FR2967786A1 - METHOD FOR DIAGNOSING A TRACTION BATTERY FOR A HYBRID OR ELECTRIC VEHICLE - Google Patents

Abstract

A method of diagnosing a traction battery for a hybrid or electric vehicle, characterized in that it comprises the following steps: - the data (6) of operation of the battery (2) relating to its use or its storage, are registered by the vehicle during the life of that battery; - These operating data are then processed (12) directly by the vehicle, to obtain statistical values (14) representative of the stresses experienced by the battery (2) and the corresponding damage; and then these statistical values (14) representative of the stresses undergone are compared with predefined reference values (22) representing stress and damage levels that have been previously estimated in a typical mission profile adapted for this vehicle.

Description

METHOD FOR DIAGNOSING A TRACTION BATTERY FOR A HYBRID OR ELECTRIC VEHICLE

The present invention relates to a method for diagnosing traction batteries of an electric or hybrid vehicle, as well as a management computer and a diagnostic tool for such a method, and a motor vehicle equipped with this diagnostic method. Hybrid vehicles using electrical energy or electric vehicles, comprise an electric traction machine which delivers a driving torque on the wheels of the vehicle, using an energy stored in an assembly comprising a series of electric accumulators that can be made according to different types, later called battery, which produce this energy from electrochemical reactions. Batteries undergo recharge and discharge cycles, recharge may occur from the electric traction machine used as a generator, or from other energy sources such as a power supply via an external electricity distribution network . The batteries have a limited life, which depends heavily on the conditions of use. According to these conditions of use, the batteries are subjected to aging which degrades their operating capacities, which leads to a reduction of their main characteristics, in particular their capacity of storage and supply of energy, as well as the electrical power which they can deliver. In particular, a parameter such as the operating or storage temperature of the batteries can, depending on the technology used for these batteries, quickly cause damage to the batteries above certain thresholds. This results in a reduction in the performance of the vehicle, especially its autonomy in electric driving, and in the case of a hybrid vehicle, we can see an increase in fuel consumption due in particular to a decrease in the amount of energy recovered and stored. In addition a reduced battery life due to the conditions of use, causes a more frequent renewal of these batteries 5 generally comprising a high cost. The various parameters of damage and battery life, can have significant repercussions on the operating conditions of the vehicle, and in particular on the cost price of the kilometer traveled. Various known means of battery diagnosis, for continuously recording in memory the operating parameters of these batteries, to establish a diagnosis of their operation and to be able to detect failures. In particular, a known battery diagnosis method, presented in particular in document US-A1-2003 / 0184307, comprises measurements of parameters made on batteries operating under certain operating conditions, which are compared with parameters delivered by algorithms. representing those theoretically obtained under the same conditions, to be able to detect failures of these batteries. However, these diagnostic methods do not make it possible to obtain a global and statistical comparison of the actual conditions of use of the batteries, with a previously established mission profile, in order to be able to evaluate in a simple manner the differences between the actual conditions and the conditions provided for. initially, while maintaining the confidentiality of the use of the vehicle. The present invention is intended in particular to avoid these drawbacks of the prior art, and to propose a diagnostic method making it possible to easily and confidentially assess a level of real damage to the batteries during their operation, by report at a theoretical level.

To this end, it proposes a method for diagnosing a traction battery for a hybrid or electric vehicle comprising means for measuring various operating data of this battery, and means for processing these data, this method being characterized in that it comprises the following steps: - the operating data of the battery relating to its use or its storage, are recorded by the vehicle during the lifetime of this battery; - These operating data are then processed directly by the vehicle to obtain statistical values representative of the stresses suffered by the battery, corresponding to damage; and then these statistical values representative of the stresses undergone are compared with predefined reference values, representing stress and damage levels that have been previously estimated in a typical mission profile adapted for this vehicle. An advantage of this diagnostic method is that it can simply and in a targeted manner provide the operators concerned with information already statistically processed relating to the damage of the battery, the detailed and dated information on the operation of the vehicle being then not delivered to these operators, which preserves the confidentiality of this operation. The diagnostic method according to the invention may further comprise one or more of the following features, which may be combined with each other. Advantageously, one of the statistical values representative of the stresses undergone makes it possible to establish the average effective current delivered by the battery during its use. Advantageously, one of the statistical values representative of the stresses undergone, makes it possible to establish the distribution of the states of charge of the battery, and of the variations of these states of charge, during its use. Advantageously, one of the statistical values representative of the stresses undergone, allows to establish the distribution of the battery operating temperatures during the operation of the vehicle, as well as the distribution of the storage temperatures of this battery during parking of the vehicle. Advantageously, one of the statistical values representative of the stresses undergone, makes it possible to establish the cumulative capacity in charge and discharge of the battery during its use. The invention also relates to a management computer for a traction battery of a hybrid or electric vehicle, implementing a diagnostic method of this traction battery, having any of the preceding characteristics. Advantageously, the management computer performs in addition to the implementation of the diagnostic method, all the usual operations of management and control of the battery. The invention also relates to a diagnostic tool for a battery controlled by a diagnostic method comprising any one of the preceding characteristics, this diagnostic tool comprising the predefined reference values, representing the estimated levels of stress and damage. beforehand. Advantageously, the diagnostic tool allows to rewrite in a replacement management computer, the statistical values found in the original management computer of the traction battery, in the case where it is defective.

