DE19855431A1 - Control unit - Google Patents

Abstract

Disclosed is a control device (10) with a controller memory (23) which is located in a signal processing unit (20). The controller memory can be switched into a programming mode by means of a programming signal (24). A connector (16) and a matching code switch (29) are provided. The code switch (29) enables blocking or triggering of the programming signal (24). In a preferred embodiment, the coding switch (29) is provided with coding means (30, 35, R1, R2) on both ends (28, 31).

Description

State of the art

The invention is based on a control device according to the Gat independent claim. From DE 197 02 296 A1 a control device for a heating device is known, the Controls, of which at least one of both Operation in an operating mode as well as the error slide diagnosis and troubleshooting in one diagnostic or troubleshooting lifting mode. In diagnostic mode it is possible to use the in a memory of a signal ver contained in the control unit working arrangement values to be filed, for example the maximum power to be specified first and then save permanently. It cannot be excluded who that a user of the control unit is only one Service technicians known diagnostic and troubleshooting engine dus finds out and impermissible changes to the default values themselves.

The invention has for its object a control unit indicate that increased security against manipulation tion of predefined, stored in a memory Values.  

The task is indicated by the independent claim characteristics resolved.

Advantages of the invention

The control device according to the invention has the advantage that A coding plug is required to be inserted in a memory be able to change the stored values. The coding plug causes the generation of a programming signal with which the memory can be switched to a programming mode. The Coding plug interacts with a connector and can be attached by a service technician and after changes then save or save new values to be pulled.

A major advantage is that the user of the Control unit without the required coding plug the Pro programming operation by random or systematic actuation control elements cannot trigger. The sure one against intentional or accidental manipulation tion is increased.

Advantageous further developments and refinements of the inventions Control unit according to the invention result from dependent An sayings.

A simple embodiment provides that the Codingstec ker contains at least one line as the coding means a connection between at least two plugs of the Establishes plug connection. The one with the coding plug made at least one connection for example by of the signal processing arrangement detected on it towards the programming mode by issuing the programming gnals releases. Immediate generation is also conceivable supply of the programming signal by means of on the Codingstec  ker existing at least one connecting line without that an evaluation of the microprocessor is required.

Another advantageous embodiment provides that the Coding plug contains at least one ohmic resistor, that the signal processing arrangement the resistance value evaluated and depending on the result the programming signal triggers. The resistance value is advantageously indirectly detected via a voltage measurement, the span voltage is measured in an analog / digital converter.

An advantageous development provides that he most end of the coding plug coding means are arranged, that trigger the programming signal and that at the other end Coding means are included that the programming operation lock. With this measure according to the invention simple means increases the coding variety.

A further development provides that the plug connection in a housing is arranged, within which the control device is arranged, and that the housing is removable forms is.

Another, particularly advantageous training sees before that the connector is arranged in a housing is within which the signal processing arrangement is ordered, and that the housing has a lockable Breakthrough for insertion of the coding plug.

With these training courses an accidental Ver eaten the coding plug counteracted.

Further advantageous developments and refinements of the control device according to the invention result from wide  ren dependent claims and from the following description exercise.

drawing

Fig. 1 shows a housing containing a control device according to the invention, Fig. 2 shows a block diagram of a signal processing arrangement and Fig. 3 shows an excerpt from a block diagram of a signal processing arrangement in another embodiment.

Fig. 1 shows a control device 10 which is disposed in a housing 11. A display 12 , an input 13 and a changeover switch 14 are present . A plug connection 16 is arranged behind an opening 15 in the housing 11 , a first, second and third socket 17 , 18 , 19 being shown.

Those parts shown in Fig. 2, which correspond to the parts shown in Fig. 1, each carry the same reference numerals.

FIG. 2 shows a signal processing arrangement 20 which contains a microprocessor 21 which is connected to a memory 23 via data and address lines 22 . The memory 23 can be switched into a programming mode by means of a programming signal 24 .

A first, second and third plug 25 , 26 , 27 are correspondingly introduced into the first, second and third socket 17 , 18 , 19 , the plug 25 , 26 , 27 being arranged at a first end 28 of a coding plug 29 . A first connecting line 30 is provided between the first connector 25 and the third connector 27 .

A fourth, fifth and sixth connector 32 , 33 , 34 are provided at the other end 31 of the coding connector 29 . A second connecting line 35 connects the second and third plugs 33 , 34 .

Fig. 3 shows an alternative embodiment of the coding plug 29 . Those parts shown in FIG. 3 which correspond to the parts shown in FIG. 2 each have the same reference numerals.

The first socket 17 and the third socket 19 of the fastex connection 16 are connected to an analog / digital converter 36 which is arranged within the microprocessor 21 in the exemplary embodiment shown. Instead of the first connecting line 30 shown in FIG. 2 between the first connector 25 and the third connector 27 , a first resistor R1 is arranged in FIG. 3. Furthermore, the fourth connector 32 and the sixth connector 34 are connected to one another at the other end 31 of the coding connector 29 via a second resistor R2.

The control device 10 according to the invention operates as follows:
The control device 10 is, for example, a control device for operating a heating system. Other conceivable application cases are control units 10 for controlling industrial systems. Furthermore, the control unit 10 can be arranged in a motor vehicle for controlling electronic functions. In the exemplary embodiment shown in FIG. 1, the control device 10 is surrounded by the housing 11 , which has a display 12 , an input 13 , a changeover switch 14 and an opening 15 . The opening 15 is closed in normal operation. The control unit 10 is operated via the input 13 , the results being shown in the display 12 .

