FR2883380A1 - Low and/or high currents measuring device for electrical circuit, has measurement units respectively adapted to measure low and high currents, where low current measurement unit includes sensor forming shunt - Google Patents

Abstract

The device has a conductor unit (12) comprising a conductive branch (14) assigned to low current, a conductive branch (16) assigned to high current, and a common branch (18) connecting the branches (14, 16) and in which low or high current circulates. A measurement unit (32) is adapted to the measurement of the low current and assigned to the branch (14) and includes a sensor forming a shunt. A measurement unit (34) is adapted to the measurement of the high current and affected to one of the two branches (16, 18).

Description

The present invention relates to a device for measuring current

  perfected, including battery current.

  It applies more particularly to the measurement of weak and / or strong currents in an electrical circuit connected to a motor vehicle battery. This battery is generally intended to supply electrical organs whose power intensities can be very diverse.

  Indeed, when the vehicle is in operation, at least some electrical components requiring a high intensity power supply (for example a starter, a motor-fan unit) are activated. On the other hand, when the vehicle is stationary, parked, electrical components requiring a high current of power supply are generally deactivated, while certain electrical components (for example an on-board computer) requiring a current of Low intensity power supply can be kept in standby state.

  The intensity of the weak currents is, for example, between 0 and 5A and that of the strong currents is, for example, between 5A and 100A.

  Already known in the state of the art, a current measuring device, of the type comprising a conductive member intended to be connected to an electrical circuit in which the current to be measured flows, first and second measuring means of a current for circulating in the conductive member, the first measuring means being adapted to the measurement of weak currents and the second measuring means being adapted to the measurement of strong currents with higher intensities than those of the weak currents.

  A current measuring device of this type is intended in particular for managing the charge of a vehicle battery.

  In general, the conductive member comprises a single branch in which the currents to be measured flow, and the first and second current measuring means comprise magnetic means comprising magnetic cores surrounding the conductive member.

  Therefore, it is necessary to provide means for managing the operation of the first and second current measuring means so that the strong currents passing through the conductive member are not likely to hinder or even damage the operation of the first means of current measurement suitable for measuring weak currents.

  As a result, a conventional current measuring device of the aforementioned type generally has a relatively complex and expensive structure.

  The object of the invention is to propose a current measuring device of the aforementioned type capable of reliably measuring both weak currents and strong currents, using relatively simple and inexpensive means.

  For this purpose, the subject of the invention is a current measuring device, of the aforementioned type, characterized in that the conductive member comprises first and second branches for passing weak and strong currents respectively, these first and second branches being connected to a common branch of passage of the current to be measured, the first measuring means being assigned to the measurement of current in the first branch and the second measuring means being assigned to the measurement of current in another of the branches.

  Since the first low current measuring means are assigned to the current measurement in the first branch of the conductive member, in which the low currents pass, and the second current measuring means are assigned to the measurement. current in the other two branches in which the strong currents pass, the means for managing the operation of the first and second measuring means can be made with simple means specific currents they measure. In particular, the first measuring means adapted to the measurement of weak currents may comprise simple means, such as a shunt, the latter not likely to be destroyed by the passage of strong currents.

  Since, in the current measuring device according to the invention, first measuring means adapted to the measurement of low currents and second measuring means suitable for measuring high currents are used, it is possible to obtain measurements of reliable currents, in currents of currents of substantially different intensities.

  According to other optional features of the current device according to the invention: the second measurement means are assigned to the measurement of current flowing in the common branch; the first measuring means comprise a sensor chosen from a sensor forming a shunt and a magnetoresistive sensor; the second measuring means comprise a Hall effect current sensor; the device comprises first and second activation / deactivation means respectively first and second measuring means; the first and second activation / deactivation means are controlled by a parameter dependent on the position of a starting contactor of a motor vehicle; the first branch is provided with a first switch capable of adopting two so-called open and closed states, the first branch being connected to the common branch when the first switch is in the closed state, and separated from the common branch when the first switch is in the open state; the device comprises means for controlling the first switch as a function of a parameter forming a current threshold in the first branch; the second branch is provided with a second switch capable of adopting two so-called open and closed states, the second branch being connected to the common branch when the second switch is in the closed state, and separated from the common branch, when the second switch is in the open state; the device comprises means for controlling the second switch as a function of a parameter chosen from a current threshold, a delay, a parameter dependent on the position of a starting contactor of a motor vehicle; the first and second means of activation / deactivation respectively of the first and second measuring means, the control means of the first switch and the control means of the second switch are grouped together in an electronic card; the electronic card comprises a microcontroller forming at least a part of the means selected from the first and second activation / deactivation means, the control means of the first switch, the control means of the second switch.

