FR2834390A1 - Electricity supply for vehicles has electrical consumption measuring device for switching in linear supply for low consumption state and chopped supply for high consumption state - Google Patents

Abstract

The system comprises a battery (1) and a device for measuring electricity consumption (5,7) on the vehicle electrical circuits (6,6'). For the high consumption state, a chopped supply (3) is switched (2) in to feed all the electrical circuits. When the vehicle is out of service and consumption is low a linear supply (4) is switched in to feed all circuits An Independent claim is also included for a method of switching between linear and chopped electricity supplies according to the size of the measured electrical consumption

Description

<Desc / Clms Page number 1>

 The present invention relates to a method and a device for power supply. It applies, in particular, to the electrical supply of motor vehicle circuits.

 The power supplies currently used in motor vehicles include a battery providing a voltage of fourteen volts and are linear. Future motor vehicles will be fitted with batteries providing a voltage of forty two volts. It will then no longer be possible to use a linear power supply. Indeed, a power supply of five Volts providing a current of one hundred milliamps dissipates 0.9 Watts when it is supplied by a battery of fourteen Volts and 3.7 Watts when it is supplied by a battery of forty two Volts.

 The use of a forty two volt battery therefore requires the use of a switching power supply as soon as the output current exceeds about 50 to 80 milliamps.

 Another constraint is that, for certain computers, the power supply must remain permanently active, including during the standby phases of the vehicle (when it is parked and / or when the ignition key is removed), to manage permanent functions such as access control, alarm, clock ...

 The switching power supply must in this case have high performance and high efficiency at low output current, for the phases where the vehicle is in standby. This implies complexity and a high manufacturing cost.

 The present invention aims to remedy these drawbacks.

 To this end, according to a first aspect, the present invention relates to a device for supplying electrical power to electrical circuits, the device comprising a source of electrical energy and a linear supply connected to said source of electrical energy, characterized in that it further comprises a switching power supply connected to said source of electrical energy, a means for determining the electrical consumption of said electrical circuits and a switching means adapted to switch the electrical supply of said electrical circuits between the switching power supply, on the one hand, and the linear power supply, on the other hand, as a function of said electrical consumption.

<Desc / Clms Page number 2>

 Thanks to these provisions: - when the electrical consumption is high, the switching means is placed in a first configuration and causes the electrical circuits to be powered by the switching power supply, thus avoiding excessive dissipation of energy from a power supply linear and, - when the electrical consumption is low, the switching means is in a second configuration and causes the supply of the electrical circuits by the linear supply, thus avoiding excessive electrical energy consumption when the vehicle is in standby.

 By preventing the switching power supply from operating when the vehicle's electrical circuits are on standby, the constraints, and therefore the complexity and cost of the switching power supply, are reduced.

 According to particular characteristics, the determining means controls the switching means as a function of a threshold value of the supply current of the electrical circuits, so that, when said current is less than said threshold value, the switching means supplies the electrical circuits with the linear supply and when said current is greater than said threshold value, the switching means supplies the electrical circuits with the switching power supply.

 Thanks to these provisions, the implementation of switching is easy to carry out.

 According to particular characteristics, the switching of the switching means is carried out for a threshold value of said output current being between forty and one hundred milliamps.

 Thanks to these provisions, the energy dissipations in the linear power supply are reduced to an acceptable level.

 According to particular characteristics, the switching means is adapted to switch the electrical supply of said electrical circuits simultaneously on the switching power supply and on the linear supply or else only on the linear supply. The choice between a supply by the linear supply alone or by the association of the linear supply and the switching supply is made as a function of the value of the electrical consumption determined by the means for determining the electrical consumption.

<Desc / Clms Page number 3>

 Thanks to these provisions, the electrical circuits which operate continuously, and, in particular, when the vehicle is in standby can be permanently supplied by the linear supply and the electrical circuits which operate only when the vehicle is active (n ' is not in standby), are only powered when the vehicle is active.

 According to particular characteristics, the switching means is adapted to switch the electrical supply of the electrical circuits between the switching power supply, when at least one predetermined electrical circuit is supplied, on the one hand, and the linear supply, when none predetermined electrical circuit is not supplied. In this case, the choice between the supply by the linear supply or by the switching supply is made according to the type of electrical circuit to be supplied (certain predetermined circuits must be supplied by the switching supply).

