DE4405607A1 - Measurement and conversion circuit for different physical quantities - Google Patents

Abstract

The quantities concerned are measured by sensors (11) connected to a first multiplexer (12) which is linked by a control bus (200) to a microprocessor or hard-wired switching logic (20). The output (16) is applied to a variable-gain op. amp. (16) with e.g. matrix array of feedback resistances (21) associated with a second multiplexer (13). The electrical signals (15) from the sensors are thereby converted into outputs (19) with standardised levels, or into corresp. digital signals using a binary encoder.

Description

The invention relates to a circuit device for Registration and implementation of a plurality if necessary different physical parameters.

In the field of air conditioning and ventilation technology, but also in other technical areas in which so-called named sensor physical parameters such as pressure, Temperature, humidity and the like are detected, are usually used sensor elements that are directly matched to the sensor elements subsequent signal processing plant, via the successor then actuators and control elements are controlled or be managed. This immediate adjustment of the Sensor elements to the subsequent signal processing in Signal processing plant and the subsequent regulation and  Control unit is largely common with the Manufacturers of such facilities and is fundamental unproblematic whenever maintenance, Exchange, repair and expansion purposes of such Facilities and subsequent facilities one of these facilities and facilities designed and delivered.

Often, however, is in use Facilities and facilities a recourse to the ur original manufacturer or for the concept derar responsible facilities and facilities more possible, which may be due to the fact that the original manufacturer has been pushed out of the market d. H. no longer exists, or that that corresponds product no longer in the ur original manufacturer is present. The very after Partial consequence is that in many systems and Institutions that still work well in themselves however, there are small errors, one Repair, exchange or maintenance of certain Components require that this is no longer possible is, so that the entire system or facility, since it quasi for the reasons given above is repairable, must be completely replaced what often with an extremely large amount of material connected, which is often not provided can be.

Another important other, but also essential Licher aspect is that so far used Fühlerele elements for the acquisition of physical parameters from a so-called sensor family of a certain one Manufacturer have been selected, other manufacturers but offer better sensor elements, but in  existing plants and facilities do not can be used because they are due to their own physical parameters not easily in an existing one or in a plant fit the existing sensor element family, see above that even in this case, as already shown above, often an exchange of individual sensor elements other system inevitably the exchange of the whole Arrangement and setup required. This is without that that goes on at this point are needed, highly uneconomical and also often not for the reasons already mentioned feasible.

It is therefore an object of the present invention to Circuit device of the type mentioned create with the possibly different physical measurands are recorded and implemented can, in such a way that any existing Detection elements with which physical measurands such as temperature, pressure, humidity and the like in general can be used the signals supplied are processed in this way can that different measuring levels and differ lightest measurement signals of different sensors under various sensor families can be used, so that including the circuit device without other old systems, but also new systems, fully radio capable of operation, the scarf device can be trained easily and inexpensively and should be producible so that they can be used without more for retrofitting existing systems is suitable without the old systems in a complex manner must be rebuilt or adapted.  

The object is achieved according to the invention by a Multiplexer device, on the input side of which Measured variables can be given in the form of electrical signals, depending on a control, the output side electrical applied to the multiplexer device Signals are given to an amplifier device, where depending on the control in signals with standardized levels are converted.

The main advantage of the switching according to the invention establishment essentially consists in that feelers elements from different manufacturers with differences most possible sensor characteristics can be used, d. H. old sensor elements can be used in a system new sensor elements are used, also Sensor elements of a sensor element family Use can find, in connection with others Sensor elements of another sensor family if necessary lie, so that within a system cost and quality advantages can be used. The signal area, which the circuit device according to the invention provides, d. H. the manipulated and / or controlled variables supplied by her are based on those supplied by the circuit device Signals with standardized levels or standardized signal pass.

The control of the multiplexer device, i. H. the Introduce the to the inputs of the multiplexer tion still different, not on top of each other adapted signals to the amplifier device, can basically in any suitable manner done, d. H. basically also by means of a fixed ver wired switching logic. This is advantageously carried out However, control by means of an arithmetic unit, since a Calculator flexible to be changed if necessary  Measured variables adjusted at the inputs of the multiplexer can also be different selectable switching cycles or switching sequences with which the Multiplexereinrichtung is controlled, which are given if necessary changing requirements can be easily adapted can. The arithmetic unit is advantageously formed by a microprocessor by suitable Software supports the control algorithm for the Multiplexer device and for the amplifier device delivers, so that depending on the respective the multiplexer device to the amplifier device switched electrical signal according to the certain measured variable also the amplifier device with regard to the then applicable in each case differently large gain factor for that too amplifying electrical signal the control or Control par excellence.

