LED SUPPORT WITH RECEPTION SURFACE AND ELECTRICAL CONNECTION BY BRIDGE

专利摘要:
The invention relates to a source (s) light (s) for lighting module and / or light signaling for a motor vehicle, comprising a substrate of thermally conductive material, preferably of metal material, at least one light source of the electroluminescent diode or laser type with a mounting surface on the substrate, in thermal contact with the latter and a power supply circuit of the light source or sources. The supply circuit is electrically connected to the light source or sources by means of metal son welded on the surface by the technology commonly referred to by the English expression "wire bonding". The measures of the invention make it possible to define at least one receiving plane of the light sources oriented so as to avoid that components near the light sources do not bear shadow.
公开号:FR3034171A1
申请号:FR1552365
申请日:2015-03-23
公开日:2016-09-30
发明作者:Zdravko Zojceski；Marc Duarte；Denis Lauvernier
申请人:Valeo Vision SA；
IPC主号:

专利说明:

[0001] The invention relates to the field of lighting and / or light signaling, in particular for a motor vehicle. More particularly, the invention relates to the field of mounting and electrical connection of light sources of the light emitting diode type LED. The invention relates to a support for light source (s) and to a module comprising such a support.
[0002] The use of light-emitting diode-type light sources in lighting and / or light-signaling systems is becoming more and more widespread. In the field of lighting and automotive light signaling, so-called power diodes are used. These are often generally flat and of the type to rise to the surface. The mounting of surface components consists in soldering the components of a board on its surface (CMS or SMD for surface mounted device), rather than passing the pins through it. Since electroluminescent diodes are semiconductors, they are affected by temperature: the more they heat up, the more their direct junction voltage decreases, and their luminous efficiency degrades. For reasons of reliability and luminous performance, thermal management measures must be implemented, in particular for the power models. The published patent document FR 2 840 151 A1 discloses a power-emitting diode support for a lighting or light-signaling system for a motor vehicle. The diode is bonded to a metal substrate forming a radiator. This substrate is attached to an electrically insulating plate. It comprises two indentations each extending oppositely from a substrate edge to the edge of the diode. A conductive tongue is disposed in each of the two indentations to provide an electrical connection between the diode and the printed circuit on the plate, the metal substrate ensuring the cooling of the diode. Each of the tongues is connected by welding to one of the electrodes of the diode. The configuration of this teaching is interesting 3 03 4 1 71 2 insofar as it allows to ensure a cooling of the diode while supporting it by means of a conventional insulating plate. The cooling capacity is however limited, mainly because of the limited size of the metal substrate. In addition, the positioning accuracy is also limited in view of the addition of the positioning tolerances of the diode with respect to the dissipating substrate, of the latter with respect to the plate and then of the latter with respect to the reflector or the frame of the lighting or light-signaling module.
[0003] The published patent document FR 2 853 200 A1 discloses, similarly to the preceding document, a power-emitting diode support for a lighting or light-signaling system for a motor vehicle. Similarly to the previous document, the diode is attached to a metal substrate capable of dissipating the heat produced by the diode. This substrate is fixed to a plate of electrically insulating material and comprises two opposite notches through which extend, respectively, two tabs or tongues of electrical connection. Alternatively to the diode bonding method on the heat dissipation substrate disclosed in the above document, the diode of this teaching comprises a base consisting essentially of copper which is fixed to the substrate by spot laser welding. These measures are intended to avoid the drawbacks inherent in the use of glue, namely the drying time or crosslinking, the means necessary for its application, the time of its application and the means for holding the diode on the sink substrate until the glue ensures its fixation. Similar to the previous document, the cooling capacity in this construction is limited, essentially because of the limited size of the metal substrate. Still similar to the previous document, the positioning accuracy of the diode is limited. It has also been proposed to have a plate comprising an electric supply circuit 30 on a substrate. One or more electroluminescent diodes glued on the same generally planar substrate and being able to dissipate the heat produced by the diodes are connected to the supply circuit by bridging links. In this case there is the risk that the 3034171 3 elements of the circuit or platinum shadow on part of the light sources or at least on the locus of their light beam, thus decreasing their usefulness.
[0004] The object of the invention is to provide a power-emitting diode support, particularly for a lighting or light-signaling system for a motor vehicle, which overcomes at least one of the disadvantages present in the devices known from the prior art.
[0005] The subject of the invention is a luminous source support (s) for a lighting module and / or a luminous signaling module for a motor vehicle. The support comprises: a thermally conductive material substrate, preferably made of metallic material, the substrate comprising a base; At least one semiconductor light source; - Connecting means to a power supply circuit of the light source or sources, the connection means being electrically connected by bridging with the light source or sources by means of metal son welded surface.
[0006] The support is remarkable in that the substrate comprises at least one structure which projects on the base and which defines a receiving surface on which at least one of the light sources is arranged in thermal contact. The base of the substrate may preferably have a generally planar shape.
[0007] Preferably, the light sources may comprise a light-emitting diode, a power-emitting diode or a laser diode.
[0008] Advantageously, the metal son may be constituted by a single wire of cylindrical section or a metal tongue or a braid of metal son.