  The invention will be better understood on reading the description which follows, given solely by way of example and with reference to the drawings of the single figure.

  There is shown in the figure a current measuring device according to the invention designated by the general reference 10.

  In this example, the device 10 is intended for measuring weak and / or strong currents in an electrical circuit C connected to a motor vehicle battery (not shown). This battery supplies electrical organs whose power intensities can be very diverse.

  The device 10 comprises a conductive member 12, which is intended to be connected to the electrical circuit C in which the current to be measured flows.

  The conductive member 12 comprises a first conducting branch 14 assigned to the weak currents, a second conducting branch 16 assigned to the strong currents and a common branch 18 which connect the two branches 14 and 16 and in which circulate, as the case may be, weak currents. or strong. Where appropriate, the sections of the branches 14, 16, and 18 differ from each other so as to be adapted to the intensity of the currents flowing through them.

  The branches 14 and 16 are intended to be respectively connected to first 20 and second 22 current distribution means in different parallel distribution branches. Electrical components of the motor vehicle, such as electronic means A1 for identifying an authorized user or an on-board computer A2, are powered with low currents flowing in the branch 14 via the first current distribution means. 20. Other electrical components of the motor vehicle, such as a starter B1 or a fan B2, are fed with strong currents via the second current distribution means 22.

  The device 10 comprises a first 24 and a second 28 switch, each being capable of adopting two states respectively open and closed.

  The first switch 24 is connected to the first branch 14. When the first switch 24 is in the closed state, the first branch 14 is connected to the common branch 18. When the first switch 24 is in the open state, the first branch 14 is separated from the common branch 18. First means 26 drive the first switch 24 as a function of a parameter forming a current threshold in the first branch 14.

  The second switch 28 is connected to the second branch 16. When the second switch 28 is in the closed state, the second branch 16 is connected to the common branch 18. When the second switch 28 is in the open state, the second branch 16 is separated from the common branch 18. Second means 30 drive the second switch 28 according to at least one parameter chosen, for example, from a current threshold in the second branch 16, a delay, a parameter dependent on the position of a starting contactor of a motor vehicle.

  The device 10 also comprises first measuring means 32 adapted to the measurement of weak currents and assigned to the first branch 14 in which these low currents flow.

  The device 10 also comprises second measuring means 34 adapted to the measurement of strong currents and assigned to one of the other two branches 16 or 18 in which these high currents flow.

  In the embodiment of the invention shown in the figure, the second measuring means 34 are assigned to the common branch 18.

  Alternatively, the second measuring means 34 can be assigned to the branch 16. In this case, the current in the common branch 18 corresponds to the sum of the weak and strong currents, respectively measured by the first measuring means 32 and the second means of measurement 34.

  The first measuring means 32 may, for example, comprise a shunt forming sensor. This shunt is a conventional electrical component, generally consisting of a resistive material such as an alloy designated by the trade name Manganin, Zeranin, etc.

  Alternatively, the first measurement means 32 may comprise a magnetoresistive sensor.

  The second measuring means 34 may, for example, comprise a Hall effect current sensor.

  The device 10 comprises first 36 and second 37 activation / deactivation means respectively of the first 32 and second 34 measuring means. The means 36 do not exist when the first measuring means 32 comprise a shunt forming sensor, because in this case, the shunt can not be deactivated.

  In the example described, the activation / deactivation means 36 and 37 are controlled by a parameter dependent on the position of a starting contactor of a motor vehicle.

  The activation / deactivation means 36 and 37, the first control means 26 of the first switch 24 and the second control means 30 of the second switch 28 are grouped in an electronic card 38. This electronic card 38 comprises a microcontroller forming at least part of the activation / deactivation means 36, 37 and control means 26 and 30.

  The electronic card 38 has a first input 40, intended to receive a parameter dependent on the position of the starting contactor of the motor vehicle, and the second 44 and third 42 inputs, each intended to receive a quantity for measuring the current. This magnitude is provided respectively by the first 32 and second 34 measuring means. The electronic card 38 also has an output 46 intended to provide a measurement of current and comparison means 48 of this current measurement with current thresholds.

  Typically, the starting contactor comprises a movable rotor, for example, successively in a STOP position, a first intermediate position ACCESSORIES, a second intermediate position CONTACT and a START position for starting the engine. The START position is temporary and the rotor of the contactor is recalled to the intermediate position CONTACT after starting the engine of the motor vehicle.

  The main aspects of the operation of the device 10 related to the invention will now be described.

  The vehicle is initially considered stationary. The rotor of the ignition switch is in the STOP position. In this case, the electrical components usually supplied with strong currents are deactivated while at least certain electrical components are supplied with weak currents. The switch 24 is in the closed state in order to connect the branches 14 and 18 in which the weak currents circulate. If necessary, the means 36 activate the measuring means 32. The switch 28 is in the open state and the measuring means 34 are deactivated.