The invention furthermore relates to an electric or hybrid vehicle having a traction battery, this vehicle comprising a management computer implementing a diagnostic method for this battery, comprising any one of the preceding characteristics. The invention will be better understood and other features and advantages will appear more clearly on reading the following description given by way of example, with reference to FIG. 1, which is a diagram of an installation comprising the method diagnostic device according to the invention. FIG. 1 shows a battery 2 of a hybrid or electric vehicle, comprising a succession of electrochemical cells 4 arranged in series, which deliver an electric supply current of a not shown electric traction machine. The battery 2 comprises sensors delivering information or data 6 on the operation of these cells 4, to a management computer 10 of this battery. This data 6 is that of parameters particularly related to the measurement of the aging of the battery 2, in particular the activation state of this battery, the current delivered, the voltage, the temperature. The data 6 can be delivered from measurements on certain cells 4, on certain groups of cells or on all the cells of the battery, according to the precision that one wants to obtain. The data delivered 6 is advantageously constituted by information delivered by sensors, which are usually used by the management computer 10 in order to continuously analyze the operation of the battery 2, and in particular to estimate in real time its state of load or its state of health, or to perform a diagnosis to detect failures or exceedances of the thresholds of use. The data supplied 6 and the data derived therefrom for the diagnostic process can therefore be obtained economically from existing means generally in a hybrid or electric vehicle. Depending on the nature of the data delivered 6, at least some of these data are permanently recorded during the lifetime of the battery 2, during the phases of use of the vehicle as during the parking phases where the contact of this vehicle is cut, to permanently monitor the relevant parameters. In particular, the temperature of the battery 2 is continuously measured.

The management computer 10 of the battery 2 may be a specific computer for this purpose, or may be integrated in a computer grouping other functions, such as for example the management of the entire powertrain.

The management computer 10 of the battery 2 firstly realizes from the data supplied 6 and data derived therefrom, a calculation 12 giving real statistical values 14 on the parameters related to the operation of this battery, and representing the level strain experienced by the battery.

The statistical calculation 12 advantageously relates in particular to the average effective current delivered by the battery 2 during its use, the distribution of charge states or variations in these states of charge of this battery during its use, the distribution of the operating temperatures. the battery during operation of the vehicle, as well as the storage temperatures during the parking of that vehicle, and the accumulated capacity in charge and discharge of the battery over its use. The statistical values 14 are continuously updated during the lifetime of the battery 2, by providing new data collected continuously on this battery. The statistical values 14 are adaptive values constituting only global information statistically processed on the operation of the battery 2 during its lifetime, which can not in particular provide dates and chronological details on the use of the vehicle . The vehicle comprises a connection means 16, which may comprise a physical cable or immaterial wave link, allowing an operator to receive the statistical values 14 established by the management computer 10, from a diagnostic tool 20.

The diagnostic tool 20 may be the one usually used by the operator to receive vehicle fault codes as part of regular maintenance, or a specific tool provided to receive these statistical values 14 and analyze them. The diagnostic tool 20 may in particular comprise a laptop. The operator then performs a comparison 24 of the statistical values 14 from the vehicle, with predefined reference values 22 for the same parameters, representing levels of stress and damage that have been estimated in a typical mission profile adapted for this purpose. vehicle. The comparison 26 may for example be displayed in a table on a screen, giving for the different parameters a level of stress actually experienced by the battery 2 during its life in the vehicle, characterized by the statistical value noted 14, compared to the level of stress that was originally planned for this vehicle, characterized by the predefined reference value 22.

