FR2971103A1 - FIXED MAXIMUM CURRENT LOAD SYSTEM FOR ELECTRIC OR HYBRID VEHICLES - Google Patents

Abstract

The invention relates to a charging system for a battery fitted to a vehicle, comprising a device for managing the pilot line (21) included in the vehicle and a charging station (23), the device for managing the pilot line (21). and the charging terminal (23) being connectable via at least one pilot contact (25) and an earth contact (27), the charging terminal (23) comprising measuring means and electrical potential analysis means (Va) of said pilot contact (25), the management device of the pilot line (21) comprising means for confirming the connection of the vehicle and earth modifying the electric potential of said pilot contact (25) when the vehicle is connected at the charging terminal (23) in a manner that enables said potential analysis means (Va) to detect the connection of the vehicle to the charging terminal (23), and the charging terminal (23) being configured to deliver a maximum current of maximum intensity greater than or equal to a predetermined fixed value.

Description

The invention relates to a charging system for a hybrid or electric vehicle. It brings more particularly an improvement to the electrical charging systems of such vehicles. [0002] In a global context of decreasing fossil fuel reserves, and an increase in the risks associated with the greenhouse effect and global warming, car manufacturers are developing so-called electric vehicles, the operation of which relies exclusively on electric motor, and so-called hybrid vehicles, whose operation is typically based on an electric motor together with a heat engine. Electric or hybrid vehicles typically include one or more batteries (s) necessary (s) to power the engine and electrical organs, and often require to be connected to public or private power supply terminals, to recharge the battery. Such a connection is all the more necessary for electric vehicles, for which the terminals are the only means of recharging the battery. The terminals constitute charging points, some of them delivering an alternating current, and others delivering a direct current. In the case where these deliver an alternating current, it can be directly derived from an alternating voltage delivered by the local electrical network, by means of generally the implementation of adequate protection, limitation and billing devices. The present invention particularly relates to charging modes based on an alternating current. [0005] Different charging modes are defined in particular by the draft international standard ISO / IEC 61851-1, in which four charging modes are defined, of which the following three are based on an alternating current: the mode 1, in which the charge is performed via a conventional power outlet, for example a domestic electrical network; mode 2, in which the charging is carried out via a conventional power socket, for example a domestic electrical network, via a housing located on the cable connecting the socket to the vehicle; Mode 3, in which the charging is carried out via a specific public or private charging terminal, whose structure is more complex than that of a conventional power socket. In mode 3 above, the terminal provides a voltage only if adequate communication is established on the "pilot line", designating a simple communication network between the terminal and the electric or hybrid vehicle, the medium is a wire Dedicated included in the cable connecting the plug to the vehicle associated with the ground wire of said cable. This communication also allows the terminal to tell the vehicle what is the maximum intensity of the current it can provide. The pilot line may also provide other functions not the subject of the present invention, and therefore not detailed below. Typically, the pilot line is integrated in the assembly formed by the power cables and the connectors respectively on the side of the vehicle and the power supply terminal. This assembly, associated with the terminal, is commonly referred to by the acronym EVSE designating the English terminology "Electric Vehicle Supply Equipment". [000n The draft international standard ISO / IEC 61851-1 cited above is of course cited by way of example, and there are other normative or regulatory documents presenting vehicle battery charging systems that are identical or functionally equivalent to the different modes. mentioned above. A disadvantage of the aforementioned mode 3 is related to the fact that a vehicle compatible with this charging mode requires relatively complex means, allowing analysis throughout the charging time of the battery, a signal representative of the current of maximum permissible load and enslavement of the on-board charging system of the battery avoiding exceeding this value. A compatible vehicle may further comprise switching means capable of opening the charging circuit. Such means lead to a significant additional cost, especially for light vehicles such as electric bicycles or electric assistance, scooters or electric tricycles or quadricycles. A disadvantage of the above mode 3 is that it is not suitable for delivering currents whose maximum intensity is relatively low, typically less than 10 amps, for light vehicles and / or low cost. [oolo] A disadvantage related in particular to modes 1 and 2 above, is that a vehicle compatible with one or other of these charging modes, is not compatible with loading terminals compatible with mode 3. The invention aims to overcome at least the aforementioned drawbacks, by proposing a charging system for electric or hybrid vehicles for recharging the battery (s) of the latter by means of electrical terminals compatible mode 3 above , with a simple adaptation of said mode 3 and a reasonable additional cost of the load module included in said electric or hybrid vehicles. For this purpose, the invention relates to a charging system for one or batteries (s) equipping a vehicle, comprising a management device of the pilot line included in the vehicle and a charging terminal, the device for managing the pilot line and the charging terminal being able to be electrically connected via at least one phase contact, a neutral contact, a pilot contact and an earth contact, the charging terminal comprising at least one means of measurement and means for analyzing the electrical potential of said pilot contact, the charging system being characterized in that the management device of the pilot line comprises means for confirming the connection of the vehicle and the earth configured to modify the potential of said pilot contact when the vehicle is connected to the charging terminal in a characteristic manner allowing said means for analyzing the potential to generate a signal representing connecting the vehicle to the charging terminal, and in that the charging terminal is configured to deliver a current whose maximum intensity is greater than or equal to a predetermined fixed value. The present invention also relates to a management device of the pilot line for one or batteries (s) fitted to a vehicle, adapted to be electrically connected to a charging terminal via at least one phase contact, a contact of neutral, a pilot contact and a ground contact, the charging terminal comprising at least measuring means and means for analyzing the electrical potential of said pilot contact, the pilot line management device being characterized in that it comprises vehicle and earth connection confirmation means configured to modify the electrical potential of said pilot contact when the vehicle is connected to the recharging terminal in a manner that enables said potential analysis means to generate a signal representative of the connection of the vehicle to the charging terminal, the charging terminal being configured to deliver a current whose maximum intensity is greater than or equal to a predetermined fixed value. The present invention also relates to a charging terminal for battery (s) equipping a vehicle comprising a device of the pilot line, the charging terminal being adapted to be electrically connected to the control device of the pilot line via the least one phase contact, one neutral contact, one pilot