DE4228047A1 - Transmission system for output signals from transducers to processor - has units having analogue signal multiplexer transmitting onto serial transmission line - Google Patents

Abstract

The system is used to transmit signals from a number of measurement transducer units (2.1). Each unit has an output line (3.1), a data synchronisation line (4a.1) and a control line (4b.1). Each measurement unit has a cycle control unit (8) with a coupled timer (5) and is connected to the control input of a selector stage (9) that is based around an analogue multiplexer. The multiplexer accesses and transmits the inputs sequentially from the transducers to a converter (10) coupled to a transmission line interface (11). ADVANTAGE - Allows large number of signals to be transmitted to processor. Higher transmission accuracy.

Description

The invention relates to a system for transmitting Si gnalen of the type specified in the preamble of claim 1, preferably for use in building automation systems tion.

The multitude of measurement and control data to be transmitted in complex automation systems, in particular  appropriately adapted for highly decentralized processes te data transmission. In principle, on the one hand, in be knew data transmission systems a digital Datenver realized on two or multi-core cables or on the other hand, there will be a variety of parallel driven, separate channels used to transfer the data from individual measuring and control points to a central Processing unit and vice versa.

DE-OS 38 43 062 is a combined measured value version and measured value transmission known from a Large number of spatially distributed sensors taken and to a central processing unit be passed on. The central processing unit in turn provides positioning information to spatially distributed Actuators. The measured values are recorded analogously and ana log to the central processing unit on separate Lines forwarded. The same applies to the ent speaking actuation information from the central Processing unit are delivered. For this type of Data transmission is a multitude of individual lines required and the central processing unit must a number corresponding to the number of individual lines Have entrances and exits. This effort is only up to to a small number of measuring or control points fully and cost-justifiable.

In another arrangement, that in the aforementioned Disclosure is described, the measured values recorded analogously, then in an existing one at the measuring location Analog-to-digital converter digitized and via a  serial or parallel interface, with one address provided on a bus line on which it is connected by the central processing unit identified and takeover men. The central processing unit gives it data with addresses on the bus line, where you can identify them from the respective actuators be certified and adopted. Here is both in the central processing unit as well as in the recipient of the Control data an analog-digital conversion or digital Analog conversion and intermediate storage required Lich. With the proposed combination of measured values reading and transmission of the measured value, the measured value is based on a formed and lies in known time divider methods then before as a pulse width modulated variable. It does not apply caching data here, however, is the up wall for analog-digital conversion and, at digita ler data transmission required, addressing as we to mention considerable disadvantage. In addition, every order is conversion of measured values within the data transfer way of transmission with a certain falsification of the abso lute value, which is disadvantageous overall the accuracy rate of the entire measurement and control system stems affects.

Furthermore, a signal bus is from DE-OS 37 10 939 knows about both analog and digital data can be transferred. According to the proposal, the signals present in separate lines each in one module not described in more detail and standardized via the Given module output on the same signal bus that the Signals in parallel to a central processing unit  forwards or in the opposite direction control signals from the central processing unit via the signal bus and the modules to the corresponding separate lines gives. The modules have a complex structure Assembly, especially the task, the refurbishment and the Adaptation of the existing signals to the following Electronics and the subsequent delivery to the individual to ensure separate lines. The proposed one Signal bus has the advantage that digital and ana log data through the proposed circuit simultaneously processed and forwarded. The disadvantage is before but above all that each signal line has its own module must be assigned and for the required analog Digital conversion (and vice versa) a considerable stale technical effort is necessary because the signals basically in digital form via the signal bus trans be ported.

Furthermore, a measured value is from DE-OS 33 30 904 known transmission system, in which several transducers directions over a two-wire line with a measured value are connected to the receiver. The measured value receiver has one Sync pulse generator, whose output for sending Synchronizing pulses connected to the two-wire line is. Each transmitter has a timer circuit and a clock generator with a counter controlled by it, whose reset input via the two-wire line with the Synchronous pulse generator of the measured value receiver is connected.

In the known system, the three-wire line is used the power supply of the individual transmitter devices  gene by a battery arranged in the measured value receiver. The measured values to be transmitted are the current pulses DC supply current in the form of a pulse width module tion superimposed. The separation of the measured value signals from the Sum signal present at the input of the measured value receiver done by a low-pass or subtract circuit. The The transmission system described above is in the relationship disadvantageous that by the modulation principle and the he required subtraction circuit for recovering the measurement values that result from the measurement-dependent control of the Wi derstandsanordnung as current impulses equal to the supply current are imprinted, falsifications of measurement are unavoidable are. In addition, the circuitry complexity for modulation and demodulation as well as the necessarily required assignment of the measured values by means of counter addresses the associated transmitter device considerably.