[0009] Preferably, at least one of the receiving surfaces may be generally parallel to the plane of the substrate. At least one of the receiving surfaces may advantageously be inclined relative to the plane of the substrate. At least one of the receiving surfaces may preferably have a non-planar geometry, for example a domed geometry.
[0010] Optionally, the support can support multiple light sources. Where appropriate, the substrate may comprise a plurality of structures projecting from the base of the substrate and each defining a reception surface on which at least one of the light sources is arranged in thermal contact. Advantageously, the respective heights of the structures with respect to the base may preferably be different. The supply circuit may preferentially be supported by the substrate. The substrate may preferably comprise an electrically insulating surface layer on which the supply circuit is formed by electrically conductive metallized tracks. Preferably, the substrate may be aluminum, the insulating layer being formed by a method of ionizing the substrate or by depositing metal particle doped polymer on the substrate. Where appropriate, the metallized tracks may be formed by printing with an ink containing metal particles. Alternatively, the tracks may be formed by a molded interconnect device (MID) method.
[0011] Alternatively, the supply circuit may be printed on or in a platen of electrically insulating material disposed on the substrate.
[0012] The platinum may preferably be generally flat, preferably it is made of thermosetting resin reinforced with solid fibers. Preferably, the platen may be of molded plastic material conforming to the shape of the substrate. Alternatively, the plate may be of flexible plastic material. Still alternatively, the supply circuit may comprise a connection grid. Preferably, the lead frame can be offset relative to the base of the substrate. Preferably, the substrate may comprise two opposite faces each supporting at least one of the light sources. At least one of the two faces may comprise at least one protruding structure on the base defining a receiving surface supporting at least one of the light sources. The substrate preferably comprises an orifice connecting the two faces and disposed opposite the plate so as to allow the electrical connection with the light source or sources 20 on the face of the substrate opposite to that on which the plate is disposed. The orifice may preferably be traversed by at least one of the metal wires connected to the face of the platen in contact with the substrate and to the or one of the diodes on the face of the substrate opposite to that on which the platen is disposed. Advantageously, the orifice may be at least partially covered by a coating of silicone or polymer resin. This coating makes it possible to mechanically hold the wire during any vibrations.
[0013] The platen may preferably comprise a portion extending through the orifice, said portion comprising at least one electrical contact, one of the metal wires extending from said contact to the one or more light sources on the face of the substrate opposite to that on which the plate is arranged. Preferably, the substrate may comprise cooling fins.
[0014] The substrate may preferably comprise a first wall portion supporting the at least one light source and a second portion including the cooling fins. The second portion may preferentially be disposed substantially in alignment with the first portion. Advantageously, the first and second portions of the substrate can be made of material.
[0015] Preferably, the light source (s) may be glued to the substrate. The projecting structure (s) and the substrate may advantageously be made of material. The bridging connections may preferably be made by metal wires made of a material chosen from aluminum, copper, gold and silver, the wires being welded at each end to connection pads having at least on the surface a metal layer in the same material. The invention also relates to a light source support (s) for a lighting and / or light signaling module for a motor vehicle, comprising a substrate, at least one light source electrically connected to a first stud connection, a supply circuit electrically connected to a second connection pad, the light source being electrically connected to the bridging power circuit by means of a wire connecting the first pad 30 to the second pad. Preferably, the wire may be welded at its ends to the connection pads, preferably ultrasonically. The connection pads may preferably comprise at least on the surface a layer of the same metal (gold, copper, silver or aluminum) used for them. welded wires. This allows connections with increased efficiency and durability.
[0016] The wire material may be aluminum, gold or copper. The diameter of the wire can be between 75pm and 250pm. The invention also relates to a method for making bridging technology compatible with connection pads, comprising, for example, copper. The method comprises the following steps: providing a connection pad comprising a sheet which contains copper, or an alloy of copper and steel, the sheet preferably having a thickness of approximately 0.2 mm to 0.8 mm, the sheet being covered on its underside, which is used during welding and contacting the printed circuit, with a thin tin film Sn, the thin film preferably having a thickness of about 25 microns; covering the upper face of the connection pad with an aluminum layer, if aluminum wires are used to make the bridging, the layer preferably having a thickness of about 3.8 microns to 10 microns; welding of the bridging wire connection pad thus prepared. Alternatively, the layer of the upper face may be nickel, or nickel-phosphorus.
[0017] If the jumper wires are gold or silver or copper, the surface layer may preferably be selected in the same material. Preferably, each connection pad may have a quadratic surface of 1.8 x 1.8 mm. This bridging method of connection is generally applicable to all types of bridged electrical connections on all supports and has the advantage of making bridging technology compatible with a plurality of printed circuits, for example flexible printed circuits. The invention also relates to a lighting module for a motor vehicle, comprising: a source of light source (s); at least one optical device capable of deflecting the light rays emitted by the or at least one of the light sources into a lighting beam.
[0018] The module is remarkable in that the support is in accordance with the invention. Preferably, the optical device comprises a reflector. Preferably, the module may comprise a first reflector disposed opposite one of the two faces of the substrate, said face supporting at least one of the light sources and a second reflector disposed facing the other of said two faces, said other face supporting at least one of the light sources. The substrate may preferably comprise cooling fins disposed behind the reflector (s) relative to the main direction of the illumination beam.
