EP0552619A2 - Information detection circuit for information signal - Google Patents

Abstract

In order to take into account leakage resistances occurring in the case of information contacts (3a to 3n), it is proposed to pass the signal which is formed by an information contact (3a to 3n), together with a reference signal, to a comparison circuit (7). The output of the comparison circuit (7) then carries a signal which corresponds to the switching state of the information contact (3a to 3n). The signals of a plurality of information contacts (3a to 3n) are preferably passed to a multiplexer circuit (15, 17) whose output signal is passed to the comparison circuit (7). In a further refinement, the output signal of the comparison circuit (7) is passed via a potential-isolating element (21) to a control and processing device (23) having a processor. <IMAGE>

Description

The invention relates to a message detection circuit for a signal that can be generated by a signaling contact.

In control technology it is known to feed the signaling signals generated by signaling contacts to a detection circuit. In a simple case, such a detection circuit can consist of a self-holding relay. In today's solutions, an optocoupler is usually provided for each signaling contact, which at the same time forms a potential separation point.

The problem with such detection circuits is that in the event of leakage resistances at the signaling contacts there are ambiguous signaling signals. It is therefore not possible to clearly record a message. In addition, conventional detection circuits are component-intensive, since the component expenditure is proportional to the detection channels. The high number of components also causes a relatively poor MTBF.

The invention has for its object to provide a detection circuit in which the above disadvantages are avoided.

The object is achieved with the features of claim 1. With the solution according to the invention, a signal formed by the signaling contact, which is unclear due to ambiguous switching states at the signaling contact, is converted into a unique signaling signal. Unclear switching states at the signaling contact can result, for example, from aging and the formation of leakage resistances arise at the signaling contact. The comparison circuit can be designed in the manner of a measuring bridge, the signaling contact being located in a path of a resistance measuring bridge.

It is advantageous if the signaling contact is connected to a DC voltage source and the reference signal is a DC signal. The DC signal can be generated by the DC voltage source. This results in a particularly simple design of the detection circuit.

It is advantageous if the signal and further signals formed by further signaling contacts are routed to a multiplexer circuit, the output of which is connected to the signal input of the comparison circuit. In this way, the complexity of the circuitry can be greatly reduced. Common processing is provided for all channels of the detection circuit. The parallel structure of the registration is reduced to a series structure. The DC signal can also be routed to a channel of the multiplexer circuit and serve as an information signal. On the one hand, the DC signal can serve as an information pulse within the signal telegram formed by the multiplexer. On the other hand, it can also serve as information as to whether the voltage supply required for the signaling contact, i.e. the direct signal, is present at all.

The multiplexer circuit can be followed by a potential isolator, which is led to a control and processing device. Compared to previous versions, only one potential isolator needs to be provided for all signaling channels in this way. This drastically reduces the number of optocouplers used. A failure of the potential isolator can also be detected at the same time by scanning the DC signal.

A synchronization signal can be passed from the control and processing device to the multiplexer circuit via the first or a second potential isolating element. This also enables a synchronized detection of the alarm signals. The detection circuit is preferably designed as a module, in particular as a digital input module of a signaling system or a programmable control device. For this purpose, the control and processing device preferably has a processor.

• Es wird eine verbesserte Signalerfassung erzielt.
• Die Signalerfassung berücksichtigt Qualitätsmängel an den Meldekontakten.
• Die Anzahl der verwendeten Bauteile wird reduziert.
• Die gesamte Signalerfassung ist praktisch auf einem Potential und erlaubt Dickschichttechnik sowie einen ASIC.
• Die Anzahl der Optokoppler ist drastisch reduziert, beispielsweise bei einer 16er Wurzelung von 16 auf 2. Die wenigen verbleibenden Optokoppler werden nur mit relativ kleiner Einschaltdauer betrieben und haben als Folge geringerer Sperrschichttemperatur eine bessere MTBF.

With the solution according to the invention, the parallel structure of the message acquisition can be replaced by a serial one. The multiplexer circuit with a control unit is located at the potential of the message signal. After their evaluation in the comparator, the switching status information of the signaling contacts is transmitted serially to the processor via a single potential isolator. The processor can preferably give a synchronization pulse to the control unit at every sampling interval of the multiplexer circuit. It is therefore not necessary to transmit channel information for further processing of the individual reporting channels. The following advantages are achieved by the invention:

• Improved signal detection is achieved.
• The signal acquisition takes into account quality defects in the signaling contacts.
• The number of components used is reduced.
• The entire signal acquisition is practically at a potential and allows thick-film technology and an ASIC.
• The number of optocouplers is drastically reduced, for example with 16 roots from 16 to 2. The few remaining optocouplers are only operated with a relatively short duty cycle and, as a result of a lower junction temperature, have a better MTBF.

