FR3125478A1 - CHECKING THE CHARGING OF A SERVITUDE BATTERY OF A SLEEPING VEHICLE - Google Patents

Abstract

A control device (DC) equips a vehicle (V) comprising at least one piece of equipment (EP) providing pre-conditioning when it is powered by a voltage converter (CV) controlled by a first supervision piece of equipment (ES1) and coupled to a service battery (BS) controlled by a second supervision device (ES2). This device (DC) is arranged, when the first supervision equipment (ES1) is awakened to trigger the pre-conditioning, to trigger the awakening of the second supervision equipment (ES2) so that it determines the state of charge of the service battery (BS), then to trigger the awakening of the equipment involved in the recharging of the service battery (BS), then to control the recharging by the voltage converter (CV) until a target state of charge, by controlling a charging current respecting specific constraints of the service battery (BS). Fig. 1

Description

CHECKING THE CHARGING OF A SERVITUDE BATTERY OF A SLEEPING VEHICLE

Technical field of the invention

The invention relates to vehicles in which pre-conditioning can be carried out before they are used.

State of the art

As known to those skilled in the art, certain vehicles, possibly of the automotive type, comprise a rechargeable main battery coupled to a voltage converter in order to supply electrical energy to an on-board network, a service battery rechargeable by this voltage converter, and at least one piece of equipment from the on-board network able to ensure pre-conditioning when it is supplied with electrical energy by the voltage converter at the request of a supervision piece of equipment.

For example, the main battery is notably responsible for supplying electrical energy to an electric drive machine of the powertrain (or GMP) of the vehicle, so that the latter can move.

Also, for example, when the vehicle comprises a passenger compartment, the pre-conditioning may concern the aerothermal energy in this passenger compartment, and in this case it is carried out before the passengers enter the passenger compartment so that they benefit in the latter from a predefined aerothermal comfort (by programming). But other pre-conditioning can be carried out in advance, and in particular pre-conditioning of a driving machine of the powertrain (or GMP) of the vehicle.

The number of functions that consume a lot of electrical energy is constantly increasing in vehicles. Some of these functions can only be activated when the vehicle is stopped (or asleep) and therefore only has the service battery as a source of electrical power. This is for example the case of the active detection of the approach of the smart telephone (or "smartphone") of a vehicle user or of the communication by way of waves with remote servers for software updates. . All these functions can lead to discharges of the service battery, which can lead to breakdowns if the state of charge of the service battery is too low.

Admittedly, the service battery can be recharged during a driving phase. But recharging may not be done correctly when the service battery is too discharged or when the driving phase has a very short duration, and in these cases, once again stopped (or asleep) the vehicle no longer has enough electrical energy to perform the above functions.

The aim of the invention is therefore in particular to improve the situation.

Presentation of the invention

In particular, it proposes for this purpose a control device intended to equip a vehicle comprising at least one equipment capable of ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter controlled by a first supervision equipment and coupled to a service battery controlled by a second supervision device.

This control device is characterized in that it comprises at least one processor and at least one memory arranged to carry out the operations consisting, in the event of awakening of the first supervision equipment to trigger the pre-conditioning, of triggering an awakening of the second supervision equipment so that it determines a state of charge of the service battery, then to trigger a wake-up call for any equipment of the vehicle involved in a recharging of the service battery, then to control the recharging of the latter by the converter of voltage up to a target state of charge during the pre-conditioning, by controlling a charging current of the service battery respecting specific constraints of the latter.

Thus, advantage is advantageously taken of a pre-conditioning phase, which requires in particular the awakening of the first supervision equipment, of the voltage converter and of the main battery, to recharge the service battery with the electrical energy from the battery. main when its state of charge is too low, which makes it possible to avoid the risk of breakdown or non-performance of certain functions when the vehicle is asleep and when it has just been woken up.