[0019] The measurements of the invention are interesting in that they make it possible to position the light sources with great accuracy directly on the substrate serving as a frame and a reference piece. The cooling of the light sources is also optimized. The power supply circuit (s) can be positioned and fixed with less precision than the light sources, in particular in proportion to the size of their areas of contact with the metal wires. The protruding structures on the support and defining reception planes or surfaces for the light sources make it possible to give them a specific orientation without requiring other components. In particular the sources can be high compared to the power circuit to avoid any risk of shadow from the latter.
[0020] 3034171 9 The bridging connection technology with welded metal wires, preferably by ultrasound, allows the electrical connections to be made simply, reliably, economically and compatible with the glue connection of the light sources. The use of bond pads having at least one surface layer of the same metal (gold, copper, silver or aluminum) used for the soldered wires allows connections with increased efficiency and durability. In particular, the provision of a surface connection pad in gold, copper, silver or aluminum makes it possible to use the wire-bonding technique on flexible printed circuits generally having a copper layer. in surface. Alternatively, the connection can be made via a connection pad made of nickel or a nickel-phosphorus alloy. Other features and advantages of the present invention will be better understood from the description and drawings in which: FIG. 1 is a perspective view of a light-emitting diode or laser diode support, in accordance with a first embodiment of the invention, the view showing the upper face of said support; - Figure 2 is a perspective view of the support of Figure 1, the view however showing the underside of said support; FIG. 3 is a sectional view of a light-emitting diode or laser diode support according to a second embodiment of the invention; FIG. 4 is a sectional view of a light-emitting diode or laser diode supporting part, according to a third embodiment of the invention, the not shown portion being similar to the support of FIG. 3; FIG. 5 is a sectional view of a light-emitting diode or laser diode supporting part, according to a fourth embodiment of the invention, the not shown portion being similar to the support of FIG. 3. FIGS. and 2 illustrate a first embodiment of the invention. FIG. 1 is a perspective view of the upper face of a light-emitting diode-type light source support. The support 2 essentially comprises a substrate 4 supporting light-emitting diodes 12. More specifically, the substrate made of thermally conductive material, such as for example aluminum, comprises a base or first portion 8 which is generally thin and flat and a second portion. 6 forming cooling fins. The first and second portions are preferably unitary, more preferably material. The fins 6 may extend in a generally transverse direction, preferably perpendicular to the mean plane of the first portion. The upper face 24 of the first portion 8 comprises one or more structures 25 projecting from the generally flat base. Each structure 25 defines a reception or support plane, which in the example shown each supports a light emitting diode 12. These are power diodes, that is to say of power greater than or equal to 3 Watt , able to be fixed by their base. They comprise a base 20 and an optical portion 22 on said base 20. The base of the diodes is fixed to the surface 23 of the substrate 8 by means of thermal glue 15, that is to say by means of an adhesive having heat transfer properties. It may be a glue from Epotek®. The geometry of the structures 25 can be chosen by deviating from the example shown in FIG. 1. FIG. 1 shows two structures 25. A first structure defines a rectangular receiving surface in a plane parallel to the base element of the substrate. but in elevation with respect thereto, while a second structure defines a receiving plane 23 inclined with respect to the base member. Each structure 25 or pedestal may be chosen so as to have a receiving surface capable of supporting several light sources 12 without departing from the scope of the invention. Ideally, the structures 25 are of thermally conductive material with the base of the substrate 4, so as to optimize the dissipation of the heat generated by the supported light sources. The surface 23 is sufficiently flat and has a sufficiently large area to be able to receive at least one light source 12.
[0021] A plate 10 covered with a printed electrical circuit (not shown) is also disposed on the first substantially flat portion 8 of the substrate 4. The plate has a profile conforming to the diodes 12 so as to follow them at a distance of less than 10 mm. preferentially 5mm. A connector 14 is disposed on the plate so as to allow its supply via a flexible cable (not shown). Areas or contact pads 18 are provided on the plate 10 vis-à-vis the diodes 12, these contacts being electrically connected to the printed circuit. The diodes 12 are electrically connected to the supply circuit of the plate 10 via metal wires 16 forming bridges between the contact areas 18 of the plate and the corresponding contact areas of the diodes. These son 16 are welded to these zones by ultrasound. This is the technology commonly referred to by the Anglo-Saxon term "wire-bonding", or by the term "cabling by wire" or "bridging". This is a commonly used technique for making the electrical connections between the case and the chip of an integrated circuit. The wiring is simply made by a wire (or bridge) soldered between the two connection pads provided for this purpose on each of the elements. Welding is usually done by ultrasound. The material of the wire is aluminum, gold or copper. The diameter of the wire can be between 75pm and 250pm.
