FR2986936A1 - Method for controlling lighting/signaling functions of LED blocks of car, involves decoding and switching transmitted coded modulated supply signal toward lighting/signaling blocks to execute discriminated lighting/signaling function - Google Patents

Abstract

The method involves coding a pulse modulated supply signal (A) according to type of lighting/signaling function by assigning a determined wave form to each of lighting and signaling functions by bijective mapping. The coded modulated supply signal is transmitted (B) toward lighting/signaling blocks over single wire connection by a decoder. The transmitted coded modulated supply signal is decoded (C) to discriminate the lighting/signaling function to be activated, and the coded modulated supply signal is switched (D) toward the blocks to execute the discriminated function. Independent claims are also included for the following: (1) a device for controlling lighting/signaling functions of lighting/signaling blocks supplied with modulation of impulses of a car (2) a switch for a lighting and/or signaling device.

Description

The invention relates to a method, a control device and a switch of a plurality of lighting / signaling functions of lighting / signaling blocks. pulse-modulated power supply of a motor vehicle. The lighting / signaling units of current motor vehicles generally consist of sets of light-emitting diodes 10, also designated LEDs for Light Emitting Diodes in English. The use of such light sources makes it possible, by virtue of the performance of the aforementioned LEDs, not only to increase the number of lighting / signaling functions implemented on motor vehicles but also to maintain a reasonable electric power consumption. ease of implementation and use of the whole. The supply of the lighting / signaling units thus constituted by pulse-modulated supply signals also makes it possible to substantially improve the functional flexibility of the assembly, insofar as the flexible parameterization of the signal modulation of The power supply makes it possible to satisfy the normalization constraints of the most severe and fine lighting / signaling conditions. However, the increase in the number of lighting / signaling functions that can be implemented on current motor vehicles can not claim to avoid the constraint of congestion, and finally of complexity, and therefore of the risk of lack of reliability. , control circuits necessary for the implementation of the aforementioned lighting / signaling functions or the variation thereof. The notion of variation of the lighting / signaling functions of motor vehicles refers to the ever-changing evolution of the standards applicable to the levels of illumination and to the qualities of the light beams allowing the implementation of the lighting / signaling functions. the most recent ones mentioned above. The object of the present invention is to overcome the disadvantage of the foreseeable multiplication of the control circuits of the lighting / signaling functions of current and future motor vehicles.

In particular, an object of the present invention is the implementation of a method, a control device and a switch of a plurality of lighting / signaling functions of lighting / signaling blocks. a motor vehicle, by means of which the modulated power supply signal of each lighting / signaling unit, and therefore of the lighting / signaling function associated therewith, can be conveyed by means of a line of single feeding. Another object of the present invention is also, consequently, the implementation of a method, a control device and a switch of a plurality of lighting / signaling functions of lighting blocks / signaling of a motor vehicle allowing a simplification of the wiring circuit of implementation of these functions and a corresponding reduction in manufacturing costs. Another object of the present invention is also the implementation of a switch for a lighting and / or signaling device adapted to allow or not the passage of the modulated power supply signal for the execution of a function. predetermined regulatory photometric selected. The method of controlling a plurality of lighting / signaling functions of lighting / signaling units powered by pulse modulation of a motor vehicle, object of the present invention, is remarkable in that it consists in less than: - coding the modulated power supply signal according to the type of lighting / signaling function to be performed, the coding of the modulated power supply signal consisting in assigning to each lighting / signaling function, in one-to-one correspondence, a determined waveform; - transmit the coded modulated power supply signal on a single-wire link to the lighting / signaling blocks via a decoder - decode the transmitted coded modulated power supply signal to discriminate the lighting / signaling function to be activated ; - switch the transmitted coded modulated power supply signal to the lighting / signaling unit for the discriminated lighting / signaling function. The method of the