FR3122308A1 - Control device for a lighting device, lighting system and associated control method - Google Patents

Abstract

Device for controlling a lighting device, lighting system and associated control method The control device (16) comprises: - a power supply management device (20) capable of forming a resulting power supply signal ( sf) intended for a lighting device (12) and comprising at least two supply channels (30), each channel (30) being supplied by an input current (i0) and comprising: + a switch (32) controllable between a closed state and an open state; and + a modulation unit (34) capable of transforming in a predetermined manner the input current (i0) of the corresponding channel (30) into an elementary supply signal (si), the resulting signal (sf) being composed of the signals elementary (if); - a control module (22) able to control the state of the switch (32) of each supply channel (30) to modify at least one lighting characteristic of the lighting device (12). Figure for the abstract: Figure 1

Description

Control device for a lighting device, lighting system and associated control method

The present invention relates to a power control device for a lighting device of a railway vehicle.

The purpose of such a control device is to modify a lighting characteristic of the lighting device, such as for example the luminous flux emitted by the lighting device.

To do this, it is known from the state of the art that such a control device comprises a lighting processing unit. This processing unit allows the lighting to be controlled dynamically according to a desired lighting characteristic. However, this implies the implementation, within the processing unit, of electronics capable of performing such dynamic control, which complicates the structure of the control device. For example, such a processing unit comprises an electronic element capable of generating a variable signal for modulating the lighting characteristic, the signal being adapted according to the desired lighting characteristic.

An object of the invention is to overcome this drawback by proposing a control device having a simplified architecture.

To this end, the invention relates to a power control device for a lighting device of a vehicle comprising:

- a power management device capable of forming a resulting power supply signal intended for the lighting device and comprising at least two power supply channels, each power supply channel being supplied by an input current and comprising:

+ a controllable switch between a closed state in which the corresponding channel is powered and an open state in which the power of the corresponding channel is cut; And

+ a modulation unit capable of transforming the input current of the corresponding channel in a predetermined manner into an elementary power supply signal, the resulting power supply signal being composed of elementary power supply signals;

- a control module able to control the state of the switch of each supply channel to modify at least one lighting characteristic of the lighting device.

The control device according to the invention makes it possible to modify at least one lighting characteristic in a simple manner by the sole control of switches. Each switch allows or prevents a predetermined change in an input current, which determines the resulting power signal and therefore influences the lighting characteristic.

According to other characteristics of the invention, taken in isolation or according to any technically possible combination:

- the input current of each channel is characterized by an input power, the elementary supply signal of each channel being characterized by an elementary supply power corresponding to a fraction of the corresponding input power;

- each modulation unit is capable of transforming the input current of the corresponding channel by pulse width modulation;

- each modulation unit comprises an integrated circuit configured to modulate the pulse width;

- the input currents supplying the supply channels are substantially identical;

- the control device further comprises a man-machine interface configured to control the control module, the man-machine interface being configured to be manipulated by a user in order to modify the at least one lighting characteristic of the lighting device;

- the power management device includes at least three power channels.

The invention further relates to a lighting system for a railway vehicle comprising a lighting device configured to emit light radiation according to at least one lighting characteristic, a control device as described previously and configured to powering the lighting device with a resulting power signal generated from input currents and a power supply device configured to generate the input currents for the control device, the lighting characteristic depending on the resulting signal power supply.

Optionally, the lighting system is such that the lighting characteristic is a luminous flux of the light radiation emitted by the lighting device.

The invention also relates to a method for controlling a lighting device of a railway vehicle using a control device as described above, comprising the following steps:

- control of the state of the switch of each supply channel between its closed state and its open state;

- reception from the corresponding supply channel of an input current when the corresponding switch is in its closed state;

- transformation, in a predetermined manner, of the input current of each corresponding channel into an elementary power supply signal when the corresponding switch is in its closed state;

- formation of the resulting power supply signal composed of the elementary power supply signals.

Other aspects and advantages of the invention will appear on reading the following description, given by way of example and made with reference to the appended drawings, in which:

there is a schematic representation of a lighting system comprising a lighting device and a device for controlling the lighting device, according to the invention;

there is a flowchart illustrating a method of controlling a lighting device using the light control device .

With reference to the , a lighting system 10 of a vehicle is described.

The vehicle is, for example, a railway vehicle such as a train or a motor vehicle, such as a bus.

The lighting system 10 comprises a lighting device 12, a power supply device 14 and a device 16 for controlling the lighting device 12.

