FR2951048A1 - Electronic control module for controlling e.g. LED in luminous headlight of motor vehicle, has metal sheet assuring electromagnetic shielding of components, and heat conductor transporting heat released by components towards metal sheet - Google Patents

Abstract

The module (10) has a support (15) provided with a printed circuit board on which electronic components such as inductor (12), a power transistor (13) i.e. MOS transistor, and diode, are mounted. A common electromagnetic shielding pressed metal sheet (18) is mounted on the support, and assures electromagnetic shielding of the components. A heat conductor transports the heat released by the components towards the metal sheet. A heat conducting substance (25) e.g. foam and gel, is contacted with the inductor and the metal sheet.

Description

Electronic control module for a lighting and / or vehicle signaling device

The invention relates to an electronic control module for a lighting device and / or vehicle signaling. Motor vehicle headlights are known comprising an electronic control module for controlling light sources of the projector, this module comprising for example a DC-DC converter for regulating a supply current of these sources.

The control module comprises electronic components mounted on a printed circuit, this circuit being mounted on a metal plate which, on the one hand, comprises conductive traces for electrically connecting the control module to the light sources, and on the other hand, forms a heat sink for dissipating heat diffused by the control module. Mounted on the heat sink, an electromagnetic shielding cover completely covers the control module to prevent electromagnetic radiation from the converter from spilling into the projector environment, which can interfere with other surrounding electronic components. This known solution has the disadvantage of using a heat sink and a shielding cover of large sizes. There is a need to overcome the aforementioned drawbacks. The invention aims to propose a new electronic control module for a lighting device and / or vehicle signaling. The subject of the present invention is thus an electronic control module for a vehicle lighting and / or signaling device, this module comprising: at least one electronic component, a support, provided in particular with a printed circuit, on which is mounted in contact with this support, the electronic component, at least one electromagnetic shielding member (EM) mounted on the support and arranged to provide EM shielding of the electronic component, at least one thermal conductor arranged to carry heat released by the electronic component to the shielding member. Thanks to the invention, the electronic component can be associated with a shielding member EM allowing, in addition to its EM shielding function, to dissipate the heat generated by this component. According to an exemplary implementation of the invention, the shielding member can only partially cover the support, and completely cover the electronic component.

Thus, the shielding member EM covers a relatively small area of the support with which the electronic component is in contact. Advantageously, the invention can make it possible to dispense with the radiator disposed under the support present in the solutions of the state of the art. According to an exemplary implementation of the invention, the shielding member may be arranged to substantially conform to the shape of the electronic component. For example, the shielding member may have a bridge shape open laterally and passing over the electronic component, including a clearance between this shielding member and this component.

This shielding member can therefore be open, while ensuring a good EM shielding of the component. For example, the shielding member may comprise at least two side walls in contact with the support and at least one upper wall passing over at least one electronic component and connecting two side walls. In other words, the shielding member may not completely surround the component. Alternatively, the shielding member can completely surround the component, and thus define a closed enclosure around this component.

In another variant, the shielding member may be formed in several parts. If desired, the shielding member may be formed by at least one metal sheet stamped, or folded.

This sheet may advantageously be compatible with the welding methods generally used for electronic components, for example this sheet may be welded by reflow. According to an exemplary implementation of the invention, the thermal conductor may be formed by at least one layer of a thermally conductive substance. This thermally conductive substance may further be electrically insulating. This thermally conductive substance may for example be a tab, or a gel, or a foam. The thermally conductive substance may be interposed between the electronic component and the shielding member EM, and be in contact therewith. For example, the thermally conductive substance may be interposed between the upper wall of the shielding member and one face of the electronic component. If desired, the thermally conductive substance may be disposed on the support, in contact with an electronic component and the shielding member. According to another exemplary embodiment of the invention, the thermal conductor may be formed by a tongue made integrally with the shielding member. For example, this tongue may extend, in a portion of the support covered by the shielding member, from this shielding member towards the electronic component. If desired, it is possible to interpose a thermally conductive substance between the tongue and the electronic component. In another example, the tongue is formed by a cut made on a wall of the shielding member. This cutout can be folded, in particular towards the support, until it comes into permanent contact with the electronic component. In this case, it is not necessarily necessary to interpose a thermally conductive substance between the tongue and the electronic component.