invention is furthermore remarkable in that the waveform is determined by the duty cycle or frequency and amplitude duration of the modulated power supply signal. The method according to the invention is furthermore remarkable in that the step of decoding the transmitted coded modulated power supply signal consists in detecting the waveform of the transmitted coded modulated signal. The method of the invention is also remarkable in that the step of detecting the waveform of the transmitted coded modulated power supply signal is an analog detection. The method which is the subject of the invention is also remarkable in that the determined waveform assigned to the modulated power supply signal and to the type of lighting / signaling function to be executed is defined by: a lower duty cycle value , assigned to the rear position lamp lighting / signaling function; - an intermediate duty cycle value, assigned to the function of lighting / signaling brake light; a maximum duty ratio value assigned to the fog lighting function. The device for controlling a plurality of lighting / signaling functions of lighting / signaling units powered by pulse modulation of a motor vehicle, object of the invention, is remarkable in that this device comprises at least An adjustable modulated pulse generator for generating a modulated supply signal encoded according to a given waveform in one-to-one correspondence with one of the lighting / signaling functions; a single-wire connection line for transmitting the coded modulated power supply signal; means for decoding and switching the transmitted coded modulated signal in order to discriminate the lighting / signaling function to be activated and to route the transmitted coded modulated power supply signal to the lighting / signaling block for the execution of the function of discriminated lighting / signage. The device according to the invention is also remarkable in that the adjustable modulated pulse generator is constituted by an adjustable duty cycle pulse generator. The device that is the subject of the invention is furthermore remarkable in that the decoding and switching means comprise means for decoding the transmitted coded modulated signal and means for switching the coded power supply signal transmitted towards the lighting unit. / discriminated signaling. The device which is the subject of the invention is furthermore remarkable in that the decoding means of the transmitted coded modulated signal comprise an analog detection module of the average value of the transmitted coded modulated signal. The device according to the invention is furthermore remarkable in that the analog detection module comprises at least: a discriminator circuit for the average value of the transmitted coded modulated signal; a circuit generating a reference electrical voltage. The device which is the subject of the invention is also remarkable in that the switching means comprise a comparator circuit of the average value of the transmitted coded modulated signal and the reference electrical voltage making it possible to generate a switching control signal for the means. of commutation. The switch, which is the subject of the invention, is intended for a lighting and / or signaling device capable of producing a predetermined regulatory photometric function from at least one light source capable of participating in the production of this photometric function. . This switch comprises an input arranged to receive a pulse-modulated power supply signal, this electrical supply signal being arranged to supply at least this light source and at least one output. It is remarkable in that it is arranged to allow or not, depending on the waveform of the electrical supply signal, the passage of this electrical supply signal from the input to the output. The switch object of the invention is also remarkable in that it comprises at least two outputs, each of the outputs being associated with a light source of the lighting device and / or signaling, this switch being arranged to allow or not , exclusively according to the waveform of the electrical supply signal, the passage of this electrical signal to one and / or the other of these outputs. The switch object of the invention is furthermore remarkable in that it comprises a comparator capable of comparing a characteristic parameter of the waveform of the supply signal with at least one reference value of this parameter and, in depending on the result of this comparison, to selectively allow the passage of this signal to one and / or the other of these outputs. The method, the control device and the switch of a plurality of lighting / signaling functions of lighting / signaling units powered by modulation of pulses of a motor vehicle, objects of the invention, find application to the equipment of motor vehicles of any type, or any equipment, mobile or not, having a plurality of lighting / signaling functions. They will be better understood by reading the description and by observing the following drawings in which: FIG. 1a represents, by