ES2207323T3 - CONTROL DEVICE WITH PROTECTION OF PROGRAMMING THROUGH A CODED CONNECTOR. - Google Patents

Abstract

Control apparatus for the operation of a heating installation, which contains a signal processing arrangement (20), which has a memory (23), which is switchable by means of a programming signal (24) to a programming mode , the control apparatus (10) being arranged in a housing (11), which has an inlet (13) and a representation (12), characterized in that the housing (11) also has an opening (15), behind which is arranged a plug connection (16), because it is provided a coded connector (29) that can be plugged into the plug connection (16), which controls the programming signal (24), and because when the signal Programming (24) is activated, operating data of the heating system set in the input (13) and reproduced in the representation (12) are stored in the memory (23).

Description

Control device with protection of the Programming through an encrypted connector.

State of the art

The invention is based on a control apparatus of the type of independent claim.

It is known from document DE 197 02 296 A1 a control apparatus for a heating device, which presents command elements, at least one of which serves both for the operation in a service mode as well as for the diagnosis of faults and the elimination of faults in a diagnostic mode and Elimination of failures. In the diagnostic mode it is possible preset first and then memorize in a way permanent readable values in a memory of a provision of signal processing that is contained in the apparatus of control, for example the maximum power. It cannot be excluded that a user of the control device locate the diagnostic mode and error elimination known only to a technician service and make unacceptable changes to the values proper defaults.

It is known from document DE 43 30 319 A1 a signal processing arrangement on a computer programmable, which enables or excludes, by means of a coded connector, different types of component access Selective computer. Authorizations and access to individual computer components are achieved in this case, when the hardware is remote, through access to software.

US 4,747,139 describes a connector coded, with which the release of an operation is performed in a computer through the evaluation of an ohmic resistance Built-in coded connector.

The invention has the task of indicating a control apparatus, which has high safety against default value manipulations, deposited in a memory.

The task is solved through the characteristics indicated in the independent claim.

Advantages of the invention

The control apparatus according to the invention has the advantage that a coded connector is necessary to be able to modify the values deposited in a memory. The connector encoded induces the generation of a programming signal, with which can switch the memory to a programming mode. He coded connector collaborates with a plug connection and can be coupled by a service technician and can be removed to continuation again after modification or memorization of New values

An essential advantage is that the user of the control device cannot activate the programming mode, without the coded connector required through casual activation or systematic command elements. In this way the security against intentional or involuntary manipulations.

From the dependent claims, deduce developments and advantageous configurations of the apparatus of control according to the invention.

A simple configuration provides that the connector encoded contain, as a coding medium, at least one line which establishes communication between at least two connectors of the plug connection. The at least one connection, established with the coded connector is detected, for example, by the provision of signal processing, which then releases the mode of programming through the emission of the programming signal. It is also conceivable an immediate generation of the signal of programming via at least one of the connection lines, which is present in the coded connector, without it being necessary An evaluation of the microprocessor.

Another advantageous configuration provides that the coded connector contains at least one ohmic resistance, which the signal processing arrangement assess the value of the resistance and activate the programming signal depending on the result. The resistance value is detected in a more advantageously indirectly through a voltage measurement, the voltage being measured in an analog / digital converter.

An advantageous development foresees that in the first coded connector end are arranged means of coding, which trigger the programming signal and in the other end are contained coding media, which block Programming mode With this measure the variety of coding with simple means.

A development foresees that the housing is configured detachable.

Another especially advantageous development foresees that the housing has an opening that can be closed for coded connector insert.

With these developments an oblivion is counteracted due to oversight of the coded connector.

Other known developments and configurations of the control apparatus according to the invention are deduced from others dependent claims and from the description following.

Drawing

Figure 1 shows a housing containing a control apparatus according to the invention, figure 2 shows a block diagram of a signal processing arrangement and Figure 3 shows an output of a block diagram of a Signal processing arrangement in another configuration.