[0022] In the case of the use of the invention in a light device of a motor vehicle, the power supply circuit serves for example to convert a voltage supplied by a battery of the motor vehicle, into a charging voltage suitable for supply the light source (s) connected to the power supply circuit. Such circuits are per se known in the art and will not be described in more detail within the scope of the present invention. FIG. 2 is a view of the lower face of the support 2 of FIG. 1. Similar to the upper face, the lower face 26 of the generally thin and flat portion 8 of the substrate 4 supports a diode 12, which diode may be similar or identical to those located on the upper face of said portion 8 of the substrate 4. The diode 12 is also fixed by gluing by means of a thermal glue on a receiving surface 23 of a structure 27 projecting on the substrate 4, shown in exemplary form in elliptical form. The receiving surface 23 allows on the one hand, by its elevation with respect to the base 8, to mitigate the risk that the diode receives shadows borne by neighboring elements. On the other hand, the orientation of such a receiving surface 23 makes it possible to give an orientation to the light emitted by the diode. A plate 29 is also fixed on the lower face of the portion 8 of the substrate 4, this plate comprising a circuit preferably printed (not shown) and intended to electrically power the diode 12. Contact zones or pads 18 similar to those of the plate 10 of the lower face are also provided. The electrical connection between the circuit board 29 and the diode 12 is also provided by soldered wires 16 forming a bridging. The plate 29 comprises a connector 28 intended to allow its supply from a flexible cable (not shown). For both faces 24 and 26, the wires 16 of the electrical connection extend in a generally curved manner away from the outer surfaces of the diodes and the plate. This bonding technique consists in applying a first end of a wire in contact with a zone or contact pad of one of the diode and the plate, and then applying ultrasound to it to weld it therein. . After welding, the wire can then be unwound from a tool and then cut and applied to the second of the two contact areas to be electrically connected. These wires are thus rigidly fixed at their ends to the respective contact zones, these rigid connections ensuring the maintenance of the remainder of the wire in its position as visible in FIGS. 1 and 2.
[0023] From a process and assembly method point of view, the diodes 12 are placed directly on the receiving surfaces 23 of the substrate 4 in a precise manner, avoiding any accumulation of tolerances, especially when they are on a support which is itself positioned on a plate which is itself positioned on the substrate acting as a reference piece. Indeed, the substrate comprises fixing means on a housing (not shown) and is intended to receive the reflectors cooperating with the diodes. The positioning accuracy can reach a tolerance up to 30pm. The plate (s) can be put in place before or after the establishment of the corresponding diode (s). The operation of laying the metal bridging wires is carried out after the diode or diodes and the platinum (s) are put in place. The support 2 illustrated in FIGS. 1 and 2 is intended to form a dual-function lighting module. The diodes of the upper face 24 provide a first function 3034171 13 horizontal cut-off lighting type dipped beam or "code". The diode of the lower face 26 forms a complementary beam to that of the first function, thus forming a second function called road lighting, that is to say without horizontal cut. A reflector is of parabolic profile and half-shell shape is intended to be disposed on each of two faces of the thin and substantially flat portion 8 of the substrate 4. The substrate 4 thus forms the frame of the lighting module. Figure 3 illustrates a second embodiment of the invention. It is a longitudinal sectional view of a diode support similar to that of the first embodiment. The reference numbers of the first embodiment are used in the second embodiment for identical or similar elements, these numbers being increased by 100 in order to distinguish the two modes. For these elements reference is made to the corresponding description of the first mode. Specific numbers between 100 and 200 were used for the specific elements. The module 102 comprises a substrate 104 comprising, similarly to that of FIGS. 1 and 2, a generally thin and flat first portion 108 and a second cooling rib portion 106. This embodiment is distinguished from the first in that the support 102 comprises only one feed plate 110. The latter extends along the upper face of the portion 108 of the substrate 104, above a port 130 passing through said portion 108. The diode 112 disposed on the underside is supported by a pedestal 127 in elevation (shown downward) relative to the generally planar base 108 of the substrate 104. This diode 112 is electrically connected to the platen 110 on the upper face by means of welded wires 116 of bridging type extending from the diode 112 through the orifice 130 to contact areas 118 on the underside of the plate 110 vis-à- The diode or diodes on the upper face are also connected via welded metal wires 116, similarly to the first embodiment of FIGS. 1 and 2.
[0024] The diameter of the orifice 130 is dimensioned to allow easy implementation of the welded wire 116. It may be greater than 5 mm, preferably 10 mm.
[0025] This second embodiment makes it possible to reduce the necessary number of platinum (s) of supply, more particularly to require only one plate for two faces of a substrate, which is particularly advantageous. Figure 4 illustrates a third embodiment of the invention. It is a longitudinal sectional view of a diode support, similar to FIG. 3 of the second embodiment. The sectional view is however partial, the rest of the support not shown being similar to that of FIG. 3. The reference numerals of the second embodiment are used in the third embodiment for identical or similar elements, these numbers being increased by 15 to 100 to distinguish the two modes. For these elements reference is made to the corresponding description of the first mode. Specific numbers between 200 and 300 were used for the specific elements. The plate 210 instead of being substantially flat as in the first two embodiments of the invention, is in fact a molded plastic element whose shape conforms to that of the substrate 204. The electric circuit 234 may also be be embedded inside the plate 210 or be printed or deposited on its outer surface. A connector 214 can be molded directly with the rest of the plate, in the mass of its material. Components 228 may be provided, especially outside the platen to allow their replacement or selection according to various operating parameters. The plate 210 comprises a portion 232 projecting from its inner face and passing through the orifice 230. The electric circuit 234 can then extend through the orifice 230 inside the plastic material of the plate 210, plus 30 of the protruding portion 232, until terminating at a contact zone 218 to provide an electrical connection with the diode of the corresponding face. The plastic material used for the plate 210 is preferably a thermoplastic material. It can also be reinforced with 3034171 fibers. A light source 212 is shown adhered to a structure 225 projecting from the base member 208 of the substrate, and defining a receiving plane 223 inclined with respect thereto.