The lighting device 12 is configured to emit light radiation according to at least one lighting characteristic. The lighting device 12 comprises, for example, light-emitting diodes (LEDs or "LEDs" in English for " Light-Emitting Diode ") configured to emit said light radiation. The lighting device 12 is, for example, in the form of a plurality of light bars arranged in the vehicle and on which the LEDs are arranged. Each light bar extends along a direction of elongation and is characterized by a length taken along the direction of elongation.

The lighting characteristic is, for example, a luminous flux of the radiation emitted by the lighting device 12. In the case where the lighting device 12 is in the form of a plurality of light bars, the characteristic of Illumination is, for example, luminous flux per unit length of light bar. The luminous flux per unit length is, for example, between 200 lum/m and 800 lum/m. According to another example, the lighting characteristic is the visible color of the luminous flux or the frequency of emission of this flux.

The power supply device 14 is intended to supply the lighting device 12 via the control device 16. To do this, the power supply device is configured to generate input currents i ₀ intended for the control 16 and being, for example, each characterized by an input power.

According to a particular example, the input currents i ₀ are substantially identical. The input currents i ₀ are, for example, characterized by a voltage substantially equal to 24 V.

The power supply device 14 is for example powered by a battery of the vehicle and/or by an electricity generator thereof.

The control device 16 is configured to supply the lighting device 12 with a resulting supply signal s _f generated from the input currents i ₀ . The resulting supply signal s _f is, for example, characterized by a resultant supply power. The lighting characteristic depends on the resulting supply signal s _f , for example, on the resulting supply power and/or on the frequency thereof.

The control device 16 includes a power management device 20 and a control module 22.

The control device 16 further comprises, for example, a man-machine interface 24.

The power supply management device 20 is capable of forming the resulting power supply signal s _f intended for the lighting device 12. It comprises at least two power supply channels 30, preferably at least three power supply channels 30. There illustrates an example in which the device 20 comprises two supply channels 30.

Each supply channel 30 is connected to the supply device 14 and is supplied by an input current i ₀ .

Each power channel 30 includes a switch 32 and a modulation unit 34.

Each switch 32 is controllable between a closed state in which the corresponding channel 30 is powered and an open state in which the power of the corresponding channel 30 is cut off.

Each modulation unit 34 is capable of transforming in a predetermined manner the input current i ₀ of the corresponding channel 30 into an elementary supply signal s _i characterized, for example, by an elementary supply power corresponding to a fraction of the corresponding input power.

For example, the elementary supply signals s _i are different from one modulation unit 34 to another. Consequently, from one modulation unit 34 to another, the elementary supply powers correspond, for example, to different fractions of the corresponding input power. This is in particular the case when the input currents i ₀ are substantially identical. The elementary supply powers obtained at the output of the modulation units 34 can then be different.

Each modulation unit 34 transforms the input current i ₀ of the corresponding channel 30, for example, by pulse width modulation.

To do this, each modulation unit 34 comprises, for example, an integrated circuit configured to modulate the pulse width (PWM: Power wave modulation). Advantageously, each modulation unit 34 and the lighting device 12 are integrated in the same box to form an LED strip.

The resulting power supply signal s _f is composed of the elementary power supply signals s _i . In particular, in an exemplary embodiment, the resulting supply power is formed by the sum of the elementary supply powers.

According to this example, the resultant supply power is less than or equal to a maximum resultant supply power. This maximum supply resultant power is reached when each switch 32 of each channel 30 is in its closed state. When the resulting power supply is maximum, the luminous flux is for example maximum.

When the elementary power supplies are different from one channel 30 to another, it is possible to obtain varied resulting power supplies as a function of the state of the switches 32. The resulting power supply then depends on the combination of switches 32 in the closed state.

The control module 22 is able to control the state of the switch 32 of each power supply channel 30 to modify at least one lighting characteristic of the lighting device 12.

Each switch 32 is thus controlled by the control module 22 between its open state and its closed state depending on the at least one desired lighting characteristic. The control module 22 is able to control each switch 32 so that the resulting power supply is adapted to obtain the desired lighting characteristic. To do this, the control module 22 comprises, for example, a memory comprising a predetermined configuration table determining the state in which each switch 32 must be according to the desired lighting characteristic. The control module 22 further comprises a control unit able to interrogate said memory according to the desired lighting characteristic and to control each switch 22 according to the configuration table to obtain the desired characteristic.

The man-machine interface 24 is configured to control the control module 22. In particular, it is configured to be manipulated by a user in order to modify the at least one lighting characteristic of the lighting device 12.

