DE202009010293U1 - Electronic evaluation module for sensor signals - Google Patents

Abstract

Electronic evaluation module (2) for a conventional sensor (1), which has no internal means for evaluating and processing the sensor signals (12), with
a) a first interface (21) for data-related coupling of at least one conventional sensor (1) and for receiving sensor signals (12) of the at least one sensor (1),
b) a processing unit (22) for evaluating and / or further processing of sensor signals (12), and
c) a second interface (23) for data-linkage to an IO-Link data transmission path (3) and for sending evaluated and / or further processed sensor signals (12).

Description

The The invention relates to an electronic evaluation module for a conventional sensor without internal means for evaluation and processing the sensor signals.

easy Sensors with binary or analogue output Do not perform signal processing internally internally. sensors of this kind can thus not readily to capture more complex readings be used. Otherwise, the sensor output must have a separate evaluation module be followed to z. B. speeds, switching frequencies, counts and the like. To be able to determine.

For this It is known to use a simple sensor by means of a point-to-point Wiring to connect to a programmable logic controller, which the further evaluation of the output from the sensor switching signal current performs. This is expensive, there for a signal import at the Control often special I / O modules, eg. B. counter modules, are necessary.

It is also known to analyze the switching signals and external Switching evaluation modules between sensor and control, eg. B. Multifunction relay. However, such evaluation modules have no Bus interface and possible with it no parameterization via the control.

In The practice is application-specific sensors with integrated Analysis of the switching signal known, for. B. inductive sensors with integrated switching frequency analysis for speed monitoring. These have but especially the disadvantages that a limited parameterization only possible on site is, for. B. over Teach button or potentiometer. In automation technology The connection of sensors is often using the so-called "IO Link". It acts It is a standardized communication system for connection intelligent sensors and actuators to an automation system. The standardization includes both the electrical connection data as also a digital communication protocol through which the sensors and actuators to exchange data with the automation system. With help of IO Link is basically a comfortable parameterization of sensors possible. However, often not for a particular one Application suitable sensor with IO Link interface available, because To cover a variety of applications many different special sensors would be necessary with this interface.

Of the The invention is based on the object of specifying a device bringing a simple sensor without its own internal signal processing means in a comfortable way to an automation system can be connected.

The Task is solved with the specified in claim 1 electronic evaluation module. Advantageous further versions The invention are specified in the subclaims.

The Evaluation module according to the invention offers the advantage of being simple and inexpensive standard sensors simple and inexpensive way about the IO-Link provided functions can be extended. The inventive combination from sensor and evaluation module can now also with more complex applications be used, such. B. in counting applications, detection and limits monitoring of speeds u. s. w .. The invention thus enables a data technology Connection of a conventional sensor to an IO-Link data transmission link. Existing standard sensors can be upgraded with the evaluation module according to the invention IO-Link made capable be without any changes are required on the sensors themselves. The advantages of the IO Link Systems, such as. For example, the free parameterization directly from the controller even during operation, can then be applied to simple standard sensors. By the Modular structure, ie the separation of sensor and IO Link compatible Evaluation module, is immediately a very wide range of application-specific solutions available, without for every solution special sensors have to be developed. Because the evaluation algorithms are stored in the firmware of the evaluation module, is a later extension for additional Functions easily without the development of new sensor or module hardware possible. So can z. B. simple analog sensors, such. B. inductive sensors with Voltage or current output without adjustable switching limits, by Interposition of the external evaluation module according to the invention parametrierfähig be made.

About one external according to the invention Evaluation module can the switching signals of one or more sensors in the manner of a decentralized intelligence can be preprocessed and evaluated. Farther can for every Analysis function over IO Link freely adjustable parameters are provided. The external one Evaluation module allows So an application-specific signal pre-processing and also the provision of diagnostic functions.

A exemplary application of the invention will be with reference to the accompanying Figures in more detail below explained become.

there demonstrate

1 a block diagram of an external evaluation module according to the invention, and

2 the block diagram of an exemplary automation system with a simple sensor that is coupled by means of an external evaluation module to an IO-Link data bus.

In 1 is a simple, conventional sensor on the left side 1 which does not have its own internal means for processing and evaluating the sensor signals. By means of a sensor head 11 Are changes in a technical process z. B. detected in the form of switching signals or analog values. Such sensor signals are finally connected to a sensor connection 12 in binary or analog form. Such a sensor has so far z. B. only be connected directly to a controller, which then z. B. has read in via separate input modules for further processing.

Instead, according to the invention, the connection 12 of the sensor 2 with the interposition of an external electronic evaluation module 2 indirectly to an IO-Link data transmission link 3 coupled. For this purpose, the external electronic evaluation module 2 a first interface 21 at the input for the sensor connection 12 , an internal processing unit 22 and as a second interface 23 an integrated IO-Link data bus interface at the output. According to a further embodiment of the invention, the first interface 21 Also be designed so that several sensors can be connected simultaneously.