The operator can check in particular whether the use is consistent with that provided, or carried out under different conditions, or even extreme. The operator then draws conclusions on the damage to the battery 2, and conclusions relating for example to the implementation of the guarantee, or the pricing of the costs of use or replacement of this battery. It can also be used to establish a follow-up in the form of a health log of battery 2, and issue recommendations for the future use of the vehicle. For example, an average effective current noted during the use of the battery 2, twice higher than that initially provided, causes more damage to this battery and a reduced life. Or an average storage temperature of the battery 2 significantly higher than expected, generates a recommendation to park the vehicle under a shelter. The statistical values identified 14 may in particular allow objectively, to implement or not the warranty of the battery 2, after verification of the use that has been made against the recommendations of the manufacturer. They can also help by knowing the type of real use, formulate recommendations for operation and maintenance, and establish an estimate of future aging. In addition the statistical values 14 can assist in the diagnosis of the state of the battery 2 and the performance of the vehicle, particularly in the proven absence of a failure. Advantageously, the static values 14 which are read by the diagnostic tool 20, can be rewritten in a new management computer 10 in the case where the initial management computer of the vehicle is defective.

This makes it possible to keep the history of the battery 2, and to limit the cost of the spare parts. The statistical values 14 found on the vehicle in the context of a real use, can also provide interesting information for the vehicle designers, allowing them to improve the dimensioning of the vehicle. It will be noted that the statistical values 14 delivered to an operator, which do not include precise indications of the use made, in particular dates and chronological information, make it possible to respect the protection of the users' privacy.

Claims (4)

CLAIMS1 - A diagnostic method of a traction battery for a hybrid or electric vehicle comprising means for measuring different operating data (6) of this battery (2), and means for processing these data (12), this method being characterized in that it comprises the following steps: - the data (6) of operation of the battery (2) relating to its use or its storage, are recorded by the vehicle during the life of this battery ; - These operating data are then processed (12) directly by the vehicle, to obtain statistical values (14) representative of the stresses experienced by the battery (2), corresponding to damage; And then these statistical values (14) representative of the stresses undergone are compared with predefined reference values (22), representing stress and damage levels that have been previously estimated in a typical mission profile adapted for this vehicle. . 2 - Method for diagnosing a battery according to claim 1, characterized in that one of the statistical values (14) representative of the stresses undergone, makes it possible to establish the average effective current delivered by the battery (2) during its use . 3 - Method of diagnosis of a battery according to one of claims 1 or 2, characterized in that a statistical values (14) 25 representative of the stresses undergone, allows to establish the distribution of battery charge states (2), and variations of these states of charge, during use, 4 - A method of diagnosis of a battery according to any one of claims 1 to 3, characterized in that one of the statistical values (14) representative of the stresses undergone, allows to establish the distribution of the temperatures of use of the battery (2) during the operation of the vehicle, as well as the distribution of the storage temperatures of this battery during parking of the vehicle. - A method of diagnosis of a battery according to any one of claims 1 to 4, characterized in that one of the statistical values (14) 5 representative of the stresses undergone, establishes the cumulative capacity in charge and discharge of the battery (2) during its use. 6 - Management computer (10) for a traction battery (2) of a hybrid or electric vehicle, characterized in that it implements a method of diagnosis of this traction battery, which is carried out according to one of any of the preceding claims. 7 - management computer (10) according to claim 6, characterized in that in addition to the implementation of the diagnostic method, it performs all the usual operations of management and control of the battery (2). 8 - Diagnostic tool (20) for a battery (2) controlled by a diagnostic method according to any one of claims 1 to 5, characterized in that it comprises the predefined reference values (22) representing the levels of stress and damage estimated beforehand. 9 - Diagnostic tool (20) according to claim 8, characterized in that it allows to rewrite in a replacement management computer, the statistical values (14) found in the original management computer (10) of the traction battery (2), in the event that it is defective. 10 - Electric or hybrid vehicle comprising a traction battery (2), characterized in that it comprises a management computer (10) implementing a diagnostic method of this battery, made according to any one of claims 1 to 5 .