DE3500839A1 - Measuring instrument for measuring relative humidity - Google Patents

Abstract

An electrical measuring instrument for registering relative humidity is equipped with a capacitive sensor. To eliminate the considerable sensor component tolerances, the measuring instrument is calibrated by means of a calibration chamber and predefinable relative atmospheric humidity, a program circuit ensuring that a defined timing is adhered to.

Description

Description The present invention relates to an electrical Measuring device for measuring the relative humidity according to the preamble of the patent claim.

A measuring device of this type is known from Eu-A-106345.

For the measurement of the relative humidity, capacitive Sensors used. These sensors change their capacity depending on the relative humidity. Every humidity sensor has a non-linear characteristic, with the component etol erances C and G C values in particular reaching considerable values.

When manufacturing such sensors, the tolerance range of the sensor data is outside of the values required by precision measuring devices. With conventional measuring devices selective components are assigned to the sensors, which are then manually connected can be set. In order to achieve precision accuracy, the calibration processes performed and repeated at different points. These operations are Time-consuming and fraught with personal setting errors.

The object of the present invention is therefore to provide an electrical To create moisture measuring device of the type mentioned above, which eliminates the disadvantages of selection, Time- effort and setting errors eliminated.

In the case of an electrical moisture meter, the task is as follows Type solved by the features specified in the characterizing part of claim 1.

With the electrical moisture measuring device according to the invention, it is possible record the characteristic curve of the sensor in a one-time calibration process. Additionally all agreed characteristic points can still be calibrated. The automated The calibration process for the entire characteristic prevents personal setting errors.

In particular, a changeover period is guaranteed. the The measuring accuracy of the device is thus significantly increased, and not only in that essentially the area of interest, but practically over the entire measuring range away. It is therefore no longer necessary, as was previously necessary, to use the sensor characteristic more selective components by changing the steepness of the linear range. It is also possible to exchange sensors and carry out a calibration process on site. No selective components are required for this and the calibration process is without Make measuring devices.

This means a considerable reduction in manufacturing costs and in case of service.

According to a preferred embodiment of the present invention is the characteristic curve of the sensor in the form of several spaced apart Support points can be called up and the relevant measured value is transferred to the two assigned to the closest support points of the recorded sensor characteristic and interpolated.

This is a very precise approximation of the sensor characteristic, which is beyond that depends of course on the number of support points used. the The sensor characteristic curve is recorded in an interactive mode that is controlled by the microcomputer is controlled. A rotary switch is preferably used to select the characteristic points used, in which the individual positions are assigned to the characteristic points and can be queried by the microcomputer. For triggering the various calibration options Coding bridges are preferably used, which are queried by the microcomputer. To signal the respective interactive calibration status, a LED controlled by the microcomputer, this happens in different operating modes according to the states on / off and the light-emitting diode flashes.

Further details and embodiments of the invention are as follows Refer to the description in which the Invention on the basis of the Drawing illustrated embodiment is described and explained in more detail. They show: FIG. 1 a block diagram of the circuit arrangement of an electrical Moisture measurement brewed according to a preferred embodiment of the present invention.

FIG. 2, for example, a sensor characteristic, namely the relative humidity depending on the capacity of the sensor.

FIG. 3, for example, a calibration chamber in which a reference climate is generated will.

The electrical moisture meter according to the invention, its circuit arrangement 11 is shown in Figure 1 as a block diagram, is used to measure the relative Humidity. The relative humidity measurement takes place via a sensor 23, whose The capacity value depends on the relative humidity. The inventive, electrical The moisture meter is able to take the measured values into account the recorded sensor characteristic curve 31 -in to form a linear output signal and to spend.