The control device according to the invention may comprise other characteristics which may be taken separately or in combination, and in particular:

- its processor and its memory can be arranged to perform the operations consisting in estimating an off-load voltage of the service battery as a function of first selected parameters of the latter supplied by the second supervision equipment, then in determining the specific constraints as a function this estimated no-load voltage, these first parameters and second parameters of the service battery;

- in the presence of this first option, its processor and its memory can be arranged to carry out the operations consisting in determining the minimum and maximum voltage limits constituting the specific constraints and which must be respected at the terminals of the service battery to guarantee that the current charging respects a maximum charging current during the pre-conditioning, according to the estimated no-load voltage, the first parameters and second parameters of the service battery;

- its processor and its memory can be arranged to carry out the operations consisting in determining a main voltage setpoint suitable for allowing the voltage converter to control the charging current of the service battery, according to a secure voltage setpoint at applying across the service battery terminals to achieve the target state of charge during pre-conditioning and a correction voltage;

- in the presence of the last option, its processor and its memory can be arranged to carry out the operations consisting in determining the secure voltage setpoint according to a non-secured voltage setpoint, to be applied to the terminals of the service battery to reach the target state of charge during pre-conditioning, and specific stresses determined;

- in the presence of the last sub-option, its processor and its memory can be arranged to perform the operations consisting in determining the non-secured voltage setpoint according to at least one of the first parameters;

- also in the presence of the last option, its processor and its memory can be arranged to carry out the operations consisting in determining the correction voltage according to the determined secure voltage setpoint and a voltage measured at the terminals of the service battery ;

- its processor and its memory can be arranged to carry out the operations consisting, when the state of charge determined by the second supervision equipment is lower than a threshold, in triggering the awakening of any equipment of the vehicle involved in the recharging of the battery of bondage.

The invention also proposes a vehicle, optionally of the automobile type, and comprising at least one piece of equipment capable of ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter controlled by a first supervision piece of equipment and coupled to a service battery controlled by a second supervision device, as well as a control device of the type presented above.

The invention also proposes a control method intended to be implemented in a vehicle comprising at least one piece of equipment suitable for ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter controlled by a first supervision piece of equipment and coupled to a service battery controlled by a second supervision device.

This control method is characterized in that it comprises a step in which, in the event of awakening of the first supervision equipment to trigger the pre-conditioning, the second supervision equipment is awakened so that it determines a state of charge of the service battery, then any equipment of the vehicle involved in recharging the service battery is woken up, then the charging of the latter is controlled by the voltage converter up to a target state of charge during the pre-conditioning, by controlling a charging current of the service battery respecting the specific constraints of the latter.

The invention also proposes a computer program product comprising a set of instructions which, when it is executed by processing means, is capable of implementing a control method of the type of that presented above for controlling recharging a service battery of a vehicle comprising at least one piece of equipment capable of ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter controlled by a first supervision piece of equipment and coupled to the battery of servitude, and a second supervision device controlling the servitude battery, in the event of awakening of the first supervision device to trigger the pre-conditioning

Brief description of figures

Other characteristics and advantages of the invention will appear on examination of the detailed description below, and of the appended drawings, in which:

schematically and functionally illustrates an exemplary embodiment of a vehicle comprising a GMP, with an electric drive machine powered by a main battery, an auxiliary battery and a control device according to the invention,

schematically and functionally illustrates an exemplary embodiment of wake-up supervision equipment comprising a control device according to the invention, and

schematically illustrates an example of an algorithm implementing a control method according to the invention.

