FR2897574A1 - LED circuit for lighting/signaling device, has flat power cable of LEDs including bared part connected to general power cable to ensure electrical connection, and another set of bared parts with two ends of two wires soldered on LED module - Google Patents

Abstract

The circuit has grouped wiring formed of flat power cable of LEDs (5) that is soldered on a general flat power cable (4) for respectively forming a set of branch openings from the cable (4). The cable (4) includes an end electrically connected to a supply module (3) that has a current generator (30). The cable (5) includes a bared part (P4) connected to the cable (4) by soldering for assuring an electrical connection, and bared part (P2) with two ends of two wires (51) soldered on a LED module (2).

Description

Electroluminescent diode circuit and lightning device and / or

signaling incorporating it

  The invention generally relates to a light-emitting diode circuit integrated in a lighting device for signaling a motor vehicle comprising a plurality of light-emitting diode modules, wiring means and current generating means capable of supplying the plurality of light emitting diodes. light-emitting diode modules, the light-emitting diode modules, the wiring means and the current generating means being electrically connected to form the circuit. It is known to the inventive entity flexible circuits called flexboard in English that allow the deposition in 3 dimensions of light emitting diodes (LED) in applications of lighting and / or automotive signaling. These flexboard circuits however have the disadvantage of a realization that can be difficult and expensive. Indeed, even a small modification of the circuit under development irremediably involves a modification of the flexboard circuit manufacturing tools.

  The main purpose of the invention is to provide a technical alternative to the flexboard solution. The light-emitting diode circuit according to the invention comprises a plurality of light-emitting diode modules, wiring means and current-generating means capable of supplying the plurality of light-emitting diode modules, the light-emitting diode modules, the wiring means and the current generating means being electrically connected to form the circuit. According to the invention, the cabling means comprise a wiring mat formed of at least one flat general supply cable and a plurality of flat electroluminescent diode supply cables respectively forming a plurality of branch branches. from said general feed flat cable, the general feed flat cable having an end electrically connected to said current generating means, the light emitting diode power supply cables each having an end connected to the general feed flat cable by means, such as solder, for providing electrical connection and having at least one light emitting diode module connecting portion having at least two bare electrical wire ends weldable to a light emitting diode module.

  The invention thus provides a solution that guarantees a high speed of modification and development of the circuit, while ensuring a level of quality equivalent to the so-called flexboard technique. According to another characteristic, a branch branch comprises a plurality of light-emitting diode modules fed in series by a current generator included in the current generating means. According to yet another characteristic, the current generation means comprise a plurality of current generators respectively dedicated to the supply of branch branches.

  According to a particular embodiment, a light-emitting diode power supply cable comprises four electrical wires, two wires being dedicated to the series connection of the modules mounted on the cable and two other wires being dedicated to a ground return, the four wires being wires being short-circuited at a free end of the cable opposite the end connected to the general feed flat cable. Preferably, the other two son of the LED light-emitting power cable are soldered to the modules mounted on the cable so as to make the mechanical connection of the modules and the cable more reliable. According to another characteristic, the light-emitting diode module comprises at least one light-emitting diode in parallel with a resistor. Preferably, the light emitting diode and the resistor are matched in such a way as to obtain a luminous flux of predetermined value. According to one particular embodiment, a light-emitting diode module comprises at least one fixing hole capable of mechanical engagement with clamping in a corresponding pin of a support portion of a lighting and / or signaling device in which is integrated circuit. According to other aspects, the invention also relates to a lighting and / or signaling device for a motor vehicle comprising at least one circuit as briefly described above, as well as a motor vehicle equipped with at least one such device. lighting and / or signaling. Other aspects and advantages of the present invention will appear more clearly on reading the description of a particular embodiment which follows, this description being given by way of nonlimiting example and with reference to the appended drawings. , in which: Fig.1 is an overall view of the light emitting diode circuit according to the invention; Fig.2 shows the circuit diagram of the circuit of Fig.1; Fig. 3 shows in detail the solder connections between a diode module and a flat feeder cable; and Fig.4 is a partial view showing an implantation of the light emitting diode circuit in a lighting and / or signaling device. Referring to Figs.1 to 4, there is now described a particular embodiment of a light emitting diode (LED) circuit 1 according to the invention. As shown in FIG. 1, the circuit 1 according to the invention comprises a plurality of LED diode modules 2, a power supply module 3 and a wiring mat 4-5. The wiring mat 4-5 includes a flat feed cable 4 on which a plurality of flat LED diode power cables 5 are soldered. Each flat feed cable 5 is provided with one or more diode modules. LED 2 and forms a bypass diode supply branch from the general power flat cable 4.

