FR2806487A1 - Authorization of operating of electric system containing microprocessor and at least removable element by allowing operation if identification code is different from that read at time of previous replacement of element - Google Patents

Abstract

An identification code of at least one removable element (12) is read and stored by a microprocessor (11) of an electric system (10). The operation of the latter is allowed if the identification code is different from the identification codes read at the time of previous replacements of the element (12) and recognized as an identification validate code. An Independent claim is included for: (a) an authorization device for operating of an electric system

Description

 The present invention relates to a method for authorizing the operation of an electrical system. The invention is applicable to any electrical system comprising a microprocessor and at least one removable element.

The invention will be described more particularly in the context of an electrical system comprising, as a removable element of the electrical system, a battery of electric cells. However, the invention is also applicable to any electrical system comprising elements to be changed during maintenance operations.

The change of batteries in a battery-powered electrical system, for example in an ARGOS type distress beacon, is generally not carried out by the manufacturer of the electrical system but by the user of the system or by a maintenance company. The manufacturer then no longer has any control over the nature of the electric batteries used to replace the used electric batteries.

the use of electric batteries not recommended by the manufacturer can disturb the functioning of the electric system, for example when the replacement batteries do not have the same temperature characteristics as the original batteries. Furthermore, the use of replacement parts not manufactured or not recommended by the manufacturer represents a shortfall for the latter.

Also, the invention aims to allow the manufacturer of the electrical system to keep some control over the parts used to replace the worn parts of the system during maintenance operations.

To do this, provision is made according to the invention to block, after the replacement of a part in the system, the operation of the electrical system as long as the replacement part is not recognized as valid by the microprocessor of the system.

The subject of the invention is a method for authorizing the operation of an electrical system comprising a microprocessor at least one removable element, characterized in that an identification code is provided for each of said at least one removable element, in that at each change of said at least one removable element, the identification code associated with said at least one removable element is read and memorized by the electrical system microprocessor, and in that the operation of said electrical system is authorized said identification code is different identification codes read during previous replacements of said at least one removable element and is recognized as a valid identification code. The identification code read by the microprocessor of the electrical system corresponds for example to the serial number of the removable element. This identification code stored in a memory coupled to the microprocessor of the electrical system, said memory being provided in said removable element. When the removable element of the electrical system has a determined lifetime, the memory can be read periodically, the reading period then being equal to the estimated lifetime of said removable element. This periodic reading makes it possible both to detect the replacement of the removable element with a new element and to ensure that the latter is authorized.

Another subject of the invention is a device for authorizing the operation of an electrical system comprising a microprocessor and at least one removable element, characterized in that it comprises a memory coupled to said microprocessor of the electrical system in which an identification code of said device is stored at least one removable element, the identification code of a removable element being read at each change of said at least one removable element by the microprocessor of the electrical system, the operation of said electrical system being authorized by said microprocessor when the identification code read is different from identification codes read during previous changes of said at least removable element and is recognized as a valid identification code. The invention will be better understood on reading the description which follows and on examining the figures which accompany it. These are given for information only and in no way limit the invention. The figures show: - la .1: a first embodiment of an authorization device according to the invention, - la .2. a second embodiment of an authorization device according to the invention.

According to the invention, each removable element of the electrical system is provided with a memory in which is stored an identification code of said removable element. Each time an element of the system is replaced, the microprocessor of the electrical system comes to read its identification code and authorizes the operation of the electrical system if this identification code does not correspond to an identification code already during a previous replacement of this element this valid recognized code. In all the others, the microprocessor detects fraud and inhibits the functioning of the electrical system.

Two exemplary embodiments of a device for authorizing the operation of an electrical system in accordance with the invention are shown in FIGS. 1 and 2. In these two cases, the removable element of the electrical system is a battery of batteries. The authorization device shown in these figures is intended to control the operation of an electrical system 10 comprising a microprocessor 11 and a battery of batteries 12.

To implement the method for authorizing the operation of the electrical system according to the invention, the battery of electric cells 12 is provided with a memory 13 in which is stored an identification code of the battery 12. This code identification is for example the battery serial number. The battery 12 comprises a positive terminal 14 and a negative terminal 15. On the other hand, the electrical system 10 comprises a supply terminal 16 connected to the positive terminal 14 of the battery by a supply 18 and a ground terminal 17 connected to negative terminal 15 by a ground wire 19. In an exemplary embodiment, the memory 13 comprises input / output terminal for receiving read commands and the address of the identification code send to the microprocessor 11 the code d identification present at this address, and a ground terminal connected to the ground wire 19. The input / output terminal is connected to the microprocessor 11 via a bus 20 comprising a single wire through which the microprocessor 11 dialogues with the memory 13. Via this wire pass the command to read memory 13, the address of the identification code read at this address and the identification code. Furthermore, a supply voltage is supplied to the memory 13 between the wire of the 20 and the ground wire 19. A memory accessible by single bus is for example the memory DS2401 manufactured by the company DALLAS. The identification code which can be stored there comprises bits, which guarantees a very large number of possible identification codes. When the electrical system 10 is put into service for the first time, the microprocessor comes to read the identification code in the memory and stores it in one of its internal memories.