This tongue may be called a mechanical compensation tab since it makes it possible to compensate for tolerances applied to the shielding member during its manufacture, these tolerances defining a clearance between the member and the electronic component.

According to another example of implementation of the invention, the thermal conductor may be formed by an independent tongue mounted on a portion of the support covered by the shielding member, in particular near an electronic component, and extending to the shielding member. If necessary, the tongue is not made with the shielding member.

For example again, the tongue may have a bent shape. If desired, a thermally conductive substance may also be interposed between the tab and the electronic component. Advantageously, the control module may comprise several electronic components and an individual shielding member may be disposed on each of the electronic components. Alternatively, a shielding member may be common with at least two electronic components. According to an exemplary implementation of the invention, the control module may comprise a DC-DC converter which may in particular regulate a supply current of at least one light source of the lighting device, this converter may comprise components electronic devices such as at least one inductive component, at least one transistor, in particular of the MOS type, and at least one diode. The electronic components of the converter can be fixed on a printed circuit forming the support. For example, at least one shielding member EM may be disposed on the electronic component of the converter that emits the most electromagnetic radiation and / or that diffuses the most heat. The invention also relates to a lighting and / or signaling device 30 for a motor vehicle, this device comprising a control module as described above. The invention will be better understood on reading the following detailed description of examples of non-limiting embodiments of the invention, and on examining the appended drawing, in which: FIG. schematically and partially, in perspective, a view of a projector and its electronic control module for a motor vehicle according to one embodiment of the invention, - Figure 2 shows, schematically and partially in section, the module of the projector of FIG. 1 according to an exemplary embodiment of the invention, and - FIGS. 3 to 9 show, schematically and partially, in section and in perspective, the control module of the projector of FIG. other examples of implementation of the invention. FIG. 1 shows a device forming, for example, a light projector 1 for a motor vehicle. In general, the device can form a lighting system and / or signaling of the vehicle.

The projector 1 comprises a housing 2, for example made of plastic, fixed to a chassis 5 of the vehicle 4. This housing 2 comprises, on the one hand, at the front, an opening (not shown) sealed by an ice-cream 3, and on the other hand, an orifice (not shown) able to partially receive an optical module 6 emitting a light beam directed towards this mirror 3. For this, the optical module 6 comprises a signaling light source 7, a reflector and a lens (not shown). Of course, the housing may comprise several optical modules. The light source 7 of the optical module 6 may for example comprise at least one light emitting diode, or alternatively at least one lamp. An electronic control module 10 is connected in series between the optical module 6 and an energy storage unit 8 of the vehicle, for example a battery. This electronic control module 10 is arranged to regulate a supply current of the light source 7 coming from the battery 8. For this, the electronic control module 10 comprises a DC-DC power converter 11 provided with electronic components. .

A first embodiment of a control module 10 of the light source 7 according to the invention will now be described with reference to FIG. In the example described, the electronic components of the DC-DC converter 11 are formed by an inductor 12, a power transistor 13, in particular of the MOS type, and a diode 14. Of course, the control module may comprise other electronic components to form other control functions. The control module 10 comprises a printed circuit 15 electrically connecting this control module 10 to the light source 7. This printed circuit 15 forms a support on which are fixed, for example by welding, the electronic components 12, 13 and 14 in that they are in contact with this support 15. The control module 10 further comprises an EM electromagnetic shielding sheet 18 embossed, or folded, forming a shielding bridge passing over each electronic component 12, 13 and 14 by creating a clearance between this sheet 18 and each of these components 12, 13 and 14. This pressed sheet 18 has a first side wall 19 in contact with one end welded to the support 15 and vertically along the inductance 12. The wall 19 is fixed by welding 16 on the support 15, and is connected to a first upper wall 20 extending horizontally on the top of the inductor 12, leaving a clearance between the aroi 20 and the component 12. The wall 20 is connected to a second side wall 21 extending parallel to the first wall 19, towards the support 15. The wall 21 is connected to a second upper wall 22 extending in parallel at the first upper wall 20, on the top of the transistor 13 and the diode 14, leaving a clearance between the wall 22 and these components 13 and 14.