  The LED diode modules 2 each comprise two fixing orifices F provided for mechanical engagement with clamping in corresponding PP pins, shown in FIG. 4, of a support portion 60 of a lighting device and / or signaling 6 for a motor vehicle. In this particular embodiment, as shown in FIG. 2, an LED diode module 2 essentially comprises a printed circuit board on which is soldered an LED 20 and a current adjustment resistor 21. Preferably, a heat dissipating element (not shown), in the form of a heat sink or heat sink, is provided on the printed circuit board opposite to that on which the LED 20 is located. Of course, a certain number of thermal vias (Not shown) are also provided on the printed circuit board, at suitable locations, so as to ensure thermal conduction between the LED 20 and the heat dissipating element. The LED diode modules 2 are soldered to the wires of the flat supply cables 5, at the stripped portions P2 (FIG. 1) thereof. Each flat feed cable 5 also has a stripped portion P4 to allow soldering of the son thereof on corresponding stripped wire portions of the general power flat cable 4. The LED diode modules 2 mounted on the same cable feeding plate 5 are fed in series by a current generator 30, as shown in FIG. The power supply module 3 comprises a plurality of current generators 30 dedicated to the power supply of the power supply cables 5 equipped, each current generator 30 supplying a current to a power supply cable 5 equipped.

  In this particular embodiment, the power cables 5 each comprise 4 wires. Two wires 50 are used for the ground return to the power supply circuit 3 and two wires 51 are used for the series connection of the LEDs 20. As can be seen in Fig. 1, the four wires 50, 51 are short. -circuited by welding at a free end 53 of the power cable 5 so as to have an electrical continuity of the circuit formed by the LEDs 20 in series and the current generator 30. The details of the welds of the son 50, 51 made on a module 2 is shown in Fig.3.

  The SA and SC welds of the wires 51 correspond to the electrical connections of the anode and cathode of the LED 20. The SA and SC welds are made on conductive pads of the imprinted circuit in electrical continuity with the anodes and cathode of the LED 20, respectively. Preferably, the wires 50 are also welded, SM welds, on copper portions of the printed circuit, these SM welds having here essentially the function of making reliable the mechanical connection between the LED diode module 2 and the flat feed cable 5 According to this embodiment of the invention, the currents flowing through the LEDs 20 are adjusted so as to obtain a luminous flux of substantially the same value for each of the LED diode modules 2. This function of adjustment of the luminous flux is carried out using the resistor 21 connected in parallel with each of the LEDs 20. The resistors 21 are therefore matched respectively to the LED diodes and thus allow an adjustment of the currents passing through them so as to compensate for a disparity of the current characteristic. - luminous flux of the LEDs. In other embodiments, the diodes are sorted by luminous flux range and the resistor 21 is then no longer necessary.

Claims (10)

  A light-emitting diode circuit (1) integrated in a lighting and / or signaling device (6) for a motor vehicle comprising a plurality of light-emitting diode modules (2), wiring means (4, 5) and means current generating means (3, 30) capable of supplying said plurality of light-emitting diode modules (2), said light-emitting diode modules (2), said wiring means (4, 5) and said current-generating means (3). , 30) being electrically connected to form said circuit, characterized in that said wiring means comprises a wiring mat formed of at least one flat feed cable (4) and a plurality of flat cables d supplying light-emitting diodes (5) respectively forming a plurality of branch branches from said general feed flat cable (4), said general feed flat cable (4) having a an end electrically connected to said current generating means (3, 30), said flat LED power supply cables (5) each having an end (P4) connected to said general power flat cable (4) by means such as welding, which makes it possible to provide an electrical connection and having at least one light-emitting diode module connection part (P2) comprising at least two stripped electric wire ends (51) capable of being welded to a said light-emitting diode module ( 2).   2. Circuit according to claim 1, characterized in that at least one said branch branch comprises a plurality of light-emitting diode modules (2) fed in series by a current generator (30) included in said current generating means (3).   3. Circuit according to claim 1 or 2, characterized in that said current generating means (3) comprise a plurality of current degenerators (30) dedicated respectively to the supply of said branch branches.   4. Circuit according to any one of claims 1 to 3, characterized in that a flat LED power supply cable (5) comprises four electrical son (50, 51), two son (51) being dedicated to the series connection of the modules (2) mounted on the cable (5) and two other wires (50) being dedicated to a ground return, said four wires '50, 51) being short-circuited at a free end ( 53) of the cable opposite said end connected to said general power flat cable (4).   5. Circuit according to claim 4, characterized in that said two other son (50) of the flat LED supply cable (5) are welded to the modules (2) mounted on the cable (5) so as to make reliable the mechanical connection of the modules (2) and the cable (5).   6. Circuit according to any one of claims 1 to 5, characterized in that a light emitting diode module (2) comprises at least one light emitting diode (20) in parallel with a resistor (21).   7. Circuit according to claim 6, characterized in that said light-emitting diode (2) and resistor (21) are matched in such a way as to obtain a luminous flux of predetermined value.   8. Circuit according to any one of claims 1 to 7, characterized in that a light emitting diode module (2) comprises at least one fixing hole (F) capable of mechanical engagement with clamping in a pin (PP). corresponding part of a support portion (60) of a lighting and / or signaling device (6) in which the circuit (1) is integrated.   9. Lighting device and / or signaling for a motor vehicle, characterized in that it comprises at least one circuit (1) according to one of claims 1 to 8.   10. Motor vehicle characterized in that it is equipped with at least one lighting and / or signaling device (6) according to claim 9.