are output from outputs 6 of the pattern recognition matrix 5 . The concentration signal of the pilot substance is fed to a differential amplifier 7 . The differential amplifier 7 is also supplied with a target value for the concentration of the pilot substance, which is stored in the pattern recognition matrix 5 . The output signal of the differential amplifier 7 is dependent on the correspondence between the concentration signal of the pilot substance and the target value for the concentration of the pilot substance. With the output signal of the differential amplifier 7 of the variable gain amplifier 2, the gain of the variable Verstär ker 2 adjusted via the control inputs 3 that the concentration signal for the pilot coincides substance substance with the target value for the concentration of Pilotsub.

In FIG. 2, an arrangement is shown which also includes the non-selective gas sensor G _A, G _B, G _C, G _D. The arrangement also contains a selective sensor S which is only sensitive to one type of gas. The selective sensor S is selected so that it is free from drift effects due to aging or poisoning. The gas sensors G _A , G _B , G _C , G _D and the selective sensor S are placed out of a gas mixture to be measured, to which the type of gas admixed as the pilot substance to which the selective sensor S is sensitive. The signals from the gas sensors G _A , G _B , G _C , G _D are in turn fed to controllable amplifiers 2 via signal lines 1 . The controllable amplifiers 2 can be adjusted in their amplification from outside via control inputs 3 . The amplified signals are fed to a pattern recognition matrix 5 via leads 4 . In the pattern recognition matrix 5 , the signals are analyzed and processed so that only one concentration depending on the type of gas concentration signals are available at the outputs 6 . The concentration signal for the pilot substance is fed to the differential amplifier 7 . The signal from the selective sensor S is also supplied to the differential amplifier via a line 8 . The signal from the selective sensor S provides the setpoint for the concentration of the pilot substance. Since the selective sensor S shows no drift effects, this setpoint is independent of the age or the poisoning status of the sensor. The difference amplifier 7 in turn outputs an output signal as a function of the deviation between the concentration signal of the pilot substance and the target value for the concentration of the pilot substance. This output signal is used to adjust the gain via the control inputs 3 of the controllable amplifier 2 so that the concentration signal of the pilot substance corresponds to the target value for the concentration of the pilot substance.

When using an arrangement according to the invention Monitoring the indoor air is beneficial as a pilot substance To use oxygen content in the air.

From the level of the output signal of the differential amplifier 7 can be concluded on the state regarding age and poisoning of the alley sensors G _A , G _B , G _C , G _D. Therefore, the output signal of the differential amplifier 7 can be used as an indication when it is necessary to replace the gas sensors G _A , G _B , G _C , G _D.

Claims (8)

1. Arrangement for measuring the concentrations of components in a gas mixture with the following features:

• a) there are several non-selective gas sensors ( G _A , G _B , G _C , G _D ), each of which are suitable for the quantitative and qualitative detection of several types of gas,
• b) for each gas sensor ( G _A , G _B , G _C , G _D ) a controllable amplifier ( 2 ) is provided,
• c) a pattern recognition matrix ( 5 ) is provided, to which signals are supplied by the amplifier ( 2 ),
• d) a differential amplifier ( 7 ) is provided, to which a signal from the pattern recognition matrix is fed, which compares the signal with a predetermined desired value and with whose output signal the controllable amplifiers ( 2 ) are driven.

2. Arrangement according to claim 1, characterized in that a selective sensor ( S ), which is only sensitive to one type of gas and which shows no long-term drift effects, is provided, which provides the setpoint for the difference ver stronger ( 7 ). 3. Measuring method for an arrangement according to claim 1 with the following steps:

• a) the gas sensors ( G _A , G _B , G _C , G _D ) are set out a sample containing a gas component to be measured, containing several components of the gas mixture and a pilot substance of known concentration, each gas sensor ( G _A , G _B , G _C , G _D ) delivers a signal,
• b) the signals are fed to the controllable amplifiers ( 2 ),
• c) the amplified signals are analyzed in the pattern recognition matrix ( 5 ),
• d) the pattern recognition matrix ( 5 ) outputs a concentration signal for each component,
• e) the concentration signal of the pilot substance and a target value for the concentration of the pilot substance, which is stored in the pattern recognition matrix ( 5 ), are fed to the differential amplifier ( 7 ), which delivers an output signal,
• f) with the output signal of the differential amplifier ( 7 ), the gain of the controllable amplifier ( 2 ) is regulated so that the concentration signal of the pilot substance corresponds to the target value.

4. Measuring method for an arrangement according to claim 2 with the following steps:

• a) the non-selective gas sensors ( G _A , G _B , G _C , G _D ) and the selective sensor ( S ) are exposed to a sample containing a gas mixture to be measured, containing several components and a pilot substance, each of which is not selective Gas sensor ( G _A , G _B , G _C , G _D ) provides a signal and the selective sensor ( S ) provides a setpoint for the concentration of the pilot substance,
• b) the signals are fed to the controllable amplifiers ( 2 ),
• c) the amplified signals are analyzed in a pattern recognition matrix ( 5 ),
• d) the pattern recognition matrix ( 5 ) outputs a concentration signal for each substance,
• e) the concentration signal of the pilot substance and the target value for the concentration of the pilot substance, which is measured with the selective sensor ( S ), are fed to the differential amplifier ( 7 ), which delivers an output signal,
• f) with the output signal of the differential amplifier ( 7 ), the gain of the controllable amplifier ( 2 ) is regulated so that the concentration signal of the pilot substance corresponds to the target value.

5. Measuring method according to claim 3 or 4, characterized ge indicates that the pilot substance constant Kon has concentration. 6. Measuring method according to one of claims 3 to 5, characterized characterized in that the oxygen of the air as Pilot substance is used. 7. Measuring method according to one of claims 3 to 6, characterized in that, depending on the level of the output signal of the differential amplifier ( 7 ), the non-selective gas sensors ( G _A , G _B , G _C , G _D ) are replaced. 8. Use of an arrangement according to claim 1 or 2 for over monitoring the indoor air.