Based on the shortcomings of the prior art the invention has for its object in a system for Transmission of signals of the type mentioned at the beginning To achieve improvements in that with min other circuitry expenditure a higher transfer accuracy for the existing measurement as a current value signals of a variety of measuring points is secured.

This task is carried out with the characteristic features of the Claim 1 solved.

The invention is based on the finding that under Taking advantage of the fact that thermal processes, physika due to the mischief, have a certain inertia  and therefore in automation processes in which Tem temperatures or quantities of heat must be regulated at the Signal transmission devices of the corresponding automa system achieved special advantages can be, if on a material and circuit tech nically complex parallel transmission of digital data is canceled. This will slow down the Transfer rate accepted. One for accuracy precision reaching from digital data transmission is then again with the system according to the invention achieved that annoying line resistance in the same order of magnitude as for the implementation of the measurement signals necessary measuring resistances are due to special circuitry technical measures are compensated.

In order to measure both from decentralized transducers to one central control unit as well as resulting therefrom Control signals to decentralized actuators via a The standard bus system can be transmitted with the system operating according to the time-division multiplex method Three-wire line provided to which the measuring or Stel Oil units connected in parallel like a bus line sen and sequentially with the center len signal processing unit are connected, ei ne line for the synchronization of data transmission, a line for the acquisition of the analog measured value signals and a line for the control of the actuators ver is applied.

Since a plurality of measurement or actuating units are available, each several  Have measuring or actuators, is the signal transmission supply method according to the invention as a double time division multiplex modified.

According to a preferred embodiment of the invention each measuring or actuating unit with a freely programmable cash flow control unit, which consists of a flow unit and a start time / window length unit, equipped. Therefore, in relation to those from the prior art prior art known signal transmission method partial way on the allocation of special addresses for the individual, serially transmitted analog measurement data to be dispensed with, resulting in a significant reduction the technical effort for the transmission system leads.

According to the freely programmed sequence control Units of the individual measuring or adjusting units is everyone of these measuring or adjusting units in a predeterminable time area is assigned a specific time window. Inner half of this time window are those for each measurement or Measuring units belonging to the control unit can be queried. The measured values are analog and serial via the data line of the three wire line to the central signal processing unit forwarded. A transfer occurs after this cycle control functions serving and in the central Signal processing unit calculated control signals from the central signal processing unit to the respective Measuring or control unit via a separate control line. According to the invention, these actuating signals can also have a addressing that is normally necessary is dispensed with,  which gives further advantages with regard to the rings tion of the technical effort for the signal transmission system result.

The assignment of the central signal processing unit determined and via the data line of the three wire line to the respective measuring or actuating unit carried current control signals is by a from a Comparator circuit and a memory element existing Actuator selection unit implemented. Because by the free Programming the sequence control of each measuring or actuating Unit for the control signals a current value of a certain amount assigned and the respective comparator circuit is appropriately dimensioned, the control signal can only ent from the measuring or control unit from the data line be taken for which the corresponding control signal also is really determined.

According to a further advantageous embodiment of the Er are advantages in terms of reducing the Circuit effort can be achieved if by modification the program of the sequence control that for the respective Measuring and control unit determined control signal immediately after Processing of the corresponding time window from the zen central signal processing unit to the measuring and control unit is transferred. Here is a comparator scarf tion unnecessary, since a certain measurement and Control unit the others are switched off and only ever because activated by the reset pulse. At a Integration of the comparator circuit is a separate on multiple actuators can be controlled by using the respective amount of the current value can be addressed.  

After handling this data flow is the following Time window for the next measuring or setting unit released according to the sequence control. After done Processing the sequence control for this measuring or actuating unit enter the remaining measuring or setting units in same form their measured values to the central signal processing processing unit and receive the necessary from there Control signals within the time window assigned to them.

At the beginning of each new measurement and control phase of the system the sequence control units of all measuring or Actuators by a start signal of the central signal processing unit reset. The one for this task existing in the central signal processing unit Synchronous pulse generator is as currentless or a current maxi Building stage providing mum sync impulses det. These impulses are processed by the central signal processing unit via the control line of the three-wire line device to the individual measuring or control units. This form of synchronization signals also enables advantageous way of reducing the synchro nization required circuitry.