The control unit 10 contains values stored in a memory, which may be changed either only at the factory or only by qualified service personnel. Between normal operation and a diagnostic or service operation can be switched back and forth by means of the switch 14 . It is thus possible to preset a value, for example a limit value, via input 13 after corresponding activation of switch 14 . However, it is not possible to permanently save the default value changed by an unauthorized person. For this purpose, the encoder plug 29 shown in Fig. 2 according to the invention is required, the sammenwirkt to that shown in Fig. 1, hidden behind the opening 15 plug compound 16. In Fig. 2 the inserted coding plug 29 is shown, it being assumed that the first end 28 of the coding plug 29 is inserted. The assignment of plugs 25 , 26 , 27 , 32 , 33 , 34 to the coding plug 29 and sockets 17 , 18 , 19 to the plug connection 16 is made in the exemplary embodiment shown and can be provided otherwise without further res.

For example, the connecting lines 30 , 35 are provided as coding means. In the exemplary embodiment shown, the first connecting line 30 connects the first connector 25 to the third connector 27 . The corresponding United connection is forwarded to the microprocessor 21 via the first socket 17 and the third socket 19 of the connector 16 . Appropriately programmed input channels of the microprocessor 21 establish the connection so that the microprocessor 21 can trigger the programming signal 24 . Only when a programming signal 24 is present should the memory 23 be able to permanently store the data that is addressed and specified via the data and address lines.

A simpler embodiment provides that the first connection line 30 provides the programming signal 24 directly. The connecting line 30 could, for example, a required level of the programming signal 24 processing in this case directly to the registered Verbindungslei which leads the programming signal 24, barge.

In a simple embodiment, it is sufficient if the coding plug 29 only has a coding option at its first end 28 . The programming signal 24 is triggered only when the coding plug 29 is inserted. After removing the coding plug 29 , storage of data in the memory 23 is no longer possible.

The advantageous embodiment shown in FIG. 2, in which the coding plug 29 has coding means 30 , 25 at both its first end 28 and at its other end 31 , increases the different coding possibilities with only little additional effort in that for the release be of the programming signal 24 and for blocking the programming signal 24 different codings can be provided. In the exemplary embodiment shown in FIG. 2, for example, the programming signal 24 is triggered when the connection between the first and third sockets 17 , 19 is established by means of the first connecting line 30 . This state remains until the coding plug 29 is inserted with its other end 31 into the connector 16 . The then determined connection between the second and third socket 18 , 19 by means of the second connecting line 35 blocks the programming signal 24th After removing the coding plug 29 , the programming signal 24 remains permanently blocked until the first end 28 of the coding plug 29 is inserted into the connector 16 .

FIG. 3 shows an embodiment of the coding means arranged on the coding plug 29 , resistive resistors R1, R2 being provided instead of the connecting lines 30 , 35 shown in FIG. 2. In this exemplary embodiment too, it is generally sufficient if only one end 28 , 31 of the coding plug 29 is provided with a resistor R1, R2. It is also possible with this embodiment to trigger the programming signal 24 directly with the ohmic resistor R1, R2. The advantageous embodiment shown in FIG. 3 provides that the resistance of the first and possibly that of the second resistor R1, R2 is evaluated. Detection of the resistance value is not shown in detail, since several known technical implementation options are available for this. For example, the resistor R1, R2 could be arranged in a voltage divider through which a predetermined current flows.

The voltage across the resistor R1, R2, which is detected in the exemplary embodiment shown in FIG. 3 in the analog / digital converter 36 , is a measure of the value of the resistor R1, R2. The analog / digital converter 36 is preferably already included in the microprocessor 21 , so that low additional costs arise and simple programming of the signal processing arrangement 20 is possible. Depending on the resistance value, a decision is made in the microprocessor 21 as to whether the programming signal 24 should be triggered or blocked.

In Fig. 3, the coding plug 29 is shown with the equipping a resistor R1 at the first end 28 and a second resistor R2 at the other end 31st If the first resistor R1 is inserted, the programming signal 24 is triggered, for example. This state remains until the microprocessor 21 detects the second resistor R2 at the other end 31 after changing the coding plug 29 . The programming signal 24 is then blocked and remains blocked until the first resistance R1 is detected again.

Claims (6)

1. Control unit with a signal processing arrangement ( 20 ) which contains a memory ( 23 ) which can be switched into a programming mode by means of a programming signal ( 24 ), and with a plug connection ( 16 ), characterized in that a plug connection is provided (16) on plug coding card (29), and in that the coding plug minimizing signal (24) controls (29) the initiation or disabling of the Program. 2. Control device according to claim 1, characterized in that the coding plug ( 29 ) contains at least one connecting line ( 30 , 35 ) as coding means and that the at least one connecting line ( 30 , 35 ) has at least two plugs ( 25 , 26 , 27 , 32 , 33 , 34 ) of the coding plug ( 29 ) miteinan connects. 3. Control device according to claim 1, characterized in that the coding plug ( 29 ) contains at least one ohmic resistor (R1, R2) as coding means, and that the signal processing arrangement ( 20 ) evaluates the resistance (R1, R2) and then the programming signal ( 24 ) triggers or blocks. 4. Control device according to one of the preceding claims, characterized in that the coding plug ( 29 ) at one end ( 28 ) contains coding means ( 30 , 35 , R1, R2) which trigger the programming signal ( 24 ) and at the other end ( 31 ) contains coding means ( 30 , 35 , R1, R2) which block the programming signal ( 24 ). 5. Control device according to one of the preceding claims, characterized in that the plug connection ( 16 ) is arranged in a housing ( 11 ) and that the housing ( 11 ) is designed to be removable. 6. Control device according to one of claims 1 to 4, characterized in that the plug connection ( 16 ) in a Ge housing ( 11 ) is arranged which has a closable opening ( 15 ) for inserting the coding plug ( 29 ).