Figure 1 shows a control apparatus 10, which it is arranged in a housing 11. A representation 12, an input 13 as well as a switch 14. Behind of an opening 15 in the housing 11 a connection of plug 16, from which its first, second and third are shown bushings 17, 18, 19.

The parts indicated in Figure 2, which match the parts shown in figure 1, carry on each Case the same reference signs.

Figure 2 shows an arrangement 20 of signal processing, which contains a microprocessor 21, which is connected through data lines and addresses 22 with a memory 23. the memory 23 can be switched by means of a programming signal 24 to a programming mode.

In the first, second and third bush 17, 18, 19 are inserted in a corresponding manner a first, second and third connectors 25, 26, 27, the connectors 25, 26, 27 at a first end 28 of a connector coded 29. Between the first connector 25 and the third connector 27 a connection line 30 is provided.

At the other end 31 of the coded connector 29 a fourth, fifth and sixth connectors 32, 33, 34 are provided. A second connection line 35 connects the second and third connectors 33, 34.

Figure 3 shows an alternative configuration of the coded connector 29. The parts shown in Figure 3, which coincide with the parts shown in figure 2, carry in Each case the same reference signs.

The first bushing 17 and the third bushing 19 of the plug connection 16 are connected to a converter analog / digital 36, which is arranged within the microprocessor 21 in the embodiment shown. Instead of the first connection line 30 shown in figure 2, between the first connector 25 and the third connector 27 is arranged a first resistor R1 in figure 3. In addition, the fourth connector 32 as well as the sixth connector 34 are connected to each other in the other end 31 of the coding connector 29 through a second resistance R2.

The control apparatus 10 operates as follows way:

The control apparatus 10 is, for example, a control apparatus for the operation of an installation of heating. Other conceivable application cases are devices of 10 control for the control of industrial facilities. Further, the control apparatus 10 may be arranged in a car for the control of electronic functions. In the embodiment example shown according to figure 1, the control apparatus 10 is surrounded by the housing 11, which has a representation 12, an entrance 13, a switch 4 as well as an opening 15. The opening 15 is closed in normal operation. The control apparatus 10 is controlled through input 13, the Results in representation 12.

The control apparatus 10 contains values deposited in a memory, which can either be modified exclusively at the factory or only by service personnel skilled. You can switch between normal operation and a diagnostic or service mode via switch 14. From this way, it is possible to predetermine a value to be memorized, by example a limit value, through input 13 after the corresponding activation of switch 14. Instead, it is not long-lasting memorization of modified forecast steam possible in an unauthorized manner. For this purpose, according to the invention, it is necessary the coded connector 29 shown in Figure 2, which collaborates with the plug connection 16 hidden behind the opening 15, shown in figure 1. Figure 2 shows the coded connector 29 inserted, where the first end 28 is supposed to be plugged in of the coded connector 29. The assignment of connectors 25, 26, 27, 32, 33, 34 to coded connector 29 and bushing 17, 18, 19 towards plug connection 16 it is done by way of example in the exemplary embodiment shown and can be provided without more than another way.

As means of coding are provided, by example, connection lines 30, 35. In the example of embodiment shown, the first connection line 30 connects the first connector 25 with the third connector 27. The connection corresponding is transmitted through the first bushing 17 and the third socket 19 of the plug connection 16 towards the microprocessor 21. The input channels of the microprocessor 21 programmed in a corresponding manner establish the connection, so that the microprocessor 21 can trigger the signal from programming 24. Only when a signal is present programming 24, memory 23 must be able to memorize predetermined data in a lasting way and addressed through data and address lines.

A simpler configuration provides that the first connection line 30 directly condition the signal programming 24. Connection line 30 could connect in this case, for example, a necessary level of the programming signal 24 on the registered connection line, which carries the signal of programming 24.

In a simple configuration, it is sufficient that the coded connector 29 has a coding possibility only at its first end 28. Programming signal 24 it is only activated when the coded connector 29 is plugged in After removal of the coded connector 28 is not possible to memorize data in memory 23.