[0026] Figure 5 illustrates a fourth embodiment of the invention. It is a longitudinal sectional view of a diode support, similar to FIGS. 3 and 4 of the second and third embodiments, respectively. The sectional view is however partial, the rest of the medium not shown being similar to that of FIG. 3. The reference numerals of the third embodiment are used in the fourth embodiment for the same or similar elements, these numbers being increased by 100 to distinguish the two modes. The plate 310 is of similar construction to the plate 110 of the second embodiment in FIG. 3, with the difference that it comprises an addition 332 on its inner face and passing through the orifice 330 of the thin and generally flat portion. 308 of the substrate 304. This addition can be glued on the inner face of the plate 310, the latter being conventionally made of fiber reinforced epoxy resin. The adding element 332 is preferably made of electrically insulating material, such as for example a plastic material. It is then necessary to provide an electrical connection between the printed circuit on the outer face of the plate 310 and the contact zone 318 on the outer face of the added element 332. The add-on element 332 can also be made of electrically conductive, for example of metallic material. In this case, this element must have a size smaller than that of the orifice 330 in order to avoid any electrical contact. An insulator on its outer face vis-à-vis the inner surface of the orifice may be provided. The electrical connection between the diode (s) and the add-on element 332 is similar to that of the previous embodiments. The same applies to the electrical connection between the diode (s) of the opposite face and the plate (310). As an example, a first light source (312) is shown glued to a structure (325) projecting from the first surface (324) of the element. base 308 of the substrate, and defining a receiving plane 323 in elevation with respect thereto. A second light source is shown adhered directly to the second opposed surface 326 of the base member 308 of the substrate 304.
[0027] In another advantageous embodiment, the supply circuit according to the invention can be arranged on a flexible printed circuit board, FPCB (English: "flexible printed circuit board", FPCB). Such components are in themselves known in the art. They generally comprise a flexible film of polymeric material, for example polyamides, covered with a thin layer of copper, for example with a thickness of 15 μm to 35 μm. A circuit is printed by lithography methods per se known in the art. The use of a FPCB in the context of the invention has the advantage of allowing a more flexible use of the space 10 provided for mounting the supply circuit. However, the electrical connection by wire-bonding and ultrasonic welding of a FPCB to a light-emitting diode or laser can be problematic. In order to make the bridging technology compatible, it is advantageous to prepare the connection zones or pads 18, 118, 218, 318 at both ends of the bridging link as follows. A sheet comprising copper (or an alloy of copper and steel) with a thickness of about 0.2 mm to 0.8 mm is covered on its underside, which is used during welding and which contacts the printed circuit board. a thin layer of Sn tin, a thickness of about 25 micrometers. The upper face of the connection pad is covered with a layer of aluminum or nickel or nickel-phosphorus if aluminum wires 20 are used for bridging. This surface layer has a thickness ranging from about 3.8 to 10 micrometers. If the bridging wires are gold or silver or copper, the layer on the surface of the pad is chosen in adequation in the same material. Ideally the connection pad extends over a quadratic surface of 1.8 x 1.8 mm. Once the pad thus prepared, the bridging wire is welded thereto, preferably by ultrasonic welding. This method of bridging is generally applicable to all types of electrical connections by bridging on all supports. In yet another embodiment, the feed circuit is directly disposed on a surface of the substrate without the use of a specific carrier such as a platen. Preferably, the surface of the substrate, or the entire substrate, is anodized aluminum. Part of the surface is covered with an electrically insulating acrylic resin doped with metal particles capable of ensuring the attachment of electrical tracks of metallic material on its outer surface. Electric tracks can be made by the technology designated by the acronym LDS meaning in English "Laser Direct Structuring". This is to run a laser beam on the corresponding surface of the substrate, according to the configuration of the tracks to achieve. The laser beam has the effect of forming a roughness capable of promoting attachment. This step is followed by a metallization by dipping the substrate in one or more successive metal baths. Alternatively or in a complementary manner, electric tracks can be made directly on the anodized surface of the substrate by ink jet printing, the ink of which comprises metallic particles. Alternatively or in a complementary manner, electric tracks can be made directly on the anodized surface of the substrate by printing of the ink-jet type on a thin PET or PEN sheet which will subsequently be deposited on the support 15 by thermoforming. In all the embodiments described, the receiving surfaces 23, 123, 223, 323 may be used to support more complex electronic assemblies instead of only supporting a light emitting diode or laser diode light source. For example, such subassembly bridged to the power supply circuit may include other electronic components, including ceramic capacitors, thermistors or integrated circuits, depending on the intended functionality.
[0028] In general, it will be understood that the description which has just been given of the different embodiments is also valid in the case of an inversion of the upper and lower faces. Technical features shown or described for a specific embodiment may be applied to other modes described unless explicitly stated otherwise.
[0029] Still in general, it should be noted that the number of diodes represented on the upper and lower faces of the portion of the substrate of the various embodiments described above is purely illustrative, this number being able to vary. Each of the faces may thus comprise one, two or more diodes according to the provisions of these figures.

