Method and control module for pulsed luminous flux light sources for a motor vehicle

The invention claimed is: 1. Control method for at least one light source on a motor vehicle, wherein the method comprises the following steps: a) the provision of a setpoint for the luminous flux to be emitted by the light source(s), in a control unit of a control module for said light source(s); b) reception, in the control unit, of a first control signal which is intended to control a device for the control of the electric power supply to the light sources; c) verification, in the control unit, of the capability of the first control signal to control the control device, such that the luminous flux setpoint is observed; d) if the control signal does not show this capability, generation, in the control unit, of a second control signal which is intended to control the device for the control of the electric power supply, in place of said first signal. 2. Method according to claim 1 , wherein the first control signal is periodic, with a first frequency and/or the second control signal is periodic, with a second frequency. 3. Method according to claim 2 , wherein it comprises the following step: e) if the first control signal shows the desired capability, said first signal is employed to control the device for the control of the electric power supply. 4. Method according to claim 2 , wherein the rising edges of the second control signal are synchronized in time with the rising edges of the first control signal. 5. Method according to claim 2 , wherein, in step c), a constant current setpoint is established by the control unit, by determining the average electric current intensity required to achieve the luminous flux setpoint; the first control signal is appropriate for the achievement of the setpoint, if its duty cycle and the peak current which would be generated by the control device upon the execution of control by means of said first signal will permit the delivery of an average current intensity which is equal to said current setpoint. 6. Method according to claim 2 , wherein the second control signal shows a duty cycle which is different from that of the first control signal. 7. Method according to claim 2 , wherein the control device controlled by the second control signal generates a peak current which differs from the peak current which would be generated in response to control by the first control signal. 8. Method according to claim 2 , wherein steps a) and d) are temporally offset by at least one period of the two signals. 9. Method according to claim 1 , wherein it comprises the following step: e) if the first control signal shows the desired capability, said first signal is employed to control the device for the control of the electric power supply. 10. Method according to claim 1 , wherein the rising edges of the second control signal are synchronized in time with the rising edges of the first control signal. 11. Method according to claim 1 , wherein, in step c), a constant current setpoint is established by the control unit, by determining the average electric current intensity required to achieve the luminous flux setpoint; the first control signal is appropriate for the achievement of the setpoint, if its duty cycle and the peak current which would be generated by the control device upon the execution of control by means of said first signal will permit the delivery of an average current intensity which is equal to said current setpoint. 12. Method according to claim 1 , wherein the second control signal shows a duty cycle which is different from that of the first control signal. 13. Method according to claim 1 , wherein the control device controlled by the second control signal generates a peak current which differs from the peak current which would be generated in response to control by the first control signal. 14. Method according to claim 1 , wherein steps a) and d) are temporally offset by at least one period of the two signals. 15. Method according to claim 2 , wherein the first frequency is a predetermined frequency. 16. Method according to claim 2 , wherein the first frequency is determined by the control unit. 17. Control module of at least one light source on a motor vehicle, comprising a device for the control of the electric power supply to the light sources, and a control unit, wherein the control unit comprises: means for the reception of a first control signal, a memory component for the storage of a setpoint for the luminous flux to be emitted by the light source(s), or of a current setpoint; means for the processing of data, which are configured to verify the capability of the first control signal for the control of the control device, such that the luminous flux setpoint is observed; generation means which are configured to generate, if the first control signal does not show this capability, a second control signal, wherein said second signal is intended to control the device for the control of the electric power supply, in place of said first signal. 18. Module according to claim 17 , wherein the data processing means of the control unit are configured for the deployment of the control method. 19. Module according to claim 17 , wherein the data processing means comprise a microcontroller element. 20. Lighting system for a motor vehicle, wherein it comprises at least one light source; a screen incorporating means for the reception of a control signal, and optical obturation means which are controlled by a control signal thus received; a device for the generation of a first control signal, and a control module according to claim 17 ; wherein the generation device is configured to transmit the first control signal in a synchronized manner to the screen via a first data transmission channel, and to the control module via a second data transmission channel.