The wall 22 is connected to a third side wall 23 extending parallel to the first wall 19 towards the support 15, until it comes into contact with the latter. The wall 23 is fixed by welding 16 on the support 15.

The sheet 18 is open laterally so as not to create a closed enclosure around the components. This common plate 18, by completely covering the components 12, 13, and 14, and only partially the support 15, makes it possible to filter EM radiation emitted by these electronic components, and thus protect other surrounding electronic components. The control module 10 also includes layers of a thermally conductive and electrically insulating tab 25 disposed between each of the upper walls 20 and 21 of the sheet, and the components 12, 13 and 14 located below these walls. This lug 25 is in contact with the walls 20 and 21 and the components 12, 13 and 14 so as to thermally connect the sheet 18 to the electronic components 12, 13 and 14 covered by this plate 18, so that the plate 18 dissipates the heat. diffused by these components 12, 13 and 14.

FIG. 3 illustrates an alternative embodiment of the control module 10 of FIG. 2. In the example described, the support 15 of FIG. 2 is only partially represented, and only the inductor 12 is represented. The control module 10 comprises a single stamped metal sheet 18a covering only the inductance 12. This sheet 18a has two side walls 19a and 21a fixed on the support 15, and an upper wall 20a connecting the two side walls 19a and 21a, so as to form a shielding bridge EM on the inductor 12. The sheet 18a has a tongue 27a formed integrally with the sheet 18a and projecting from the side wall 21a, parallel to the upper wall 20a, towards the inductor 12, in particular until it is close to the wall 21a. The thermally conductive and electrically insulating tab 25 is disposed between the tab 27a and the support 15, to dissipate the heat diffused by the inductor 12, in particular on the support 15. FIG. 4 further illustrates an embodiment variant of the module of FIG. control 10 of Figure 2. In the example described, the support 15 of Figure 2 is shown only partially, and only the inductor 12 is shown.

The control module 10 comprises an individual stamped metal sheet 18b covering the inductance 12. This sheet 18b has two side walls 19b and 21b fixed on the support 15, and an upper wall 20b connecting the two side walls 19b and 21b, in order to form a shielding bridge EM on the inductor 12. The control module 10 comprises an independent tongue 30b fixed on a covered portion of the support 15, close to the inductor 12, and extending towards the upper wall 20b . The independent tongue 30b extends vertically along the inductance, then has a bend 31b which extends between the upper wall 20b and the inductor 12. The thermally conductive and electrically insulating leg 25 is disposed between the extension of the elbow 31 b of this tongue 30b and the upper wall 20b of the plate 18b, and between the inductor 12 and the upper wall 20b. FIG. 5 illustrates another variant embodiment of the control module 10 of FIG. 2. In the example described, the control module 10 comprises an individual stamped metal sheet 18c and a stamped common metal sheet 18d respectively covering the inductance 12, and the transistor 13 and the diode 14. Each EM shielding plate 18c and 18d comprises two lateral walls fixed on the support 15 and connected by an upper wall covering respectively the inductor 12, and the transistor 13 and the diode 14 .

Thermally conductive and electrically insulating tab 25 is disposed between the electronic components 12, 13 and 14 and the upper walls covering them. FIG. 6 illustrates yet another variant embodiment of the control module 10 of FIG. 2.

In the example described, the control module 10 comprises a common stamped metal sheet 18e, having the same shape as the sheet of FIG. 2. In contrast to the sheet of FIG. 2, the shielding plate EM 18e does not cover not the diode 14.

Each sheet 18c and 18d comprises two lateral walls fixed to the support 15 and connected by an upper wall covering, respectively the inductor 12, and the transistor 13 and the diode 14. The thermally conductive and electrically insulating leg 25 is arranged between the components 12, 13 and 14 and the upper walls covering them. Thanks to the invention, it is possible to choose to protect the environment of electronic components that emit the most electromagnetic radiation and that diffuses the most heat.

FIG. 7 further illustrates an alternative embodiment of the control module 10 of FIG. 2. In the example described, the control module 10 comprises three individual stamped metal sheets 18f, 18g and 18h respectively covering the inductor 12, the transistor 13, and the diode 14.