权利要求:
Claims (15)
[0001]
REVENDICATIONS1. Light source (s) (2; 102; 202; 302) for a lighting and / or light-signaling module for a motor vehicle, comprising: a substrate (4; 104; 204; 304) of material thermally conductive, preferably made of metallic material, the substrate comprising a base (8; 108; 208; 308); at least one semiconductor light source (12; 112; 212; 312); connection means (18; 118; 218; 318) to a power supply circuit (10; 29; 110; 210; 310); ) the light source (s), the connecting means being electrically connected by bridging with the light source (s) (12, 112; 212; 312) by means of surface-welded metal wires (16; 116; 216; 316); characterized in that the substrate comprises at least one structure (25; 125; 225; 325) projecting from the base (8; 108; 208; 308) and defining a receiving surface (23; 123; 223; 323 ) on which at least one of the light sources is arranged in thermal contact.
[0002]
2. Support (2; 102; 202; 302) according to claim 1, characterized in that at least one of the receiving surfaces (23; 123; 223; 323) is generally parallel to the plane of the substrate (4; 104; 204). 304).
[0003]
3. Support (2; 102; 202; 302) according to one of claims 1 or 2, characterized in that at least one of the receiving surfaces (23; 123; 223; 323) is inclined relative to the plane of the substrate (4; 104; 204; 304).
[0004]
4. Support (2; 102; 202; 302) according to one of claims 1 to 3, characterized in that the supply circuit (10,29; 110; 210; 310) is supported by the substrate (4; 104, 204, 304). 3034171 20
[0005]
5. Support (2; 102; 202; 302) according to one of claims 1 to 4, characterized in that the substrate comprises an electrically insulating surface layer, on which the supply circuit is formed by electrically metallized tracks conductive. 5
[0006]
6. Support (2; 102; 202; 302) according to one of claims 1 to 5, characterized in that the supply circuit is printed on or in a plate (10, 29; 110; 210; 310) in electrically insulating material disposed on the substrate (4; 104; 204; 304). 10
[0007]
7. Support (102; 202; 302) according to claim 6, characterized in that the substrate (104; 204; 304) comprises two opposite faces each supporting at least one of the light sources, at least one of the two faces comprising at least one of a structure (25; 125; 225; 325,27; 127) projecting from the base and defining a receiving surface (23; 123; 223; 323) supporting at least one of the light sources (112; 212; 312), the substrate comprising an orifice (130; 230; 330) connecting the two faces and arranged opposite the plate (110; 210; 310) so as to allow the electrical connection with the light source (s) on the face of the opposite substrate to that on which the platen is disposed.
[0008]
8. Support (102) according to claim 7, characterized in that the orifice (130) is traversed by at least one of the metal son (116) connected to the face of the plate (110) in contact with the substrate (104). and one or more of the diodes (112) on the face of the substrate (104) opposite to that on which the platen (110) is disposed.
[0009]
9. Support (202; 302) according to claim 7, characterized in that the plate (210; 310) comprises a portion (232; 332) extending through the orifice (230; 330), said portion comprising at least one electrical contact (218; 318), one of the wires (216; 316) extending from said contact to the one or more light sources (212; 312) on the opposite side of the substrate (204; 304) to that on which is arranged the plate (210; 310). 3034171 21
[0010]
10. 5
[0011]
11. 10
[0012]
12. 15
[0013]
13. 20
[0014]
14. 25 30
[0015]
15. Support (2; 102; 202; 302) according to one of claims 1 to 9, characterized in that the substrate (4; 104; 204; 304) comprises cooling fins (6; 106; 206; 306). ). Support (2; 102; 202; 302) according to claim 10, characterized in that the substrate (4; 104; 204; 304) comprises a first portion (8; 108; 208; 308) forming a wall supporting the light sources and a second portion (6; 106; 206; 306) including the cooling fins. Support (2; 102; 202; 302) according to one of claims 1 to 11, characterized in that the light source (s) (12; 112; 212; 312) are bonded to the substrate (4; 104; 204; 304). A lighting module for a motor vehicle, comprising: - a support (2; 102; 202; 302) of light source (s) (12; 112; 212; 312); at least one optical device capable of deflecting the light rays emitted by the or at least one of the light sources into a lighting beam; characterized in that the support is according to one of claims 1 to 12. Lighting module according to claim 13, characterized in that it comprises a first reflector arranged facing one of the two faces of the substrate (4 104, 204, 304), said face supporting at least one of the light sources and a second reflector arranged facing the other of said two faces, said other face supporting at least one of the light sources. Lighting module according to one of claims 13 and 14, characterized in that the substrate (4; 104; 204; 304) comprises cooling fins (6; 106; 206; 306) arranged behind the reflector (s). relative to the main direction of the lighting beam.