  If the comparison means 48 detect an overshoot of a maximum low current threshold in the branch 14, the first means 26 drive the switch 24 so as to place it in its open state and the first means 36 deactivate, if necessary the first measurement means 32. The maximum low current threshold is chosen for example, so that its overshoot corresponds to an excessive intensity in the branch 14 relative to the normal operation of the electrical components in standby state.

  When the rotor of the ignition switch is placed in one of the intermediate positions, the electronic card 38 receives at input 40, a parameter signaling the displacement of the rotor in one of the intermediate positions. The means 26 and 30 respectively drive the switches 24 and 28 so as to place them in their closed state. At least some electric devices powered by strong currents are activated. If necessary, the first means 36 deactivate the first measuring means 32 and the second means 37 activate the second measuring means 34.

  If the comparison means 48 detect an exceeding of a maximum high current threshold in the branch 18, the second means 30 drive the second switch 28 so as to place it in its open state. The high maximum current threshold is chosen for example, so that its overshoot corresponds to excessive intensity in the branch 18 relative to the normal operation of the electrical devices activated when the motor vehicle is in operation.

  When the rotor of the ignition switch is placed in the STOP position, the intensity of the strong currents decreases in the branch 16. As soon as the comparison means 48 detect a current in the branch 16 of intensity lower than that of a threshold the first means 36 activate, if necessary, the first measuring means 32, the second means 37 deactivate the second measuring means 34 and the second means 30 drive the switch 28 so as to place it in its position. open state.

  Alternatively, the second means 30 may delay the opening of the second switch 28 of a predetermined duration (time delay) corresponding, for example, the desire to maintain certain electrical organs activated during this time.

Claims (12)

  1. A current measuring device, of the type comprising a conductive member (12) intended to be connected to an electrical circuit in which the current to be measured circulates, first (32) and second (34) means for measuring a current intended to circulate in the conductive member (12), the first measuring means (32) being adapted to the measurement of weak currents and the second measuring means (34) being adapted to the measurement of strong currents, intensities more strong as those of weak currents, characterized in that the conductive member (12) comprises first (14) and second (16) branches of passage weak and strong currents respectively, these first (14) and second (16) branches being connected to a common branch (18) for passing the current to be measured, the first measuring means (32) being assigned to the measurement of current in the first branch (14) and the second measurement means (34) being assigned to measuring current in an aut re branches (16, 18).   2. Device according to claim 1, characterized in that the second measuring means (34) are assigned to the measurement of current flowing in the common branch (18).   3. Device according to claim 1 or 2, characterized in that the first measuring means (32) comprises a sensor selected from a shunt forming sensor and a magnetoresistive sensor.   4. Device according to any one of claims 1 to 3, characterized in that the second measuring means (34) comprise a Hall effect current sensor.   5. Device according to any one of claims 1 to 4, characterized in that it comprises first (36) and second (37) activation / deactivation means respectively first (32) and second (34) means of measured.   6. Device according to claim 5, characterized in that the first (36) and second (37) activation / deactivation means are controlled by a parameter dependent on the position of a motor vehicle starter contactor.   7. Device according to any one of claims 1 to 6, characterized in that the first branch (14) is provided with a first switch (24) capable of adopting said two states said open and closed, the first branch (14). ) being connected to the common branch (18) when the first switch (24) is in the closed state, and separated from the common branch (18) when the first switch (24) is in the open state.   8. Device according to claim 7, characterized in that it comprises control means (26) of the first switch (24) according to a parameter forming a current threshold in the first branch (14).   9. Device according to any one of claims 1 to 8, characterized in that the second branch (16) is provided with a second switch (28) capable of adopting said two states said open and closed, the second branch (16). ) being connected to the common branch (18) when the second switch (28) is in the closed state, and separated from the common branch (18), when the second switch (28) is in the open state.   10. Device according to claim 9, characterized in that it comprises control means (30) of the second switch (28) as a function of a parameter selected from a current threshold, a delay, a parameter dependent on the position of a motor vehicle starter contactor.   11. Device according to claims 5, 8, and 10 taken together, characterized in that the first (36) and second (37) activation / deactivation means respectively of the first (32) and second (34) measuring means, the control means (26) of the first switch (24) and the control means (30) of the second switch (28) are grouped together in an electronic card (38).   12. Device according to claim 11, characterized in that the electronic card (38) comprises a microcontroller forming at least a part of the means selected from the first (36) and second (37) means of activation / deactivation of the first (32). ) and second (34) measuring means, the control means (26) of the first switch (24), the control means (30) of the second switch (28).