Each shielding sheet EM 18f, 18g and 18h comprises two lateral walls fixed to the support 15 and connected by an upper wall covering respectively the inductor 12, the transistor 13, and the diode 14. From the thermally conductive and electrically insulating tab 25 is disposed between the electronic components 12, 13 and 14 and the upper walls covering them. Thanks to the invention, it is possible to standardize the metal shielding plates and heat dissipation, to reduce the manufacturing costs of these sheets. Figures 8 and 9 illustrate an alternative embodiment of the control module 10 of Figure 2. In the example described, the support 15 of Figure 2 is shown only partially, and only the inductor 12 is shown. The control module 10 comprises a stamped metal sheet 18i covering the inductance 12. This sheet 18i has two lateral walls fixed to the support 15 and connected by an upper wall covering the inductor 12, to form a shielding bridge EM on this inductance 12. The upper wall of this sheet 18i comprises a cutout forming a mechanical compensation tab 35i.

This tab 35i is folded towards the support 15 until it comes into permanent contact with the inductor 12 so as to dissipate the heat diffused by the inductor 12. This tab 35i makes it possible to compensate for mechanical tolerances of the manufacture of the plates 18i, which create the clearance between the upper wall of this plate 18i and the inductor 12.

Claims (15)

Revendications1. Electronic control module (10) for a vehicle lighting and / or signaling device, this module (10) comprising: - at least one electronic component (12, 13, 14), - a support (15), provided in particular of a printed circuit, on which is mounted, in contact with this support (15), the electronic component (12, 13, 14), - at least one electromagnetic shielding member (18a, 18f, 18g, 18h, 18i) mounted on the support and arranged to provide electromagnetic shielding of the electronic component (12, 13, 14) - at least one thermal conductor arranged to carry heat generated by the electronic component (12, 13, 14) to the shielding (18a, 18f, 18g, 18h, 18i). 2. Electronic control module (10) according to the preceding claim, characterized in that the shielding member (18a) only partially covers the support (15), and completely covers the electronic component (12). 3. Electronic control module (10) according to one of the two preceding claims, characterized in that the shielding member (18a) has a bridge shape open laterally and passing over the electronic component (12). 4. Electronic control module (10) according to any one of the preceding claims, characterized in that the shielding member (18a) is formed by a metal sheet stamped, or folded. 5. Electronic control module (10) according to any one of the preceding claims, characterized in that the thermal conductor is formed by at least one layer of a thermally conductive substance (25). 6. Electronic control module (10) according to the preceding claim, characterized in that the thermally conductive substance (25) is interposed in contact with both the electronic component (12) and the shielding member (18a). 7. Electronic control module (10) according to any one of the preceding claims, characterized in that the thermal conductor is formed by a tongue (27a, 35i) formed integrally with the shielding member (18a). , 18i). 8. Electronic control module (10) according to the preceding claim, characterized in that the tongue (27a) extends in a portion of the support (15) covered by the shielding member (18a), from this shielding member in the direction of the electronic component (12). 9. Electronic control module (10) according to claim 7, characterized in that the tongue (35i) is formed by a cut made on a wall of the shielding member (18i). 10. Electronic control module (10) according to the preceding claim, characterized in that the tongue (35i) is folded in particular towards the support (15) until it comes into permanent contact with the electronic component (12). 11. Electronic control module (10) according to any one of the preceding claims, characterized in that the thermal conductor is formed by an independent tongue (30b) mounted on a portion of the support (15) covered by the body of shielding (18b), in particular near an electronic component, and extending towards the shielding member. 12. Electronic control module (10) according to one of claims 7, 8 and 11, characterized in that a thermally conductive substance (25) is disposed between the tongue (27a, 30b) and the electronic component (12). ). 13. Electronic control module (10) according to any one of the preceding claims, characterized in that it comprises a plurality of electronic components (12, 13, 14), and in that it comprises at least one individual shielding member (18f, 18g, 18h) disposed on one of the electronic components (12, 13, 14). 14. Electronic control module (10) according to any one of the preceding claims, characterized in that it comprises several electronic components (12, 13, 14), and in that it comprises at least one common shield (18, 18c) disposed on at least two electronic components (12, 13). Vehicle lighting and / or signaling device (1), this device comprising an optical module (6) and an electronic control device (10) according to any one of the preceding claims.