To ensure accuracy in the acquisition and transmission of the required measured values through the signal according to the invention The measuring point is to significantly increase the support system lenselection unit of the individual, to the three-wire line connected measuring or control units with two analog Multiplexer units equipped in which an impedance wall he circuit is integrated. The first analog multiplexer is required to, according to the double used  time division, the assignment of the individual measuring points coordinate channels at the appropriate time window. Because those designed as temperature-dependent resistors Sensors with which the measurements are carried out Form current values as an equivalent, which can be obtained from Analog multiplexer connected reference voltage source generated, result from the inner power lines the state of the first analog multiplexer is partially elevated falsification of measured values. Is particularly disadvantageous that these resistances from channel to channel of the analog Multiplexers are subject to undefined fluctuations.

These disadvantages can be easily eliminated by the reference used for the measurement voltage via an integrated in the measuring point switch ten impedance converter is led to the measuring resistors. There is also the feedback line of the voltage fol gers, from the point at which the reference voltage at the respective measuring resistor is present at its inverting Input is routed through the second analog multiplexer trained switchable.

According to a preferred embodiment of the invention ent hold both the feedback lines and the measurement channel lines of the analog multiplexers, via which the Reference voltage led to the respective measuring resistor is, each an electronic switch that with the Sequence control unit of the measuring or adjusting unit ver bound and controlled by it.

Advantageous developments of the invention are in the Un claims are identified below  along with the description of the preferred embodiment the invention with reference to the figures. It demonstrate:

Fig. 1 shows a preferred embodiment of the invention in a block diagram in the overview,

Fig. 2 is a block diagram of a measuring and control unit used in the signal transmission system according to the Invention as a detail of Fig. 1 and

Fig. 3 is a schematic diagram for an analog multiple xer with an integrated impedance converter circuit as a detail from FIG. 2.

The system shown in Fig. 1 contains a central signal processing unit 1 , to which a plurality of measuring or control units 2.1 to 2. n via one, an analog measurement data line 3 , a control line for the data transmission synchronization 4 a and a control line for the connected actuators 4 b three wire line is connected. The measurement data line 3 forms a "BUS" for analog signals, with the individual units 2.1 to 2. n being assigned time slots for the transmission of data signals in succession to a time multiplex method. The measuring or control units 2.1 to 2. n connected in parallel each have a data line connection 3.1 to 3. n, a synchronization line connection 4 a. 1 to 4 a.n and a control line connection 4 b. 1 to 4 b.n. The allocation of the time window takes place via the central signal processing unit 1 , where the required clock signals are transmitted over a wire of the three-wire line.

In a preferred embodiment of the invention, the signal transmission system is used for building automation in order to implement the housing-related measurement and control tasks for the operation of hot water heating systems. Here, the central signal processing unit 1 is an apartment computer, the substations of which are arranged as measuring or adjusting devices 2.1 to 2. n in the individual rooms of the corresponding apartment. The substations record the representative temperatures of the rooms to be heated and deliver the control signals required for controlling the valves of the radiators arranged in the individual rooms via the apartment computer.

The signal transmission system works on the principle of double time multiplexing by in a substation in Several measuring points within a divided time window of the room to be heated cyclically and the measuring values via the analog data line to the apartment computer be transmitted. Then the corresponding operation in the next substation for the next most apartment. Within one in length predeterminable time range between the individual correspond divided time windows for the individual sub stations are sent control signals from the apartment computer to the Sub-stations delivered via the control signal line or Queries at the measuring points.  

In this case, the measured values in the form of analog current signals to the apartment computer and the control signals from the apartment computer are also transmitted as current values via the control signal line 4 b to the sub-stations via the data line 3 of the three-wire line from the substations A special addressing of the signals is not necessary in the individual time windows. This brings considerable advantages in reducing the circuitry outlay for the automation system.

In FIG. 2, a single is given of the measuring or control units 2.1 to 2. n in detail. These each consist of a time base unit 5 , which generates a clock cycle for the freely programmable sequence control unit 8 . Through appropriate programming, the time of the start and the length of the period for the use of the data line 3 of the three-wire line by the respective measuring or actuating unit and the duration of the connection of each is determined for each measuring or adjusting unit 2.1 to 2. n of the individual measuring points to the common data line 3 . This timing occurs within the framework of the higher-level time schedule defined by the central control unit.

The sequence control unit 8 consists of a sequence unit 6 and a start time / window length unit 7 . The sequence control unit 8 of the individual measuring or actuating units is reset by a control pulse 4 a of the three-wire line from the central signal processing unit 1 as a start signal, before the start of each measuring and control cycle. The start pulse is advantageously delivered as a currentless or a current maximum synchronizing pulse from the central signal processing unit 1 to the individual measuring or control units 2.1 to 2. n. After the start of the measuring and control cycle, the measuring point selection unit 9 is activated by the sequence control unit 8 . The measured values determined according to the specified time window by querying the individual measuring points as currents are given via a converter 10 as analog current values after adjustment by the unit 11 to the data line connection 3.1 .