The advantageous configuration shown in the figure 2, in which the coded connector 29 has means of coding 30, 25 both at its first end 28 and also at its other end 31, raises the different possibilities of coding with an oversized expense only, because for the release of programming signal 24 and for blocking the programming signal 24 encodings may be provided different. In the exemplary embodiment shown in Figure 2, in the event that a connection is established between the first and the third bushings 17, 19 by means of the first connection line 30, the programming signal 24 is triggered, for example. status is maintained until coded connector 29 is inserted with its other end 31 in plug connection 16. The connection established then between the second and the third bushings 18, 19 by means of the second connection line 35 block programming signal 24. After the removal of the coded connector 29, programming signal 24 is maintained locked in a lasting way until the first end 28 of the coded connector 29 at the connection of plug 16.

Figure 3 shows a configuration of the coding means arranged on the coded connector 29, with ohmic resistances R1, R2 being provided instead of connection lines 30, 35 shown in figure 2. Also in this example of embodiment is sufficient, in principle, that only one end 28, 31 of the coded connector 29 is provided with a resistance R1, R2. In the same way, also in this configuration it is possible to trigger the programming signal 24 directly with the ohmic resistance R1, R2. The configuration advantageous shown in figure 3 provides that the resistance of the first and, where appropriate, that of the second resistance R1, R2. A detection of the resistance value, since they are available for this purpose several possibilities of known technical realization. By For example, resistance R1, R2 could be arranged in a splitter of the voltage, which is crossed by a current default

The voltage at resistance R1, R2, which is detected in the exemplary embodiment shown according to figure 3 in analog / digital converter 36, it is a measure of the value of resistance R1, R2. The analog / digital converter 36 it is preferably already contained in microprocessor 21, of so that reduced additional costs are incurred and it is possible a simple programming of the processing arrangement of signals 20. Depending on the value of the resistance is decided in the microprocessor 21 if the signal must be activated or blocked programming 24.

Figure 3 shows the coded connector 29 with the endowment of a resistor R1 at the first end 28 and of a second resistor R2 at the other end 31. If the first R1 resistor is plugged in, for example, the signal is triggered programming 24. This status is maintained until the microprocessor 21 recognizes the second resistor R2 in the other end 31 after switching of the coded connector 29. A then the programming signal 24 is blocked and maintained locked until the first resistance is detected again R1.

Claims (6)

1. Control apparatus for the operation of a heating installation, which contains a signal processing arrangement (20), which has a memory (23), which is switchable by means of a programming signal (24) to a mode programming, the control apparatus (10) being arranged in a housing (11), which has an inlet (13) and a representation (12), characterized in that the housing (11) also has an opening (15), behind which a plug connection (16) is arranged, because an encoded connector (29) is provided that can be plugged into the plug connection (16), which controls the programming signal (24), and because when the Programming signal (24) is activated, operating data of the heating system set in the input (13) and reproduced in the representation (12) are stored in the memory (23). 2. Control apparatus according to claim 1, characterized in that the encoded connector (29) contains at least one connection line (30, 35) as coding means and that the at least one connection line (30, 35) connects to the minus two connectors (25, 26, 27, 32, 33, 34) of the coded connector (29) with each other. 3. Control apparatus according to claim 1, characterized in that the encoded connector (29) contains at least one ohmic resistance (R1, R2) as the coding means, and that the signal processing arrangement (20) evaluates the resistance (R1 , R2) and then activate or block the programming signal (24). 4. Control apparatus according to one of the preceding claims, characterized in that the encoded connector (29) contains at a first end (28) coding means (30, 35, R1, R2), which trigger the programming signal (24) and contains at the other end (31) encoding means (30, 35, R1, R2) that block the programming signal (24). 5. Control apparatus according to claim 1, characterized in that the housing (11) is configured removable. 6. Control apparatus according to claim 1, characterized in that the opening (15) can be closed for insertion of the coded connector (29).