According to FIG. 1, the electrical moisture meter according to the invention has a microprocessor 1? which is connected to several building blocks, namely one Program memory 14, a table memory 14 with battery 13, a characteristic point selector switch 17, a calibration selector switch 16 and a light-emitting diode 18. Via a multiplexer 20 the microprocessor 12 is connected to a plurality of sensors, namely a sensor 23 for measuring the relative humidity and a temperature sensor 24 for measuring the air temperature and a temperature sensor 25 for measuring the ambient temperature the evaluation electronics. The temperature sensors 24, 25 are via the multiplexer 20 of the evaluation electronics 22, which in turn send their output signal to the multiplexer 20 feeds. The humidity sensor 23 is connected to the evaluation circuit 21, which forwards its output signal to the multiplexer 20. The microprocessor 12 measures and processes the sensor signals. There are ambient temperature and characteristic curve corrections made, the result is linear output signals via the interface configuration 19 output, for the relative humidity 27 and the temperature 26. The calibration options of the relative humidity measuring device is preferably in a characteristic curve calibration 31-37 and various individual point drawings 31 or 32-38.

The characteristic curve calibration process generates all defined support points 31-38 the sensor characteristic. The point calibration enables certain interesting Characteristic points 31-38 can be calibrated separately. So there is a possibility available to record the entire characteristic curve or parts of it with the highest precision.

The calibration of the characteristics of the relative humidity measuring device is as follows Way in front of you: The sensors 23, 24 arranged on the measuring head 28 are connected to a Calibration chamber 29 provided. Commercially available calibration solution 30 is used in the calibration chamber 29 Creation of 0% relative humidity introduced. The characteristic point selector switch 17 is set to position 1 and the calibration switch -16 is used to calibrate the characteristic (16 in position K) started. The light-emitting diode 18 is activated and now flashes, -in the time specified by the microprocessor 12 for the duration of the air conditioning process in the calibration chamber 29. After the reconditioning time has elapsed, the microprocessor takes over 12 the measured value given by the sensor 23 via the evaluation 21 and stores it in the table memory 14 as a characteristic point 0% and signals Via the light-emitting diode 18 with continuous light that the 0% calibration has been completed. Of the Characteristic point selector switch 17 is now brought to position 0, whereupon the microprocessor 12 brings the light-emitting diode 18 into the dark state and the 0% relative humidity representative signal output value via the interface 19 as a relative humidity signal 27 generated.

Commercially available calibration solution 30 is now placed in calibration chamber 29 for generation of 80% relative humidity introduced. The characteristic point selector switch 17 is in Position 9 brought.

The light-emitting diode 18 now flashes in the manner specified by the microprocessor 12 Time for the process duration of the re-air conditioning in the calibration chamber 29. After expiry the reconditioning time, the microprocessor 12 takes over from the sensor 23 the evaluation 21 given measured value and stores it in table memory 14 as Characteristic curve point from 80% and signals via the light-emitting diode 18 with continuous light, that the 80% calibration has been completed. Calculated with the acquisition of the 2 characteristic curve points the microprocessor 12 the remaining characteristic points and stores them in the table memory 14 from. The characteristic point selector switch 17 is now in position 0 brought, whereupon the microprocessor 12, the light-emitting diode 18 in the dark and a signal output value representative of 80% relative humidity the interface 19 is generated as a relative humidity signal 27. The calibration selector switch 16 is brought into its original position (16 in position 0) and thus the Characteristic calibration completed.

The point calibration of the relative humidity measuring device is as follows Way in front of you: The sensors 23, 24 arranged on the measuring head 28 are connected to a Calibration chamber 29 provided. Commercially available calibration solution 30 is used in the calibration chamber 29 Creation of a certain relative humidity introduced.

The characteristic point selection switch 17 is in the position of the used Calibration solution 30 is brought and with the calibration selection switch 16 (16 in position P) the point calibration started. The light emitting diode 18 now flashes in the of the microprocessor 12 specified time for the duration of the reconditioning process in the calibration chamber.

After the reconditioning time has elapsed, the processor 12 takes over the measured value given by the sensor 23 via the evaluation 21 and stores it in the Table storage 14 as the characteristic point of the corresponding relative humidity, and signals Via the light-emitting diode 18 with continuous light that the point calibration is complete. The calibration selector switch 17 is brought into its starting position, whereupon the microprocessor 12 brings the light-emitting diode 18 into the dark. The process of point calibration is thus complete.