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---

EP1860707B1|2011-05-04|Heat dissipation component and LED lighting and/or signalling device comprising said component

---

EP3273147B1|2021-08-18|Land vehicle light module

---

EP0127239B1|1987-08-26|Semi-conductor crystal display panel element and display panel comprising such an element

---

EP1981315B1|2017-05-10|Equipped flexible electronic support, supporting at least one light-emitting diode, and associated motor vehicle headlight.

---

EP3173681B1|2019-06-12|Lighting device for lighting module of a motor vehicle headlight, associated lighting module and projectors

---

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---

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---

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---

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---

FR3025866A1|2016-03-18|LIGHT SOURCE SUPPORT WITH INTEGRATED CONNECTOR

---

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---

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---

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---

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---

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---

FR3010489A1|2015-03-13|THERMAL DISSIPATOR AND LED LIGHTING MODULE

---

FR3082920A1|2019-12-27|OPTICAL MODULE COMPRISING AN ELECTRONIC BOARD WITH AN ELECTRONIC CHIP

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EP3383150A1|2018-10-03|Power supply device for at least one led and at least one electronic component, comprising a power supply control circuit provided with an insert

---

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---

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---

FR3041169A1|2017-03-17|ASSEMBLY COMPRISING A PLURALITY OF INTERCONNECTED PRINTED CIRCUITS FOR A LIGHT MODULE

---

FR3056704A1|2018-03-30|AUTOMOTIVE VEHICLE LIGHTING AND / OR SIGNALING DEVICE COMPRISING A CURVED RIGID SUBSTRATE

同族专利:

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公开号 | 公开日

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EP3073180A1|2016-09-28|

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US9829165B2|2017-11-28|

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CN105987290A|2016-10-05|

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US20160281946A1|2016-09-29|

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EP3073180B1|2020-02-19|

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MX2016003853A|2017-02-17|

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FR3034171B1|2021-03-19|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US20040264195A1|2003-06-25|2004-12-30|Chia-Fu Chang|Led light source having a heat sink|

---

WO2006072176A1|2005-01-05|2006-07-13|Tir Systems Ltd.|Thermally and electrically conductive apparatus|

---

US20060197444A1|2005-03-03|2006-09-07|Koito Manufacturing Co., Ltd.|Light emitting apparatus|

---

WO2007107601A2|2006-03-23|2007-09-27|Ceramtec Ag|Carrier body for components or circuits|

---

EP2306078A2|2009-10-05|2011-04-06|Koito Manufacturing Co., Ltd.|Vehicle headlamp|

---

EP2327582A2|2009-11-30|2011-06-01|Samsung LED Co., Ltd.|LED package, LED package module having the same and manufacturing method thereof, and head lamp module having the same and control method thereof|