In the case of the pulse at which the signal contact supply voltage is sampled, a pulse must come to the processor. The failure of an optocoupler can thus be recognized. Thanks to the inclusion of the full signal voltage in the acquisition, the characteristic spread of the optocoupler channel is eliminated. This also allows the number of different voltage versions and polarities to be reduced. In the best case scenario, a single assembly can be used for all possible voltage and polarity combinations. In addition, the good linearity and reproducibility of the detection characteristics can be used to calculate the delay in going a message as a result of line capacities by multiple detection at different thresholds. This further increases the accuracy of the detection.

• FIG 1 eine Erfassungsschaltung.

The invention and further advantages are explained in more detail below by way of example using an exemplary embodiment and the drawing. It shows:

• 1 shows a detection circuit.

1 shows a detection circuit 1a for a signaling channel a. The signaling channel a has a signaling contact 3a, which is connected to a DC voltage source 5. The area A can be assigned to a system, in particular a switchgear of a power supply network, in which a predetermined event or information is to be recorded by means of the signaling contact 3a. The area B can be at a central point, separate from the location of the message acquisition, e.g. be arranged in a control room. C denotes an interface which is designed, for example, as a distribution distributor.

A signal generated by the signaling contact 3a is fed to an input of a comparator 7. A second entrance to the Comparator 7 is supplied with a reference signal. The reference signal is generated by a voltage divider 9 formed by resistors. This can be supplied by a voltage supply 11 or alternatively also directly by the DC voltage source 5. To adapt and improve the detection behavior, the signal of the signaling contact 3a can be routed to the comparator 7 via a network 13a. The network 13a essentially comprises a voltage divider and / or an RC element.

Additional signaling contacts 3b to 3n with respective networks 13b to 13n can be provided to form a plurality of signaling channels a to n. In this case, 7 switching elements 15a to 15n are arranged between the networks 13a to 13n and the input of the comparator and are cyclically switched through by a control unit 17. The switching elements 15a to 15n together with the control unit 17 form a multiplexer circuit. In this way, only one comparator 7 needs to be used for n signaling channels.

In the present example, message channel b is used to include the message voltage in the message processing. This also provides information as to whether the signaling voltage is present. It goes without saying, of course, that the other devices of the detection circuit are supplied by an energy supply that operates independently of the DC voltage source 5.

A comparator 7 is followed by a driver 19 which is connected to an optocoupler 21 serving as a potential isolator. In this case, the optocoupler 21 separates the potential of the detection circuit 1 a which may be subject to interference signals from the potential of the further processing devices. The optocoupler 21 is on the output side with a Control and processing device 23 connected, which carries out the further processing of the received signal signals. The control and processing device 23 preferably has a processor 24. The control and processing device 23 receives a telegram-like signal by converting parallel signal signals into a serial signal as shown. For synchronization, the control and processing device 23 can transmit a synchronization signal to the multiplexer circuit. This is preferably done via a second optocoupler 25. However, if necessary, the two optocouplers 21 and 25 can also be formed by a common component.

Of course, for further signal processing or evaluation, the control and processing device 23 can have an output 27, which can be designed, for example, as a serial interface or as a bus connection within a higher-level control system.

The detection circuit 1 a, with its optionally possible configurations, can preferably be designed as an input module 29, in particular as a digital input module of a processor system. Such assemblies usually have, for example, 16 or 32 signaling channels. It is used particularly in control and signaling devices for medium and high voltage systems.

Claims (8)

Message detection circuit for a signal that can be generated by a signaling contact (3a), the signal and a reference signal being taken to a comparison circuit (7) to take into account a leakage resistance at the signaling contact (3a), which generates a signaling signal when the signal deviates from the reference signal by a predetermined value . Message detection circuit according to claim 1, wherein the signaling contact (3a) is connected to a DC source (5) and the reference signal is a DC signal. Detection circuit according to claim 2, wherein the DC signal is generated by the DC source (5). Detection circuit according to one of Claims 1 to 3, wherein the signal and further signals which can be formed by further signaling contacts (3b to 3n) are routed to a multiplexer circuit (15, 17), the output of which is connected to the signal input of the comparator circuit (7). Detection circuit according to claim 4, wherein the DC signal is routed to a channel of the multiplexer circuit (15, 17) and serves as an information signal. Detection circuit according to claim 5, wherein the multiplexer circuit (15, 17) is followed by a potential isolator (21) which is led to a control and processing device (23). Detection circuit according to claim 6, wherein a synchronization signal from the control and processing device (23) via the first or a second potential isolator (21) to the multiplexer circuit (15,17). Detection circuit according to one of the preceding claims, which is designed as a module, in particular as a digital input module of a signaling system.

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