If a large variety for certain applications width regarding the change of the control parameters is not necessary, it is for certain applications advantageous to use the calculator instead of a microprocess sors through a programmable logic circuit training who simply programs on instruction can be, so that the relatively complex Change a software program as it is used a microprocessor would be required for such simple use cases is unnecessary.

The signals at the output of the amplifier device lying, d. H. who strengthened accordingly Signals to achieve standardized signal levels can, as required for the individual subsequent actuators and Rules, in analog form or in digital Form can be supplied by the circuit device.  

It is advantageous to the signals at a given design of the circuit device at the output of Amplifier device on an analog-digital converter to give, which then ent the signals in digital form speaking of those standardized in the manner according to the invention Provides level.

In addition, the signals at the output of the amplifier device advantageously on a binary encoder be given so that by the circuit device delivered output signal in binary code for the Circuit device subsequent actuating or control link is available without expensive Other converters or implementation devices required are.

According to a further advantageous embodiment of the Circuit device becomes the amplifier device formed by an operational amplifier, which as finished component is commercially available and the complicated, expensive construction of an amplifier circuit of individual electronic components makes dispensable.

Operational amplifiers are used with so-called feedback resistors and / or other electronic or electrical components connected via the well-known way basically also the gain factor of the output signal compared to the input signal is adjustable. The following is for simplicity only spoken of feedback resistors, whereby this term also applies to the aforementioned electro African or electrical components. Advantage fortunately, the operational amplifier is equipped with a Multiple different feedback resistors  connected, depending on the controller for each interaction with the operational amplifier are switchable. In this case it is possible that the different feedback resistances, for example are arranged in a matrix, so that the most varied Combinations of different feedback resistors suitably controlled a preselectable return connect resistance, according to the for the signal to be amplified Gain factor.

The selection of the different resistances or Resistance combinations for setting the ver Strengthening factor can advantageously be done hen that the output side of the multiplexer signal applied to the serial Given input of a second multiplexer be, the outputs of which each with at least one of the feedback resistors are connected.

The control at the advantage described above liable design of the circuit device thereby also effected by the controller which for the Control of the first multiplexer device responsible is d. H. for example also by an arithmetic unit, in the form of a microprocessor Arithmetic unit or also by a in the form of a memory Programmable circuit formed calculator and the like.

The invention will now be described in detail with reference to the only schematic drawing below using an exemplary embodiment. This shows:
in the form of a block diagram, a circuit device with, for example, six different sensor elements which are connected to the parallel inputs of a multiplexer device of the circuit device.

The circuit device 10 , which is shown in the single figure, consists of a first multiplexer device 12 , an amplifier device 18 and an arithmetic unit 20 . The multiplexer inputs 14 , in the vorlie example six, are connected via lines with Meßfü lern, which are not shown in detail here. The sensors produce measured quantities 11 depending on the speed of the parameters detected by them, such as temperature, humidity, pressure or the like. It must be noted in this connection that the previously selected list of the individual parameters is not to be understood as limiting, but only as an example . In addition, it should be pointed out that the measured variables 11 generated by the sensors can be both passive signals and active signals.

The serial output of the multiplexer device 12 is connected to the input 180 of the amplifier device. In the embodiment of the circuit device 10 shown in the figure, the amplifier device 18 is formed by an operational amplifier which is connected to a plurality of feedback resistors 21 between its output 181 and its input 180 . A second multiplexer device 13 between the input 180 and the plurality of feedback resistors 21 ensures that different feedback resistors 21 can be selected in accordance with the desired amplification factor of the amplifier device 18 in accordance with the multiplexer output signal 17 to be amplified. The plurality of feedback resistors 21 shown in the drawing is only to be understood here schematically. The feedback resistors 21 can, for example, also be arranged in a matrix, so that suitable combinations of feedback resistors can be selected from any number of feedback resistors provided to achieve a specific gain factor to be set for the amplifier device 18 .

At the output 181 of the amplifier device 18 , signals with normalized levels 19 are thus present by suitable control or selection of the feedback resistors 21 . These signals 19 are then given as an analog signal 19 to actuators and control elements of the system in which the switching device 10 is arranged. It is also possible, however, to output corresponding digital signals instead of analog signals 19 with normalized levels, that is to say to first output the signals 19 with standardized levels output from the amplifier device 18 to an analog-to-digital converter (not shown separately here) and then to output them it is also possible to give the digital signals to a binary encoder, also not shown here, before output.