 According to a second aspect, the present invention relates to a device for supplying electrical power to at least a first electrical circuit and to at least one second electrical circuit different from each first electrical circuit, the device comprising a source of electrical energy and a linear power supply permanently connected to said source of electrical energy, characterized in that it comprises a switching power supply connected to said source of electrical energy, and a switching means adapted to switch the electrical supply of each first and second circuit between the switching power supply, when at least a second electrical circuit is supplied, on the one hand, and the linear supply, when no second electrical circuit is supplied, on the other hand.

 According to a third aspect, the present invention relates to a method of supplying electrical power to electrical circuits with a source of electrical energy, a linear supply and a switching power supply, connected to said source of electrical energy, characterized in that it comprises: - a step of determining the electrical consumption of said electrical circuits and - a step of switching the electrical supply of said electrical circuits between the switching power supply, on the one hand, and the linear power supply, on the other hand , as a function of said determined electrical consumption.

 The advantages and particular characteristics of the device object of the second aspect of the present invention and of the method object of the third aspect

<Desc / Clms Page number 4>

 of the present invention being identical to those of the first aspect, they are not repeated here.

 Other advantages, aims and characteristics of the present invention will emerge from the description which follows, given with reference to the appended drawings in which: FIG. 1 schematically represents an exemplary embodiment of the device which is the subject of the present invention, and FIG. 2 schematically represents the components of a supply circuit illustrated in FIG. 1.

 In FIG. 1, a source of electrical energy 1, a switching means 2, a switching power supply 3, a linear power supply 4, a means for determining consumption 5 and electrical circuits 6,6 ′ are observed.

 The electrical energy source 1 is, for example, a battery delivering a voltage of forty two volts.

 The switching means 2 is adapted to switch the electrical supply to the electrical circuits 6, 6 'between the switching power supply 3, on the one hand, and the linear supply 4, on the other hand.

 The linear power supply 4 is, for example, a linear converter known to those skilled in the art.

 The consumption measurement means 5 comprises a microprocessor 7 and is adapted to determine if the electrical consumption is greater than a predetermined threshold value. The threshold value is chosen so as to be greater than the consumption when the vehicle is in standby and less than the consumption when the vehicle engine is running. For example, the threshold value corresponds to an electrical intensity at the output of the energy source 1 between 40 and 100 milliamps, or, preferably, between 50 and 80 milliamps.

 Thus the means for determining consumption 5 makes it possible to know whether the vehicle is on standby or is active, and depending on the state of the vehicle a specific type of supply will be applied by the switching device.

 The microprocessor 7 of the consumption determining means 5 controls the switching of the switching means 2, as a function of the measured electrical consumption. When the measured electrical consumption is less than the predetermined threshold value, the processor 7 controls the

<Desc / Clms Page number 5>

 configuration of the switching means 2 so that the energy source 1 is connected to the linear supply 4.

 Thus when the vehicle is in standby state, it is the linear supply 4 which is used to supply the circuits 6,6 '.

 When the measured electrical consumption is greater than the predetermined threshold value, the processor 7 controls the configuration of the switching means 2 so that the energy source 1 is connected to the switching power supply 3.

 Thus when the vehicle is in the active state (that is to say, is not in standby), it is the switching power supply 3 which is used to power the circuits 6,6 '.

 The electrical circuits 6, 6 are, for example, the electrical circuits of the vehicle.

 It is observed that, preferably, the microprocessor 7 is part of a first circuit comprising a vehicle computer which operates when the vehicle is in standby, for example the access control computer also called opening control computer.

 Alternatively (not shown), the consumption determining means 5 is connected to at least one second circuit 6 ′ which is only supplied when the vehicle is active. Thus, the consumption determination means 5 is adapted to determine the electrical consumption of a predetermined electrical circuit 6 '. In this variant, the microprocessor 7 controls the switching of the switching means 2 when the second circuit 6 is supplied. Thus, the source of electrical energy 1 is connected to the switching power supply, when at least one second electrical circuit 6 is supplied, on the one hand, and to the linear supply, when no second electrical circuit is supplied, on the other hand.

 It is observed that the switching means 2 can take different positions in the electrical circuit of the vehicle to ensure the operation described above. Thus, the switching means 2 can be, as illustrated in FIG. 1, upstream of the supplies 3 and 4, or, downstream of the supplies 3 and 4.

 In FIG. 2, the linear power supply 4 is permanently connected upstream of the switch 12. Thus this linear power supply 4 continuously feeds certain electrical circuits 16, which are circuits operating continuously.

<Desc / Clms Page number 6>

 Other electrical circuits 17 (operating only momentarily) are supplied, in turn, by the switching power supply, when the switch establishes the corresponding connection.