With the help of the internal processing unit 22 A variety of analysis, preprocessing and diagnostic functions can be implemented. Here are some examples given.

So can be a simple, conventional sensor in a first application z. B. the cam on a donor disc of a variable speed Capture drive. The binary switching signal emitted by the sensor is analyzed by the external evaluation module, and can then be used for acquisition and monitoring the speed z. B. be used by drives. Is offset to this sensor on the encoder disk another simple, conventional sensor mounted and the sensor signal is another input of the supplied to external evaluation module, so is in addition for speed monitoring also a direction of rotation detection possible. In another application are also two sensors on an external evaluation module according to the invention connected, with the individual signals of the sensors respectively represent a speed. In this case, the evaluation module determine a speed difference by comparing the sensor signals, leaving a surveillance of the slip, z. B. in transmissions, is possible.

Farther can from the external evaluation module also measurements and counts the switching signals are performed at the output of the binary sensor. So can in a first application z. As the switching times of a simple Sensors are measured by the durations of the high or low states of the binary Switching signal to be analyzed. Furthermore, the switching signals of a binary Sensors, z. For lot size monitoring, counted become. In a particularly advantageous embodiment of the evaluation module according to the invention supports the counter in the evaluation module also a combined evaluation of the signals at several binary inputs the evaluation module to the z. B. connected via Y-connector several binary sensors are. In a first mode of operation, an input may act as a count input and the second input as a switching input for reversing the counting direction serve. In another operating mode, an input serves as a counter and the second input as a switching input for a start / stop signal. At a another operating mode, an input can also be used as an up counter and the second input serves as a down counter.

Farther can with the evaluation module according to the invention the analog values at the output of a connected analog sensor to be analyzed. So can z. Eg in the context of limit value monitoring Voltage or current outputs from Sensors monitored for adjustable limits and their over- or Falling below one or more output signals are activated. Furthermore you can also signal analyzes of analog values, eg. B. with respect to ripple, flank rise u. Ä. Be performed. After all can with the evaluation module according to the invention also timer and inverter functions the signals at the switching output a simple, binary Sensors added be analogous to the function of a time relay. So are u. U. combined On and off delays, Pulse functions such. B. extension a short switching signal, inversions of a switching signal u. v. m. possible.

With the help of the evaluation module according to the invention 2 Thus, the output signals from simple sensors can undergo extensive processing and evaluations. The advantage of the invention is not only that these processed signals IO-Link compatible can be further transmitted, z. B. to a higher-level control. Rather, from such a Para measurements in the evaluation module 2 be loaded in order to be able to adapt the type of the respective desired and required evaluations in an optimal way to the respective application.

In 2 Finally, the principle of a networked automation system is shown by way of example. Thereby are to a central control 6 , In particular a programmable logic controller, various distributed peripherals 8th over a fieldbus 7 connected. To these peripherals 8th Actuators and sensors of a technical process can now be selected via an IO-Link data interface 3 be connected. As described above, the left peripheral device 8th the tandem from a simple sensor 1 with sensor head 11 and an external evaluation module 2 via an IO Link interface 3 connected.

According to an advantageous further embodiment of the invention, the housing of the sensor 1 and the evaluation module 2 also directly to a compact unit z. B. be bolted. In this case, therefore, access the interface 12 on the sensor side and the interface 21 on the side of the evaluation module 2 directly into each other, so that a kind of pin-shaped overall arrangement arises.

For configuration and parameterization of the external evaluation module 2 is in the example of 2 finally a programming device by way of example 4 provided, z. An industrial PC.

This can be commissioning data via an additional data bus 5 , in particular an Industrial Ethernet, z. B. Profinet, in the evaluation module 2 loaded or test and diagnosis from the evaluation module 2 and the connected sensor 1 be retrieved. In particular, the preprocessing of the sensor data supplied by the sensor can be parameterized completely individually in an application-specific manner, without the sensor itself having to have special properties for this purpose. This will also in case of failure, z. As in a sensor defect, a repair much easier because only the simple, conventional sensor 1 again, while the evaluation module 2 can remain untouched with all individual parameterizations.

Claims (2)

Electronic evaluation module ( 2 ) for a conventional sensor ( 1 ), which has no internal means for evaluating and processing the sensor signals ( 12 ), with a) a first interface ( 21 ) for the data linkage of at least one conventional sensor ( 1 ) and for receiving sensor signals ( 12 ) of the at least one sensor ( 1 ), b) a processing unit ( 22 ) for the evaluation and / or further processing of sensor signals ( 12 ), and c) a second interface ( 23 ) for data-technical coupling to an IO-Link data transmission link ( 3 ) and for dispatching evaluated and / or further processed sensor signals ( 12 ). Electronic evaluation module ( 2 ) according to claim 1, wherein the processing unit ( 22 ) Parameterizations from the second interface ( 23 ) receives and processes.