way of illustration, a flowchart of the essential steps for carrying out the method which is the subject of the invention; FIG. 1b represents, by way of illustration, an encoding timing diagram of the pulse modulation supply signal for supplying a specific block of LEDs, for performing a lighting / signaling function associated therewith; FIG. 1c represents, by way of illustration, a decoding timing diagram of the transmitted pulse modulation supply signal intended to supply a block of LEDs enabling the switching of this supply signal to a specific block of LEDs, to perform a lighting / signaling function associated with the latter; FIG. 2a represents, by way of illustration, a block diagram of a device for controlling a plurality of lighting / signaling functions of lighting / signaling units powered by pulse modulation of a motor vehicle, from a transmitted coded power supply signal as represented in FIG. 1b and decoded as represented in FIG. - Figure 2b shows, by way of illustration, a detail of implementation of the circuits of the control device, as shown in Figure 2a, and the switch objects of the invention. The method of controlling a plurality of lighting / signaling functions of lighting / signaling units powered by pulse modulation of a motor vehicle, object of the present invention, will now be described in connection with FIG. . With reference to the aforementioned figure, a motor vehicle is considered to be a plurality of lighting / signaling blocks, LEDk, each intended to execute at least one specific lighting / signaling function Fk. The aforementioned LEDk lighting / signaling units are powered by an AL signal supplying pulse modulation. The method according to the invention consists, at least in one step A, of coding the pulse-modulated supply signal AL, according to the type of lighting / signaling function Fk to be executed. In FIG. 1 a, it is understood that the choice of the lighting / signaling function to be carried out Fk is determined by the user of the vehicle, by operation of the commodo, for example, the selection of the lighting / signaling function. to execute being represented by the choice of the value of k for example. In step A, the coding operation is represented by the symbolic relation (1): AL> ALk (Fk, LEDk). According to this relationship, it will be understood that, at the pulse modulated signal AL 5, the coding operation, in step A, matches a specific modulation power signal, denoted by ALk (Fk, LEDk), representative of the function Fk and the LEDk lighting / signaling unit for executing it. Step A is followed by a transmission step B of the coded modulated supply signal ALk (Fk, LEDk) on a single-wire link to the LEDk lighting / signaling blocks 10 of the vehicle, via a decoder. Step B is then itself followed by a step C of decoding the transmitted coded transmitted power supply signal ALk (Fk, LEDk), to discriminate the lighting / signaling function to activate Fk, and of course , the LEDk signaling light unit intended to execute the latter. In step C the decoding operation is represented by the symbolic relation (2): ALk (Fk, LEDk)> Fk, LEDk. According to this relation, it is also understood that the decoding operation makes it possible, from the transmitted modulated transmitted power supply signal ALk (Fk, LEDk), to recover the lighting / signaling function to be executed, and, of course, the LEDk lighting / signaling unit for executing it. Step C is then followed by a step D of switching the transmitted modulated transmitted power signal ALk (Fk, LEDk) to the LEDk 25 lighting / signaling block of the lighting / signaling function Fk. discriminated by means of the LEDk lighting / signaling unit. More specifically, it is pointed out that the coding step A of the modulated supply signal AL consists, advantageously, in assigning to each function Fk lighting / signaling, in one-to-one correspondence, a determined waveform. . It will be understood, of course, that the waveform is chosen for the execution of the corresponding lighting / signaling function Fk, this waveform satisfying, in particular, the power supply intensity criteria of the LEDk block. lighting / signaling, for the standardized execution of the lighting / signaling function Fk. According to a remarkable aspect of the method which is the subject of the invention, the above-mentioned waveform can advantageously be determined by the cyclic ratio El / T, I-2 / T k = 2, I-3 / T for example, as represented in FIG. 1b, curves I, II, III, or by the frequency or the period T of the modulated pulses and by the amplitude duration at the high state of the modulated supply signal. It will further be understood that the pulse modulation process not only covers the transmission of modulated pulses, with a duty cycle adjusted as a function of the lighting / signaling function to be performed, but also the direct current supply of the pulses. LEDk lighting / signaling blocks, which is none other than a particular pulse modulation mode of supply, with a duty cycle value equal to 100%.