So the following calibration processes are schematically produced: Calibration process - Characteristic calibration - Bring 0% solution 30 into calibration chamber 29 - Set characteristic point selector switch 17 to position '1' - Set calibration switch 16 to position 'K'-> LED 18 flashes for about an hour and goes off then in steady light above - 0% value 31 is saved - set characteristic point selector switch 17 to position '0'-> measured value output 27 'relative humidity' outputs OmA - insert 80% solution 30 into calibration chamber 29 - characteristic point selector switch 17 to position '9' - LED 18 flashes for about an hour and then changes to steady light -> 80% value 37 is saved - Set characteristic point selector switch 17 to position '0'-> Measurement output 27 'relative humidity' outputs 16mA - Calibration switch 16 in position ' Bring M '- the calibration of the characteristic is completed. Calibration process - point calibration 1. Calibration table Characteristic point selector switch 17 Calibration solution position (% RH) O 0 1 10 -2 20 3 35 4 50 - 5 65 6 80 7 95 2. Calibration process - Put the desired calibration solution 30 in the calibration chamber 29 - Set the position of the characteristic curve point selection switch 17 according to the calibration solution 30 according to the calibration table - Set the calibration selection switch 16 to the 'P' position Calibration value 31 or up to 38 is saved - Set calibration selector switch 16 to position 'M' - the point calibration is complete 3. Abort the calibration process when LED 18 flashes - Set calibration selection switch 16 to position 'M'. LED 18 goes out - the calibration process can be restarted - End of description -

Claims (10)

Title: Measuring device for measuring relative humidity Claims 1. Measuring device for measuring the relative humidity by means of a capacitive sensor and an evaluation circuit that detects the electrical capacitance and at least another sensor for detecting the temperature, the measuring head for the purpose of calibration of the device can be provided with a calibration chamber (29), characterized in that the sensors (23, 24, 25) are linked to a microprocessor (12) by means of which the measured values can be processed and the selector switch (16, 17) and a display device (18) are assigned, with the appropriate actuation of the selector switch (16, 17) the display device (18) is switched, the measured values of the sensors (23, 24, 25) after a specified time, depending on the position of the selector switch (16, 17) are stored in a non-volatile memory (14) and then the display device (18) can be switched again. 2. Measuring device according to claim 1, characterized in that the first 1 u; ig a sensor characteristic through a first selector switch (16), optionally one Characteristic curve or point calibration can be initiated and by a second selector switch (17) the measured values fed to the microprocessor in the memory (14) the characteristic curve values the calibration solution (30) present in each case in the calibration chamber (29) can be assigned. 3. Measuring device according to claim 1 to 2, characterized in that between Sensors (23, 24, 25) and microprocessor (12) are connected to a multiplexer (20) is. 4. Moisture measuring device according to claim 1 to 3, characterized in that that the characteristic curve of the sensor (23) in an interactive sequence in the form of several is stored in the spaced-apart support points and that the relevant measured value to the two closest interpolation points of the sensor characteristic is assigned and interpolated. 5. Moisture measuring device according to claim 1 to 4, characterized in that that the characteristic curve of the sensor (23) in the form of two spaced apart Interpolation points is saved and the characteristic curve is calculated linearly from this. 6. Moisture measuring device according to claim 1 to 5, characterized in that that a selector switch (16) for the selective subdivision of the characteristic curve recording Controls the microprocessor (12). 7. Moisture measuring device according to claim 1 to 6, characterized in that that a selector switch (17) for identifying the characteristic curve recording options controls the microprocessor. 8. Moisture measuring device according to claim 1 to 7, characterized in that that the signaling the state of the interactive course of the characteristic curve recording Display device is a light emitting diode (18). 9. Measuring device according to one of the preceding claims, characterized in that that the microprocessor (12) preferably via a multiplexer (20) with temperature sensors (24, 25) for evaluating the measured values and correcting the relative values accordingly Moisture readings can be connected. 10. Measuring device according to one of the preceding claims, characterized in that that the from the humidity sensor (23) and / or from the object temperature sensor (24) and / or measured values supplied by the electronic ambient temperature sensor (25) a multiplexer (20) can be supplied as a digital signal. - End of claims -