The control of the circuit device 10 , ie the control of the first multiplexer device 12 , the second multiplexer device 13 and the amplifier device 18 , which is formed here by an operational amplifier, takes place here by means of an arithmetic unit 20 which is connected to the first multiplexer device 12 via a control bus 200 , the second multiplexer device 13 and the amplifier device 18 is connected. The arithmetic unit 20 is advantageously formed here by a microprocessor, but in principle, instead of a microprocessor, it is also possible to use hard-wired switching logic that functions as an arithmetic unit, or one in the form of a programmable logic circuit. In this respect, the designation control bus 200 is to be understood in such a way that the control lines for controlling the first multiplexer device 12 , the second multiplexer device 13 and the amplifier device 18 are generally meant.

During operation of the circuit device 10 , controlled or in time with the control bus 200 , the most varied measured variables 11 corresponding to the measured variables 11 shown here by way of example via the input 14 of the first multiplexer device 12 one after the other or in any suitable sequence selected by the control sequence the multiplexer output is switched and from there to the input 180 of the amplifier device 18 . According to the control by the control bus 200 can be selected at a time via the second multiplexer 13 of the required for the reach desired standard level of the signal 19 setting at the output 181 of the amplifier means 18 feedback resistor 21, wherein with the suitably selected feedback resistor 21 of Verstär blocking factor of said amplifying means 18 is set accordingly. The different feedback resistors 21 correspond to different amplifications of the amplifier device, which correspond to the respective under different type of sensor elements. The signal 19 with normalized level or normalized level swing is thus present at the output 181 of the amplifier device 18 , regardless of the type of sensor elements used or switched to the circuit device 10 .

The signal 19 may then, as already stated above, into a digital signal to be converted and also gege be appropriate, issued in accordance with binary code converted by the circuit means 10th

Reference list

10 circuit device
11 measured variable
12 (first) multiplexer device
13 (second) multiplexer device
14 multiplexer input
15 signal
16 multiplexer output
17 Multiplexer output signal
18 amplifier device
180 entrance
181 exit
19 signals with standardized levels
20 arithmetic unit
200 control bus
21 feedback resistor
22 serial input, (second multiplexer device)
23 parallel output (second multiplexer device)

Claims (10)

1. Circuit device for detecting and implementing a plurality of possibly different physical measurement variables, characterized by a multi plexer device ( 12 ), on the input side ( 14 ) the measurement variables ( 11 ) in the form of electrical signals ( 15 ) can be given, depending on a controller from the output side (16) at the multiplexer device ( 12 ) electrical signals ( 17 ) are given to an amplifier device ( 18 ), where they are converted into signals ( 19 ) with standardized levels and / or with standardized level deviation depending on the speed of the control become. 2. Circuit device according to claim 1, characterized in that the control takes place by means of a computing unit ( 20 ). 3. Circuit device according to claim 1, characterized characterized in that the arithmetic unit by a micropro processor is formed. 4. Circuit device according to claim 1, characterized characterized in that the arithmetic unit by a memory programmable circuit is formed. 5. Circuit device according to one or more of claims 1 to 4, characterized in that the signals ( 19 ) at the output of the amplifier device ( 18 ) are given to an analog-to-digital converter. 6. Circuit device according to one or more of claims 1 to 5, characterized in that the signals ( 19 ) at the output of the amplifier device ( 18 ) are given to a binary encoder. 7. Circuit device according to one or more of claims 1 to 6, characterized in that the amplifier device ( 18 ) is formed more by an Operationsver. 8. Circuit device according to claim 7, characterized in that the operational amplifier is connected to a plurality of different feedback resistors ( 21 ), the dependency of the control for the respective interaction with the operational amplifier can be switched. 9. Circuit device according to claim 7, characterized in that the output side at the multiple xereinrichtung ( 12 ) serially applied signals ( 15 ) to the serial input ( 22 ) of a second Multiplexerein direction ( 13 ) are given, the outputs ( 23 ) of which are connected to at least one of the feedback resistors ( 21 ). 10. Circuit device according to claim 9, characterized in that the control of the second multiplexer device ( 13 ) is effected by the control of the first multiplexer device ( 12 ).