In this exemplary embodiment, the electrical system 10 further comprises an analog / digital converter 21 whose input is connected to the supply terminal 16 of the electrical system. The digital signal obtained at the output of this converter is representative of the supply voltage level of the battery 12. This digital signal is processed by the microprocessor 11 so that the voltage level of the battery 12 is constantly monitored by the electrical system. 10. Thus, the microprocessor detects a battery change 12 when the level of the supply voltage goes from 0 volts to a voltage value sufficient to supply the electrical system. The microprocessor 11 then triggers an operation to read the identification code of the new battery and saves the latter in one of its internal memories. It then compares this code to identification codes recorded during previous battery changes. If the identification code that is read by the microprocessor is different from the previous identification codes and if this identification code is recognized as valid (for example, if it belongs to a predefined list of codes or is between two limit values), then electrical system 10 is authorized to operate. Otherwise, that is to say when the identification code corresponds to a code already read or when the microprocessor 11 fails to read the identification code of the new battery 12, operation of the electrical system 10 is inhibited. Indeed, if the identification code of the new battery corresponds to a code already read, this means that the memory 13 and the bus 20 have been removed from the used battery and reinstalled in the new battery. There was therefore fraud.

Note that the digital signal from the analog / digital converter 21 also serves to monitor the voltage level of the battery 12 and to indicate the user when he must change the battery. In the case of a removable element other than a battery, sensors are provided in relation to the microprocessor 11 to detect a change of removable element in the electrical system 10. As soon as a change of removable element is detected, microprocessor It starts a reading of the memory associated with this element.

In a particular embodiment, the memory 13 is read periodically. This embodiment is applied when the removable element to be replaced has a determined life. The reading period is then taken equal to the life of this item. In this embodiment, reading the memory 13 not only makes it possible to verify the new removable element is authorized but also to verify that the change of element has been carried out before the end of the deadline for use of said element. It is then no longer necessary to provide sensors to detect the change of the removable element.

A second embodiment of the device of the invention is proposed in FIG. 2. In this embodiment, the memory 13 is placed in a connector 22 connecting the battery 12 to the microprocessor 11. The memory 13 is molded in the connector 22 to avoid disassembly of the memory.

Claims (9)

1) Method for authorizing the operation of an electrical system (10) comprising a microprocessor (11) and at least one removable element (12), characterized in that an identification code is provided for each of said at least one removable element (, in each change of said at least removable element (12), said identification code associated with said at least one removable element (12) is read and memorized by the microprocessor (11) of the electrical system (10), and in that the operation of said electrical system (10) is authorized if said identification code is different from identification codes read during previous changes of said at least removable element (12) and recognized as a valid identification code. 2) Method according to claim 1, characterized in that, when said at least one removable element has a determined lifetime, said identification code associated with said at least one removable element is read periodically, the reading period being equal to the estimated lifetime of said at least one removable element (12). 3) Method according to claim 1 or 2, characterized in that said identification code is stored in a memory (13) coupled to said microprocessor (11), said memory (13) being inserted in said at least one removable element (12 ). 4) Method according to one of claims 1 to characterized in that said recognized identification code valid if it belongs to a list of identification codes stored by the microprocessor (11) of the electrical system (10). 5) Method according to one of claims 1 to characterized in that said removable element is a wearing part of said electrical system (10). 6) Method according to one of claims 1 to 4, characterized in that said removable element is a battery of electric cells of said electrical system (10). 7) Device for authorizing the operation of an electrical system (10) comprising a microprocessor (11) at least one removable element (12), characterized in that it further comprises a memory (13) coupled to said microprocessor (11) of the electrical system (10) in which an identification code of said at least one removable element (12) is stored, said identification code being read at each change of said at least one removable element (12) by the microprocessor (11) of the electrical system (10), the operation of said electrical system (10) being authorized by said microprocessor (11) when the identification code read is different from identification codes read during previous changes of said at least removable element (and is recognized as a valid identification code. 8) Device according to claim 7, characterized in that said memory (13) is inserted into said at least one removable element (12). 9) Device according to claim 8, characterized in that said at least one removable element is a wearing part of said electrical system (10). Device according to claim 7, characterized in that said at least one removable element (12) is connected to the microprocessor (11) of said electrical system (10) by a connector (22) and in that said memory associated with said at least one element removable (12) placed in said connector (12). Device according to claim 10, characterized in that said at least one removable element is a battery of electric cells of said electrical system (10).