---

JP2013012347A|2011-06-28|2013-01-17|Koito Mfg Co Ltd|Heat radiation mechanism, and light-emitting device|

---

FR2840151B1|2002-05-27|2006-09-01|Valeo Vision|ELECTROLUMINESCENT DIODE SUPPORT DEVICE FOR AUTOMOTIVE SIGNALING SYSTEM, AND METHOD FOR MANUFACTURING SUCH A DEVICE|

---

FR2853200B1|2003-03-27|2005-10-07|Valeo Vision|METHOD FOR FIXING A POWER LIGHT EMITTING DIODE ON A RADIATOR, AND A SIGNALING DEVICE COMPRISING SUCH A DIODE|

---

JP2010113849A|2008-11-04|2010-05-20|Koito Mfg Co Ltd|Lighting tool for vehicle|

---

JP5697924B2|2010-08-26|2015-04-08|株式会社小糸製作所|Light emitting device|

---

US9134003B2|2011-06-13|2015-09-15|Koito Manufacturing Co., Ltd.|Automotive headlamp, heat radiating mechanism, light-emitting apparatus and light source fixing member|

---

JP5950147B2|2011-09-20|2016-07-13|カシオ計算機株式会社|LIGHT SOURCE DEVICE, PROJECTOR, AND LIGHT SOURCE DEVICE MANUFACTURING METHOD|

---

CN202852647U|2012-03-26|2013-04-03|郭双庆|A reflection-type anti-glare automotive lighting LED head lamp|

---

CN203980224U|2013-07-16|2014-12-03|朱小龙|A kind of disjunctor lens LED Ceiling light water tight lamp holder|

---

CN203836914U|2014-03-27|2014-09-17|四川新力光源股份有限公司|LED optical engine|

---

CN203907399U|2014-05-30|2014-10-29|傅盼|Integrated waterproof lamp tube|FR3044391B1|2015-11-27|2018-01-05|Valeo Vision|LUMINOUS DEVICE FOR MOTOR VEHICLE PROJECTOR LIGHTING MODULE, LIGHTING MODULE AND ASSOCIATED PROJECTORS|

---

EP3327801A1|2016-11-24|2018-05-30|Valeo Iluminacion|Electronic assembly and method for creating an electronic assembly|

---

FR3064877B1|2017-03-31|2020-10-02|Valeo Iluminacion Sa|ELECTRICAL POWER SUPPLY DEVICE WITH AT LEAST ONE LED AND AT LEAST ONE ELECTRONIC COMPONENT, INCLUDING AN ELECTRICAL POWER SUPPLY CONTROL CIRCUIT EQUIPPED WITH AN INSERT|

---

JP2019175706A|2018-03-28|2019-10-10|市光工業株式会社|Vehicular lighting fixture|

---

KR20200027196A|2018-09-04|2020-03-12|현대모비스 주식회사|Led lamp apparatus for vehicle|

---

FR3086495A1|2018-09-24|2020-03-27|Valeo Vision|ELECTRICAL CONNECTION FOR A DYNAMICALLY FUNCTIONAL LIGHTING MODULE OF A MOTOR VEHICLE|

---

EP3671013A1|2018-12-18|2020-06-24|ZKW Group GmbH|Motor vehicle headlamp and method for aligning at least one light source of a motor vehicle headlamp|

法律状态:
2016-03-31| PLFP| Fee payment|Year of fee payment: 2 |

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2016-09-30| PLSC| Search report ready|Effective date: 20160930 |

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2017-03-31| PLFP| Fee payment|Year of fee payment: 3 |

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2018-03-29| PLFP| Fee payment|Year of fee payment: 4 |

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2020-03-31| PLFP| Fee payment|Year of fee payment: 6 |

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2021-03-30| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1552365A|FR3034171B1|2015-03-23|2015-03-23|LED SUPPORT WITH RECEPTION SURFACE AND ELECTRICAL CONNECTION BY BRIDGE|FR1552365A| FR3034171B1|2015-03-23|2015-03-23|LED SUPPORT WITH RECEPTION SURFACE AND ELECTRICAL CONNECTION BY BRIDGE|

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EP16160965.6A| EP3073180B1|2015-03-23|2016-03-17|Led mounting with receiving surface and electrical connection by bridging|

---

US15/075,468| US9829165B2|2015-03-23|2016-03-21|LED support withwire-bonded electrical connection for a lighting module of a motor vehicle and electrical connector by wire-bonding|

---

CN201610168857.3A| CN105987290A|2015-03-23|2016-03-23|LED mounting with receiving surface and electrical connection by bridging|

---

MX2016003853A| MX2016003853A|2015-03-23|2016-03-23|Led support with reception surface and electrical connection by wire-bonding.|