Claims (10)

Control device (DC) for a vehicle (V) comprising at least one piece of equipment (EP) capable of providing pre-conditioning when it is supplied with electrical energy by a voltage converter (CV) controlled by a first supervision piece of equipment (ES1) and coupled to a service battery (BS) controlled by a second supervision equipment (ES2), characterized in that it comprises at least one processor (PR1) and at least one memory (MD) arranged to perform the operations consisting, in the event of awakening of said first supervision equipment (ES1) to trigger said pre-conditioning, in triggering an awakening of said second supervision equipment (ES2) so that it determines a state of charge of said service battery (BS ), then triggering a wake-up call for any equipment of said vehicle (V) involved in recharging said service battery (BS), then controlling the recharging of the latter (BS) by said voltage converter (CV) until a state target charging during said pre-conditioning, by controlling a charging current of said service battery (BS) respecting specific constraints of the latter (BS). Control device according to Claim 1, characterized in that the said processor (PR1) and the said memory (MD) are arranged to carry out the operations consisting in estimating an open-load voltage of the said service battery (BS) as a function of first parameters chosen of the latter (BS) provided by said second supervision equipment (ES2), then in determining said specific constraints as a function of said estimated no-load voltage, of said first parameters and of second parameters of said service battery (BS). Control device according to Claim 2, characterized in that the said processor (PR1) and the said memory (MD) are arranged to carry out the operations consisting in determining the minimum and maximum voltage limits constituting the said specific constraints and which must be respected at the terminals of said service battery (BS) to ensure that said charging current respects a maximum charging current during said pre-conditioning, according to said estimated no-load voltage, said first parameters and second parameters of said service battery (BS) . Control device according to one of Claims 1 to 3, characterized in that the said processor (PR1) and the said memory (MD) are arranged to carry out the operations consisting in determining a main voltage setpoint capable of enabling the said voltage converter ( CV) to control said service battery charging current (BS), according to a secure voltage setpoint to be applied to the terminals of said service battery (BS) to reach said target state of charge during said pre-conditioning and a correction voltage. Control device according to Claim 2 or 3 taken in combination with Claim 4, characterized in that the said processor (PR1) and the said memory (MD) are arranged to carry out the operations consisting in determining the said secure voltage setpoint as a function of a non-secured voltage setpoint, to be applied to the terminals of said service battery (BS) to reach said target state of charge during said pre-conditioning, and said determined specific constraints. Control device according to Claim 4 or 5, characterized in that the said processor (PR1) and the said memory (MD) are arranged to carry out the operations consisting in determining the said correction voltage as a function of the said determined secure voltage setpoint and of a voltage measured at the terminals of said service battery (BS). Control device according to one of Claims 1 to 6, characterized in that the said processor (PR1) and the said memory (MD) are arranged to carry out the operations consisting, when the said state of charge determined by the said second supervision equipment (ES2 ) is less than a threshold, to trigger said awakening of any equipment of said vehicle (V) involved in recharging the service battery (BS). Vehicle (V) comprising at least one piece of equipment (EP) capable of ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter (CV) controlled by a first supervision piece of equipment (ES1) and coupled to a battery (BS) controlled by a second supervision equipment (ES2), characterized in that it further comprises a control device (DC) according to one of the preceding claims. Control method for a vehicle (V) comprising at least one piece of equipment (EP) capable of ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter (CV) controlled by a first supervision piece of equipment (ES1) and coupled to a service battery (BS) controlled by a second supervision equipment (ES2), characterized in that it comprises a step (10-50) in which, in the event of awakening of said first supervision equipment (ES1) to trigger said pre-conditioning, said second supervision equipment (ES2) is woken up so that it determines a state of charge of said service battery (BS), then any equipment of said vehicle (V) involved in a recharging of said service battery (BS), then the recharging of the latter (BS) is controlled by said voltage converter (CV) up to a target state of charge during said pre-conditioning, by controlling a charging current of said battery of servitude (BS) respecting the specific constraints of the latter (BS). Computer program product comprising a set of instructions which, when it is executed by processing means, is capable of implementing the control method according to claim 9 for controlling the recharging of a service battery (BS ) of a vehicle (V) comprising at least one piece of equipment (EP) capable of ensuring pre-conditioning when it is supplied with electrical energy by a voltage converter (CV) controlled by a first supervision piece of equipment (ES1) and coupled to said service battery (BS), and a second supervision device (ES2) controlling said service battery (BS), in the event of awakening of said first supervision device (ES1) to trigger said pre-conditioning.