The actuator selection unit 24 present in the measuring or actuating unit consists of a comparator circuit 12 and a memory element 13 . It is used to receive the control signals 4 b of the three-wire line from the central signal processing unit 1 in the form of current values. Since each Komparatorschal device 12 of the individual measuring or control units 2.1 to 2. n is set to a certain current value of the analog control signal, can here also advantageously to a special addressing of the measuring points after the query cycle within a time window from the central Signal processing unit 1 output control signals are dispensed with. According to the amplitude of the current of the analog control signal, only the assigned measuring or control unit can evaluate the control signal.

The comparator may then not be necessary, if after the transmission of measured data via the control line 4 b, the information as to whether the the measuring and Stel leinheit associated actuator is to be controlled or is not, stored in the memory element. 13 If several actuators are connected to a measuring and actuating unit, the comparator takes over the addressing of the actuator to be controlled.

In Fig. 3, a measuring point selection unit 9 is shown in detail. It is an analog multiplexer with an integrated impedance converter circuit, as used in the measuring point selection unit 9 of the measuring or adjusting units 2.1 to 2. n of the system for signal transmission.

The temperature measuring points of the automation system, the measured values of which are used for controlling the radiators of the hot water heating of apartments, are equipped with special resistors 20 which form a current value for the measured variable "temperature" as an equivalent. This measuring current is generated by a voltage supplied by a constant reference voltage source 14 at the temperature-dependent resistors 20 . Since the individual measuring resistors 20 in the context of double time multiplexing by the analog multiplexer 17 via its Meßkanallei device 25 to the reference voltage source 14 who switched, the effect of the internal resistance 18 of the measuring channel line 25 results in a measurement falsification. This falsification of measured values cannot be neglected, since the resistors 18 and 20 are of the same order of magnitude and the current through the resistors 18 and 20 is dependent on the load. In addition, the internal resistances of the analog multiple xer 17 cannot be exactly determined by calculation, since the value of the resistors 18 varies from measuring channel to measuring channel.

For this reason, the reference voltage source 14 is connected according to a preferred embodiment of the signal transmission system via an operational amplifier 15 operated as a voltage follower to the measuring channel line 25 of the analog multiplexer 17 . The inverting, second, input of the operational amplifier 15 is occupied by a feedback line 23 , which connects to the output A1 of the analog multiplexer 17 , to which the measurement voltage value is applied. The resulting control circuit ensures that, with a correspondingly high amplification factor of the operational amplifier 15 , a voltage is applied to the output A1 of the analog multiplexer 17 , which essentially corresponds to the voltage of the reference voltage source 14 . The voltage at the measuring point A1 is thus independent of the resistance Ra1. Since the voltage feedback takes place via the high-impedance inverting input of the impedance converter (operational amplifier) 15 , a voltage corresponding to the currently measured value is maintained there even when the measuring output is loaded. This enables a high-precision measurement and transmission of the temperature values of the rooms to be heated to a central measuring point in a simple manner.

In order to be able to query the individual measuring points, the switching means 19 , 22 arranged in the measuring channel line 25 and in the feedback line 23 are actuated by the analog multiplexer 17 . As switching means, electronic switches are preferably used. In a tried and tested embodiment of the aforementioned automation system, five temperature measuring points are installed in the individual rooms of the apartment equipped with a hot water heater.

The invention is not restricted in its implementation to the preferred embodiment given above game. Rather, a number of variants are conceivable which of the solution shown also in principle makes use of different types.

Claims (17)