In addition, the amplitude A of the modulated power supply signal can itself be adjusted to optimize the execution of the lighting / signaling function considered. FIG. 1 b shows, purely by way of illustration, a DC power supply for the lighting / signaling blocks corresponding to waveform III, with a duty cycle equal to 100% but with a signal amplitude. encoded modulated transmitted power supply, for example equal to 80% of the nominal amplitude. With regard to step C of decoding the transmitted coded modulated power supply signal, this advantageously consists in detecting the waveform of the transmitted coded modulated power supply signal. In a nonlimiting advantageous embodiment, the decoding step of step C is performed by analog detection, as illustrated in FIG. In this situation, the analog detection step consists, for example, in smoothing the transmitted coded modulated power supply signal to extract the average value, for example by means of a clipping circuit. The average value of the transmitted coded power signal is of course representative of the waveform of the latter and therefore of the lighting / signaling function to be performed. The comparison of the above-mentioned average value with a threshold value, representative of the lighting / signaling function to be performed, thus makes it possible to discriminate the latter and to ensure the switching of the transmitted coded power signal to the LED block. relevant lighting / signaling, intended for the performance of this function. By way of non-limiting example, and with reference to FIG. 1c, it is indicated that for three specific lighting / signaling functions of a motor vehicle such as the rear position lamp, the stop light and the fog lamp the determined waveform assigned to the transmitted coded modulated power supply signal and the type of lighting / signaling function to be performed can advantageously be defined according to the following table: k, Fk Sk LEDk duty cycle Function 0 - - 0 1 If I 33% 1 Position light 2 Sm II 66% 2 Stop 3 SM III 100% 3 Fog 15 Referring to Figure 1c and the table above, it is indicated that Si designates the threshold value corresponding to a lower duty cycle value, EUT, assigned to the rear position lamp illumination / signaling function, Sm denotes a threshold value corresponding to an intermediate cyclic ratio value Ern / T assigned to the illumination / signalization function. n of stop light, and SM designates a threshold value corresponding to a maximum duty cycle value EM / T, corresponding to 100% in the illustrative example of Figure 1c, assigned to the fog lighting function. Comparing the detected value VDi, VDm and VDM with the corresponding threshold value, Si, Sm and SM respectively, makes it possible to switch the transmitted coded modulated supply signal to the corresponding LEDk lighting / signaling block. . By way of nonlimiting example, an arbitrary value k = 0 may be assigned to the absence of activation of lighting / signaling function by the user. A more detailed description of a control device for a plurality of lighting / signaling functions Fk LDEk lighting / signaling units powered by pulse modulation of a motor vehicle, in accordance with the subject of the present invention. invention, will now be given in connection with Figure 2a and Figure 2b. With reference to the above-mentioned FIG. 2a, it is indicated that the device which is the subject of the invention comprises an adjustable modulated pulse generator 1 for generating an encoded modulated supply signal, the signal ALk (Fk, LEDk) as represented in FIG. 1b, according to a waveform determined in one-to-one correspondence of each function Fk of lighting / signaling considered. The device which is the subject of the invention also comprises a single-wire connection line L of the encoded supply signal ALk (Fk, LEDk) mentioned above and a module 2 for decoding and switching the transmitted coded modulated signal to discriminate the function of lighting / signaling Fk to be activated, and thus route the transmitted coded modulated power supply signal to the LEDk lighting / signaling unit for the discriminated lighting / signaling function. More specifically, it is indicated that the adjustable modulated pulse generator 1 is advantageously constituted by an adjustable duty cycle pulse generator. It is understood, in particular, that on the choice of the user of the lighting / signaling function to be executed, choice symbolized by the input k, Fk on the generator 1, from the commodo of the vehicle for example, the generator above generates the waveform adapted to the chosen function, as described above in the description. Similarly, as also shown in FIG. 2a, the decoding and switching module 2 advantageously comprises a decoding module 20 of the transmitted coded transmitted signal ALk (Fk, LEDk) and a switching module 21 of the signal d the aforementioned coded transmitted mode power supply to the LEDk discriminated lighting / signaling unit. Preferably, but in a nonlimiting manner as shown in FIG. 