contact and one earth contact and comprising at least measuring means and means for analyzing the electrical potential of said pilot contact, the pilot line management device comprising means for confirming the connection of the vehicle and earth configured to change the electrical potential of said pilot contact when the vehicle is connected to the charging terminal in a characteristic manner allowing said means for analyzing the potential to generate a signal representative of the connection of the vehicle to the charging station, the charging terminal being characterized in that it is configured to deliver rer a current whose maximum intensity is greater than or equal to a predetermined fixed value. In one embodiment of the invention, said confirmation means of the connection of the vehicle and the earth may be formed by a diode whose anode is connected to the pilot contact, and by an equivalent resistance between the cathode of said diode and the earth contact. In one embodiment of the invention, the charging terminal can be characterized in that it comprises a human-machine interface enabling it to specify and display to a user that said charging station is compatible with the vehicles comprising a device for managing the pilot line according to one of the embodiments of the invention. The invention will be better understood and other advantages will appear on reading the detailed description of an embodiment given by way of example, a description illustrated by the appended figures among which: FIG. schematically illustrating a charging system for a hybrid or electric vehicle; - Figure 2 shows the electrical diagram corresponding to an exemplary charging system, according to one embodiment of the invention. [Ools] With reference to Figure 1, an electric or hybrid vehicle 10 comprising an electric motor 101 powered by a battery 102, can be connected to different charging devices of the battery 102, as is explained above. According to different charging modes, and in particular a charging mode similar to mode 3 above, the vehicle 10 can be electrically connected to a charging terminal 11, via a power cable 110 equipped at its ends with a first connector 111 adapted to a power supply 13 of the charging terminal 11, and a second connector 113 adapted to an input socket 103 of the vehicle 10. According to alternative charging modes, such as for example the modes 1 and 2 mentioned above, the vehicle 10 may be electrically connected to a power supply 15 of an electrical network, for example domestic, via a power cable 150 comprising at its ends a first connector 151 adapted to the power supply socket 15, and a second connector 153 adapted to the input socket 103 of the vehicle 10. Regardless of the charging mode considered, the power cable 110, 150 comprises one or more phase, neutral and phase conductors. it for connection to a reference potential, for example a ground potential. Regardless of the charging mode considered, the power cable 110 also includes a pilot wire. For the vehicle 10, the reference potential may for example be connected to a ground potential, for example the electric potential of the chassis of the vehicle 10. The assembly formed by the power cable 110 or 150, the connectors 111, 113 or 151, 153 associated therewith and the charging terminal 11 or the power plug 15, constitutes an EVSE. For example, the connectors 111, 113, 151, 153 may in particular comprise protection devices and / or adaptation. Figure 2 shows an electrical diagram illustrating a charging system according to an exemplary embodiment of the invention. In the example illustrated in FIG. 2, the charging system is formed by a compatible charging station 23 of the aforementioned mode 3 or an equivalent mode of operation, and a management device of the pilot line 21, by example included in the electric or hybrid vehicle. In this example, the connection with the vehicle is carried out via a pilot contact 25 and a ground contact 27. In the example illustrated by the figure, the charging terminal 23 comprises in particular an oscillator 231 generating a square signal whose width pulse determines the value of the electrical current intensity that the charging terminal 23 can provide. The modulation of the pulse width is commonly referred to by the acronym PWM denoting the English terminology "Pulse Width Modulation" allows to indicate the intensity of the maximum electric current that can be supplied. A resistor R1 represents the equivalent resistance of the source, in series between the oscillator 231 and the pilot contact 25. A filter capacitor Cs can be disposed between the pilot and earth contacts 27. In a typical manner, the terminal charging station 23 comprises means for measuring the potential Va of the pilot contact 25, and means for analyzing the potential Va enabling detection of the connection to the charging terminal 23 of a compatible vehicle. According to a specificity of the present invention, it is proposed that the management device of the pilot line 21 of the vehicle comprises means for confirming the connection of the vehicle and the earth. In the example illustrated in FIG. 2, the means for confirming the connection may be formed by a diode D whose anode is connected to the pilot contact 25 and by an equivalent resistor Re between the cathode of the diode D and the earth contact 27. The diode D and the equivalent resistance Re allow the means for analyzing the potential Va of the charging terminal 23, to detect the connection of the charging terminal 23 to a vehicle and to the earth. These in fact imply a characteristic drop of the positive halfwaves of the potential Va of the pilot contact 25. The means of confirmation of the connection of the vehicle make it possible to guarantee the security conferred by the charging terminal 23, the latter being typically configured. to not provide power without adequate electrical connection to the vehicle and the earth has been detected. The confirmation means of the vehicle connection can be integrated in the vehicle charger, or in a case possibly able to be connected thereto. The management device of the pilot line 21 may also comprise additional means, such as for example switching means, for example in the form of a switch connected in series with another resistor, this set of two components. being mounted in parallel with the equivalent resistance Re, and / or means of communication with the charging terminal 23. On the other hand, according to one of the advantages of the present invention, the management device of the pilot line 21 can be devoid of means. complex of analysis of the PWM signal supplied by the charging terminal 23. According to another specificity of the invention, the charging terminal 23 is configured to supply a minimum electric current of a value greater than or equal to a threshold Ifix fixed in advance, said threshold being greater than the minimum value according to the definition of said terminal without the implementation of the invention. In this way, if a vehicle equipped with a management device of the pilot line 21 according to an embodiment of the invention described above, is connected to the charging terminal 23, it can be recharged, such a terminal charging device being initially designed to recharge only vehicles comprising at least means for analyzing the PWM signal delivered by the charging terminal 23, and possibly switching or communication means with the charging terminal 23. Advantageously , the charging terminal 23 may be configured so as to always provide a current whose intensity is greater than a fixed fixed value Ifix, without disjunct. Typically, the Ifix value may be 10 amperes, or 13 amperes, or 16 amperes, or 20 amperes, the vehicles connected to the recharging terminal 23 still consuming a current whose intensity is lower or equal to the Ifix value. Advantageously, the charging terminal 23 may be equipped with a human-machine interface HMI, allowing, for example via a switch and a light provided for this purpose, or a specific payment system, to indicate that the terminal can charge and / or is charging a fixed maximum current vehicle according to an embodiment of the present invention.