For example, the man-machine interface 24 is configured to control the control module 22 so that the latter adapts the state of each switch 32 according to the modification of the at least one lighting characteristic desired by the user.

In what follows, with reference to the , a method 100 for controlling the lighting device 12 using the control device 16 is described.

The method comprises, for example, a first step 110 of generating input currents i ₀ by the power supply device 14.

The method 100 further comprises a second step 120 of control, by the control module 22, of the state of the switch 32 of each supply channel 30 between its closed state and its open state.

The method 100 further comprises a third step 130 of reception, by each modulation unit 34, from the corresponding supply channel 30 of an input current i ₀ when the corresponding switch 32 is in its closed state.

The method 100 further comprises a fourth step 140 of transformation, in a predetermined manner, by the modulation unit 34 of the input current i ₀ of each corresponding channel 30 into an elementary power supply signal s _i when the switch 32 corresponding is in its closed state.

The method 100 finally comprises a fifth step 150 of forming the resulting power supply signal s _f composed of the elementary power supply signals s _i .

The invention proposes a device 16 for controlling an efficient and simple lighting device 12. In particular, the invention dispenses with dynamic lighting control by using complex electronics. Thanks to the invention, it is possible to modify the lighting emitted by the lighting device 12 by simple control of switches 32. The architecture of the control device 16 is thus greatly simplified.

Advantageously, the power supply management device 20 comprises three power supply channels 30, each power supply channel 30 being supplied by an input current i ₀ and comprising a switch 32 and a modulation unit 34.

Claims (10)

Device (16) for controlling the power supply of a lighting device (12) of a vehicle comprising:
- a power management device (20) able to form a resulting power signal (s _f ) intended for the lighting device (12) and comprising at least two power supply channels (30), each channel power supply (30) being powered by an input current (i ₀ ) and comprising:
+ a switch (32) controllable between a closed state in which the corresponding channel (30) is supplied and an open state in which the supply of the corresponding channel (30) is cut off; And
+ a modulation unit (34) capable of transforming in a predetermined manner the input current (i ₀ ) of the corresponding channel (30) into an elementary power supply signal (s _i ), the resulting power supply signal (s _f ) being composed of elementary supply signals (s _i );
- a control module (22) able to control the state of the switch (32) of each supply channel (30) to modify at least one lighting characteristic of the lighting device (12). Control device (16) according to claim 1, in which the input current (i ₀ ) of each channel (30) is characterized by an input power, the elementary supply signal (s _i ) of each channel (30) being characterized by an elementary supply power corresponding to a fraction of the corresponding input power. Control device (16) according to Claim 1 or 2, in which each modulation unit (34) is capable of transforming the input current (i ₀ ) of the corresponding channel (30) by pulse width modulation. A control device (16) according to claim 3, wherein each modulation unit (34) comprises an integrated circuit configured to modulate the pulse width. Control device (16) according to any one of the preceding claims, in which the input currents (i ₀ ) supplying the supply channels (30) are substantially identical. A control device (16) according to any preceding claim, further comprising a man-machine interface (24) configured to control the control module (22), the man-machine interface (24) being configured to be manipulated by a user to modify the at least one lighting characteristic of the lighting device (12). A control device (16) according to any preceding claim, wherein the power management device (20) includes at least three power channels (30). Lighting system (10) of a railway vehicle comprising a lighting device (12) configured to emit light radiation according to at least one lighting characteristic, a control device (16) according to any one of the claims above and configured to power the lighting device (12) with a resulting power supply signal (s _f ) generated from input currents (i ₀ ) and a power supply device (14) configured to generate the currents input (i ₀ ) for the control device (16), the lighting characteristic depending on the resulting power supply signal (s _f ). A lighting system according to claim 8, wherein the lighting characteristic is a luminous flux of the light radiation emitted by the lighting device (12). Method of controlling a lighting device (12) of a railway vehicle using a control device (16) according to any one of Claims 1 to 7, comprising the following steps:
- Control of the state of the switch (32) of each supply channel (30) between its closed state and its open state;
- reception from the corresponding supply channel (30) of an input current (i0) when the corresponding switch (32) is in its closed state;
- Transformation, in a predetermined manner, of the input current (i ₀ ) of each corresponding channel into an elementary supply signal (s _i ) when the corresponding switch (32) is in its closed state;
- formation of the resulting power supply signal (s _f ) composed of the elementary power supply signals (s _i ).