The present application claims priority of DE 10 2011 100 188.7, filed May 2, 2011, the priority of this application is hereby claimed and this application is incorporated herein by reference.
The invention relates to a master/slave arrangement of an electronic engine control device with an engine identification module and a respectively adapted method.
From DE 103 52 033 A1, a master/slave arrangement is known in which the interaction of the electric components is optimized by the electronic engine control device as the master which scans the respective component, i.e., the slave, with respect to its characteristic data relevant for the operation. In this case, the characteristic data of the component is scanned in the initial phase from the permanent memory of the component and is transmitted to the electronic engine control device. If necessary, the control parameters Safety measures against interference by a third party are not described.
EP 1 826 386 A1 describes a master/slave arrangement for a diesel engine with common rail system. In this arrangement, the electronic engine control device corresponds to the master. The engine specifics are stored, among others, in the slave in a read only memory. Engine specifics are the deviations of an engine of a standard engine, for example, the properties which apply to the injector. As a supplement, identification data is stored in the read only memory of the slave. Protective measures against interference by a third party are also not illustrated.
It is the object of the invention to provide appropriate protective measures against interference by a third party in a master/slave arrangement.
In the master/slave arrangement of an electronic engine control device with an engine identification module, according to the invention, the engine identification module is inseparably arranged on the crank housing of the internal combustion engine in such a way that the engine identification module can only be separated by destroying the crank housing and the engine cable harness. This inseparability of engine identification module and crank housing is achieved by a dovetail connection or a locking connection. Since the electronic engine control device and the engine identification module are connected to each other through the engine cable harness, the plug on the side of the engine identification module is cast therewith. In addition, the data transmission from/to the engine control device takes place in an encoded form.
In addition to a high safety level against interference by a third party, for example, chip tuning, the invention is distinguished by its simplicity, which is reflected in a low price per unit.
In the method according to the invention, during the initializing phase of the electronic engine control device, the engine identification is read from the engine identification module and, in the case of a positive concordance, normal operation is released. A positive concordance exists if the electronic engine control device fits with the engine type. On the other hand, in the case of a negative concordance, the starting procedure is locked. It is also conceivable to allow a certain number of starting attempts or a time limit. This testing procedure is also carried out after an exchange of the electronic engine control device or after an exchange of the internal combustion engine.
An embodiment provides that during the operation of the internal combustion engine, the electronic engine control device actualizes the operating data in the engine identification module. Operation data refers to the engine operating hours and the wear of the injectors. Also, the engine identification module may constitute redundant data memory for the electronic engine control device in which the data values learned are stored.
The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of the disclosure. For a better understanding of the invention, its operating advantages, specific objects attained by its use, reference should be had to descriptive matter in which there are described preferred embodiments of the invention.
In the drawing:
The engine identification module 3 is fastened on the crank housing 5 of the internal combustion engine through a dovetail connection 6. After the first installation of the engine identification module 3 on the crank housing 5, the engine identification module 3 cannot be removed from the crank housing 5 without destruction. Another safety measure resides in casting the plug 12 with the engine identification module 3.
During the initializing phase, the electronic engine control device 2 reads and counter checks the engine identification from the engine identification module 3. In the case of a positive concordance, i.e., the electronic engine control device 2 and t e engine identification form a correct master/slave arrangement for this internal combustion machine, normal operation is permitted. In the case of a negative concordance, on the other hand, the starting procedure is locked. It is also conceivable to set a specified number of starting attempts or a time limit. For example, if after a defect the electronic engine control device is replaced by a new one, the method ensures the correct pairing of engine control device/internal combustion machine. The same considerations apply also in the case where the internal combustion machine is replaced. In the case of an engine replacement, the skilled personnel of the engine manufacturer adjust the engine identification module 3 via electronic engine control device 2. This also makes an unauthorized use more difficult.
After the electronic engine control device 2 has determined a positive concordance, the engine specifics are read from the engine identification module 3. The engine specifics are then used in the electronic engine control device 2 for adapting the adjustment values, for example, for equalizing the cylinders by adjusting the injection beginning which is specific to the injector.
While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the inventions may be embodied otherwise without departing from such principle.
Number | Date | Country | Kind |
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10 2011 100 188.7 | May 2011 | DE | national |