1. System for the transmission of signals from a plurality of measuring units ( 2.1 to 2. n) to a central signal processing unit ( 1 ), via a common data (bus) line, characterized in that each measuring unit ( 2.1 to 2. n) a measuring point selection switch ( 9 ) in the form of an analog multiplexer ( 17 ), which is provided with an impedance converter circuit ( 15 ), which on the input side with the measuring point and on the output side at least indirectly with the common data (bus) - Line is connected. 2. System for the transmission of signals according to claim 1, characterized in that the impedance converter circuit has a be operated as a voltage follower operational amplifier ( 15 ), wherein the non-inverting input of the operational amplifier ( 15 ) is connected to a reference voltage source ( 14 ). 3. System for the transmission of signals according to claim 2, characterized in that the impedance converter circuit with a channel selection unit ( 16 ) cyclically switchable lines ( 23 , 25 ) is connected, which lead to the respective measuring points. 4. System for the transmission of signals according to claim 2, characterized in that the output from an operational amplifier with an inverting input impedance converter circuit ( 15 ) via first switching means ( 19 ) having measuring channel lines ( 25 ) alternately in a predetermined time cycle, each with an associated measuring resistor ( 20 ) can be connected, where at the connection point with the inverting input of the operational amplifier ( 15 ) via second switching means ( 22 ) having feedback lines ( 23 ) can also be connected alternately accordingly. 5. System for the transmission of signals according to claim 4, characterized in that a resistor located in a feedback line ( 23 ) is provided in each case between the measuring resistor ( 20 ) and the second switching means ( 22 ). 6. System for the transmission of signals according to claim 4, characterized in that electronic switches are provided as switching means ( 19 , 22 ). 7. System for the transmission of signals according to claim 1, characterized in that a measuring unit ( 2.1 to 2. n) each also has at least one assembly forming an actuator. 8. System for the transmission of signals according to claim 7, characterized in that the measuring and actuating units ( 2.1 to 2. n) each have a three wire line, which transmit a time synchronization pulse from the central signal processing unit ( 1 ) to the measuring points, Control line ( 4 a), an analog, measured value-related signals from the measuring points to the central signal processing unit leading data line ( 3 ) and a control purpose serving, current signals time sequentially transmitting to different actuators control line 4 b, connected to the central signal processing unit ( 1 ) are. 9. System for the transmission of signals according to claim 8, characterized in that the measuring and control units ( 2.1 to 2. n) and the central signal processing unit ( 1 ) in the manner of a bus line in parallel but in cyclical clock control sequentially sequentially the three-wire line is connected. 10. System for the transmission of signals according to one of claims 1 and 7, characterized in that each of the measuring or control units ( 2.1 to 2. n) a measuring point selection unit ( 9 ) controlled by a decentralized sequence control unit ( 8 ) ) or an actuator selection unit ( 24 ) driven sequentially by the central signal processing unit ( 1 ). 11. System for the transmission of signals according to one of the Claims 1 and 7, characterized net that the signal transmission with double time tiplex two-stage using no addresses signals having a certain proportion after a fixed time scheme takes place, whereby on the one hand a temporal chess telung to a measuring and actuating unit closed measuring points and on the other hand a temporal Interleaving the signals of the different measuring and Actuators are carried out among each other. 12. System for the transmission of signals according to claim 11, characterized in that by the double time multiplex each measuring or actuating unit ( 2.1 to 2. n) for signal transmission is assigned a first time window, which in turn has a number of second time windows, which corresponds to the number of measuring points and control devices assigned to a measuring and control unit ( 2.1 to 2. n). 13. System for the transmission of signals according to claim 10, characterized in that the actuator selection unit ( 24 ) has a memory element ( 13 ) and / or a comparator circuit ( 12 ). 14. System according to any one of the preceding claims, characterized by the three-wire line forming the bus line with a common for all system modules return to which the measuring or actuating units ( 2.1 to 2. n) and the central signal processing unit ( 1 ) in parallel are connected, the central signal processing unit ( 1 ) having a synchronous pulse generator, the synchronizing signals of which arrive via a control line to the measuring or actuating units ( 2.1 to 2. n), and each measuring or actuating unit ( 2.1 to 2. n ) contains a time base unit ( 5 ) and a sequence control unit ( 8 ) which generates certain time windows and can be reset by synchronization signals generated by the central signal processing unit ( 1 ), and which has a line of the three-wire line and a control line ( 4 a) transmitting the synchronization pulses , a line of the three-wire line a measurement data line serially transmitting the analog measurement signals device ( 3 ) and a line of the three-wire line forms a control data line ( 4 b) which transmits the control signals serially. 15. System according to any one of the preceding claims, characterized in that the measuring and actuating unit ( 2.1 to 2. n) each form a common construction group, the one from the decentralized sequence control unit ( 8 ) controlled measuring point selection unit ( 9 ) or an actuator selection unit ( 24 ) controlled by the central signal processing unit ( 1 ). 16. System according to any one of the preceding claims, characterized in that the synchronous pulse generator of the central signal processing unit ( 1 ) is designed as a building stage providing a current minimum or a current maximum, providing synchronization pulses. 17. System for the transmission of signals according to claim 16, characterized in that the individual measuring or adjusting units ( 2.1 to 2. n) assigned time windows each have the same duration and each have a similar time schedule.