 The electrical circuits 16 and the consumption determination means 15 are permanently supplied by the linear supply 4.

 The switching means 12 is adapted to switch the switching power supply 3 to supply the electric circuits operating momentarily 17 when the vehicle is active.

 The consumption determination means 15 includes a microprocessor 14 and is adapted to determine whether the vehicle is on standby or not. The processor 14 of the consumption determining means 15 controls the switching of the switching means 12, as a function of the standby of the vehicle.

 When the vehicle is in standby, the processor 14 controls the configuration of the switching means 12 so that the energy source 1 does not supply the circuits operating momentarily 17.

 When the vehicle is active, the processor 14 controls the configuration of the switching means 12 so that the energy source 1 supplies the circuits operating momentarily 17, via the switching power supply 3.

 It should be noted that, preferably, the processor 14 is part of a first circuit (not shown) comprising a vehicle computer, which operates when the vehicle is in standby, for example the access control computer also called opening control.

 As a variant, the consumption determination means 15 is connected to at least one "second" circuit, forming part of the circuits 17. In this variant, the processor 14 controls the switching of the switching means 12 when the second circuit is supplied. Thus, the electrical energy source 1 supplies the circuits 17 only when at least one second electrical circuit is supplied.

 According to another variant, the power supplies 3 and 4 are mounted in parallel and jointly supply the circuits 16 and 17.

Claims (10)

 CLAIMS 1. Device for supplying electrical power to electrical circuits (6,6 '), comprising a source of electrical energy (1) and a linear supply (4) connected to said source of electrical energy, characterized in that it comprises a switching power supply (3) connected to said source of electrical energy, a means for determining the electrical consumption (5.15) of said electrical circuits and a switching means (2.12) adapted to switch the electrical supply said electrical circuits (6, 6 '; 16,17) between the switching power supply, on the one hand, and the linear power supply, on the other hand, according to said electrical consumption. 2. Supply device according to claim 1, characterized in that the determining means (5.15) controls the switching means (2.12) as a function of a threshold value of the supply current of the electrical circuits, in such a way that, when said current is lower than said threshold value, the switching means supplies the electrical circuits with the linear supply and when said current is higher than said threshold value, the switching means supplies the electrical circuits with the switching power supply. 3. Power supply device according to claim 2, characterized in that the switching of the switching means (2.12) is carried out for a threshold value of said output current being between forty and one hundred milliamps. 4. Power supply device according to any one of claims 1 to 3, characterized in that the switching means (2,12) is adapted to switch the electrical supply of the electrical circuits between the switching power supply (3) , when at least one predetermined electrical circuit (6 ') is supplied, on the one hand, and the linear supply (4), when no predetermined electrical circuit is supplied. 5. Power device according to any one of claims 1 to 4, characterized in that the switching means (2,12) is adapted to switch the power supply of said electrical circuits between the switching power supply and the linear power supply jointly supplying the electrical circuits, on the one hand, and the linear power supply alone, on the other hand, according to said electrical consumption. <Desc / Clms Page number 8>  6. Method for supplying electrical power to electrical circuits (6, 6 '; 16.17) with an electrical energy source (1), a linear power supply (4) and a switching power supply (3), connected to said source of electrical energy, characterized in that it comprises: - a step of determining the electrical consumption of said electrical circuits and - a step of switching the electrical supply of said electrical circuits between the switching power supply, on the one hand , and the linear supply, on the other hand, as a function of said electrical consumption. 7. Power supply method according to claim 6, characterized in that the switching step is carried out as a function of a threshold value of the supply current of the electrical circuits, so that, when said current is less than said threshold value, the electrical circuits are supplied with the linear supply and when said current is greater than said threshold value, the electrical circuits are supplied with the switching power supply. 8. A supply method according to claim 7, characterized in that the switching step is performed for a threshold value of said output current being between forty and one hundred milliamps. 9. A supply method according to any one of claims 6 to 8, characterized in that the switching step switches the electrical supply of the electrical circuits between the switching supply (3), when at least one electrical circuit (6 ') predetermined is supplied, on the one hand, and the linear supply (4), when no predetermined electrical circuit is supplied. 10. A power supply method according to any one of claims 6 to 9, characterized in that the switching step switches the power supply of said electrical circuits between the switching power supply and the linear power supply jointly supplying the electrical circuits , on the one hand, and the linear power supply alone, on the other hand, as a function of said electrical consumption.