2b, the module 20 for decoding the transmitted coded modulated signal comprises an analog detection module of the average value of the transmitted coded transmitted signal ALk (Fk, LEDk). For this purpose, as shown in the above figure, the analog detection module advantageously comprises a circuit 20a discriminator of the average value of the transmitted coded modulated signal and a circuit 20b 10 generating a reference voltage. With the observation of FIG. 2b, it is understood that the discriminator circuit 20a is constituted by a capacitance-resistance circuit comprising the diode D1, the resistors R1, R2 and the capacitance C1 connected in series between the supply voltage Vcc and the ground voltage, a Zenner diode DZ1 being connected in parallel to the resistor R2 in series with the capacitor C1. The voltage across the capacitor C1 represents the average value or sensed value VDk of the coded modulated transmitted power signal ALk (FDk, LEDk), the signal VDi, VDm or VDM shown in Figure lc. The circuit 20b generating a reference voltage 20 advantageously comprises, as shown in FIG. 2b, a diode D2, a resistor R4 and a Zenner diode DZ2 connected in series between the supply voltage Vcc and the ground voltage. The voltage delivered by the Zenner diode DZ2 corresponds to the reference voltage constituting the threshold voltage Sk, ie the threshold voltage Si, Sm or SM, as represented in FIG. Finally, as shown in FIG. 2b, the switching module 21 advantageously comprises a comparator circuit of the average value VDk of the transmitted coded modulated signal and the aforementioned reference electrical voltage Sk, making it possible to generate a switching control signal. of the switching module 2. On the observation of FIG. 2b, it is noted that the comparator circuit is constituted by an operational amplifier OPA mounted as a differential amplifier receiving on its positive terminal the reference voltage or threshold voltage Sk delivered by the circuit 20b and on its negative terminal the average value of the detected signal VDk. The operational amplifier OPA controls a field effect switching transistor TR for controlling the power supply of the corresponding LEDk block. The resistor R5 and capacitor C4, as well as the capacitors C2 and C3 have a value adapted to allow the polarization and the operation of the assembly. The method and apparatus for controlling a plurality of signaling light / signaling light units, powered by pulse modulation, operate for any number of lighting / signaling functions and diode blocks. LEDk. However, for a large number of lighting / signaling functions, the analog detection module may advantageously be replaced by a digital detection module, operating by sampling the coded modulated supply signal ALk (Fk, LEDk) and comparing the duration of the high state of this signal at the period T of the latter, for discriminating the waveform of the coded modulated supply signal mentioned above. The switch object of the invention, for lighting and / or signaling device capable of producing a predetermined regulatory photometric function by means of at least one LED1 light source, LEDk, LED3 capable of participating in the production of this function photometric is incorporated by the decoding and switching module 2 of Figure 2a and described in connection with this figure.

It comprises an input arranged to receive the coded pulsed power supply signal ALk (Fk, LEDk). This signal is arranged to supply at least the light source and at least one corresponding output, LED1, LEDk, LED3. This switch is particularly remarkable in that it is arranged and configured to allow or not according to the waveform of the transmitted coded power supply signal ALk (Fk, LEDk) the passage of this electrical supply signal. from the entrance to the exit. The switch 2 shown in FIG. 2a has at least two outputs, to LED1, LEDk, LED 3. Each of these outputs is associated with a LEDI, LEDk, LED3 light source of the lighting and / or signaling device. The switch is arranged to allow or not, exclusively depending on the waveform of the electrical supply signal ALk (Fk, LEDk), the transmission and passage of this electrical signal to one and / or the other of these exits. Similarly, with reference to FIG. 2b, the switch which is the subject of the invention is remarkable in that it comprises a comparator 21 capable of comparing a characteristic parameter of the waveform of the electrical supply signal. at least one reference value generated by the reference voltage generator circuit 20b of the decoding module 20. The characteristic parameter of the waveform of the power supply signal ALk (Fk, LEDk) is delivered by the discriminator circuit 20a of the decoding module 20. Depending on the result of this comparison, the switch 2 selectively allows the passage of this signal to one and / or the other of these outputs. The invention also covers any lighting control device / signaling and any lighting and / or signaling device incorporating a switch 2 as described above in connection with Figures 2a and 2b.