Claims (5)

REVENDICATIONS1. Pilot line management device (21) for at least one battery (102) fitted to a vehicle (10), able to be electrically connected to a charging terminal (11, 23) via at least one pilot contact (25) and a earth contact (27), the charging terminal (11, 23) comprising at least measuring means and electrical potential analysis means (Va) of said pilot contact (25), the pilot line management device ( 21) being characterized in that it comprises means for confirming the connection of the vehicle and the earth configured to modify the electric potential of said pilot contact (25) when the vehicle (10) is connected to the charging terminal (11). , 23) in a characteristic manner enabling said potential analysis means (Va) to generate a signal representative of the connection of the vehicle (10) to the charging terminal (11, 23), the charging terminal (11, 23) being configured to deliver a current whose maximum intensity e st greater than a predetermined fixed value. 2. Charge terminal (11, 23) for battery (102) fitted to a vehicle (10) comprising a pilot line management device (21), the charging terminal (11, 23) being able to be electrically connected to the device pilot line management system (21) via at least one pilot contact (25) and an earth contact (27) and comprising at least measuring means and electrical potential analysis means (Va) of said pilot contact (25). ), the pilot line management device (21) comprising vehicle and earth connection confirmation means configured to change the electrical potential of said pilot contact (25) when the vehicle (10) is connected to the control terminal. charging (11) in a characteristic manner enabling said means for analyzing the potential (Va) to generate a signal representative of the connection of the vehicle (10) to the recharging terminal (11, 23), the recharging terminal (11) , 23) being characterized in that it is configured to r deliver a current whose maximum intensity is greater than a predetermined fixed value. 3. charging terminal (11, 23) according to claim 2, characterized in that said confirmation means of the connection of the vehicle and the earth are formed by a diode (D) whose anode is connected to the pilot contact ( 25) and an equivalent resistance (Re) between the cathode of said diode (D) and the earth contact (27). 4. charging terminal (11, 23) according to any one of claims 2 and 3, characterized in that it comprises a man-machine interface allowing him to specify and / or visualize to a user that it allows the vehicle charging (10) comprising a pilot line management device (21) having the features of claim 1. A charging system for a battery (102) in a vehicle (10), comprising a pilot line management device (21) according to claim 1, and a charging terminal (11, 23) according to any one of Claims 2 to 4.