Claims (1)

CLAIMS1 / A method for controlling a plurality of lighting / signaling functions of lighting / signaling units powered by pulse modulation of a motor vehicle, characterized in that it consists at least in: - coding the modulated supply signal according to the type of lighting / signaling function to perform the step of coding the modulated signal consisting in assigning to each signaling lighting function, in one-to-one correspondence, a given waveform; transmitting the coded modulated power supply signal on a single-wire link to the lighting / signaling blocks via a decoder; decoding the transmitted coded modulated power supply signal to discriminate the lighting / signaling function to be activated; 15 - switch the coded transmitted modulated power supply signal to the lighting / signaling unit for the discriminated lighting / signaling function. 2 / A method according to claim 1, characterized in that said waveform is determined by the duty cycle or frequency and amplitude duration of the modulated power supply signal. 3 / A method according to one of claims 1 or 2, characterized in that the step of decoding the transmitted coded modulated power supply signal comprises detecting the waveform of the transmitted coded modulated signal. 4 / A method according to claim 3, characterized in that the step of detecting the waveform of the transmitted coded modulated power supply signal is an analog detection. 5. The method as claimed in one of claims 1 to 4, characterized in that the determined waveform assigned to the modulated power supply signal and to the type of lighting / signaling function to be executed is defined by: a value of lower duty cycle, assigned to the rear position lamp lighting / signaling function; - an intermediate duty cycle value, assigned to the function of lighting / signaling brake light; - a maximum duty cycle value, assigned to the fog light function. 6 / Device for controlling a plurality of lighting / signaling functions of lighting / signaling units powered by pulse modulation of a motor vehicle, characterized in that said device comprises at least: a generator of adjustable modulated pulses for generating a modulated supply signal encoded according to a given waveform in one-to-one correspondence of each lighting / signaling function; a single-wire connection line for transmitting said coded power supply signal; means for decoding and switching the transmitted coded modulated signal in order to discriminate the lighting / signaling function to be activated and to route the transmitted coded modulated power supply signal to the lighting / signaling block for the execution of the function of discriminated lighting / signage. 7 / Apparatus according to claim 6, characterized in that said adjustable modulated pulse generator is constituted by an adjustable duty cycle pulse generator. 8 / Apparatus according to one of claims 6 or 7, characterized in that said decoding and switching means comprise - means for decoding the transmitted coded modulated signal; and - switching means of the coded modulated power supply signal transmitted to the discriminated lighting / signaling unit. 9 / Apparatus according to claim 8, characterized in that said means for decoding the transmitted coded modulated signal comprise an analog detection module of the average value of the transmitted coded modulated signal. 10 / Apparatus according to claim 9, characterized in that said module 10 of analog detection comprises at least: - a discriminating circuit of the average value of the transmitted coded modulated signal; a circuit generating a reference electrical voltage. 11 / Apparatus according to one of claims 8 to 10, characterized in that said switching means comprises a comparator circuit of the average value of the transmitted coded modulated signal and the reference voltage for generating a control signal of switching said switching means. 12 / Switch for a lighting and / or signaling device, this lighting and / or signaling device being able to produce a predetermined regulatory photometric function, this device comprising at least one light source capable of participating in the production of said photometric function, the switch comprising: - an input arranged to receive an electrical supply signal, notably pulse-modulated, this electrical supply signal being arranged to supply at least said light source, - at least one output, The switch being characterized in that it is arranged to allow or not, depending on the electrical supply signal, particularly depending on the waveform of the electrical supply signal, the passage of this electrical supply signal from the entrance to the exit. 13 / switch according to the preceding claim, characterized in that the switch comprises at least two outputs, each of the outputs being associated with a light source of the lighting and / or signaling device, and the switch is arranged to allow or not, exclusively according to the waveform of the electrical supply signal, the passage of this electrical signal to one and / or the other of these outputs. 14 / Switch according to one of the preceding claims, characterized in that it comprises a comparator capable of comparing a characteristic parameter of the waveform of the supply signal with at least one reference value of this parameter and, in depending on the result of this comparison, selectively allow the passage of this signal to one and / or the other of these outputs. 15 / Lighting device and / or signaling, characterized in that it comprises a switch according to one of the preceding claims.