ILLUMINATION ARRANGEMENT WITH AN ILLUMINATION MODULE AND A PERIPHERAL MODULE CONNECTED TO THE SAME

Abstract

An illumination arrangement includes with a control unit, an illumination module connected to the control unit via a bidirectional first channel that features an LED matrix for generating light, and a peripheral module connected to the illumination module via a second channel. The control unit can be used to generate data for controlling the illumination module and for controlling the peripheral module. The data for controlling the illumination module and data for controlling the peripheral module can be transferred to the illumination module via the first channel. The data for controlling the peripheral module can be transferred from the illumination module to the peripheral module via the second channel. The second channel is a bidirectional channel via which data can be transferred from the peripheral module to the illumination module that, after being received by the illumination module, can be transferred to the control unit via the first channel.

Claims

1. An illumination arrangement comprising: a control unit, an illumination module connected to the control unit via a bidirectional first channel that features an LED matrix for generating light, and a peripheral module connected to the illumination module via a second channel, where the control generates data for controlling the illumination module and data for controlling the peripheral module, where the data for controlling the illumination module and data for controlling the peripheral module is transferred to the illumination module via the first channel, where the data for controlling the peripheral module is transferred from the illumination module to the peripheral module via the second channel, where the second channel is a bidirectional channel via which data is transferred from the peripheral module to the illumination module that, after being received by the illumination module, is transferred to the control unit via the first channel.

2. The illumination arrangement in accordance with claim 1, further including a headlamp, wherein the illumination module and the peripheral module are modules of the headlamp.

3. The illumination arrangement in accordance with claim 2, wherein the peripheral module includes a drive for driving mechanical components of the headlamp.

4. The illumination arrangement in accordance with claim 3, wherein lighting technology properties of the illumination module can be manipulated.

5. The illumination arrangement in accordance with claim 2, wherein the peripheral module is a light matrix manager or an IC for controlling further light functions.

6. The illumination arrangement in accordance with claim 1, wherein the data transferred from the peripheral module to the illumination module are diagnostic data that show the state of the peripheral module.

7. The illumination arrangement in accordance with claim 1, wherein the first channel is conducted via a UART connection, SPI connection, a 12C connection, a GMSL connection or another suitable connection.

8. The illumination arrangement in accordance with claim 1, wherein an RGB signal is generated by the control unit and the RGB signal for generating a light pattern by the illumination module is transferred via the first channel to the illumination module, where image data of the RGB signal are the data for controlling the illumination module or form part of the data for controlling the illumination module.

9. The illumination arrangement in accordance with claim 1, wherein an RGB signal is generated by the control unit and the RGB signal for generating a light pattern by the illumination module is transferred via the first channel to the illumination module, where control data of the RGB signal are the data for controlling the peripheral module or form part of the data for controlling the peripheral module.

8. The illumination arrangement in accordance with claim 8, wherein the RGB signal has a range not used for image data.

11. The illumination arrangement in accordance with claim 8, wherein the RGB signal has a range not used for image data.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] Reference is now made more particularly to the drawings, which illustrate the best presently known mode of carrying out the invention and wherein similar reference characters indicate the same parts throughout the views.

[0017] FIG. 1 is a schematic, simplified block diagram of the inventive arrangement.

[0018] FIG. 2 is a representation of an RGB signal.

DETAILED DESCRIPTION OF THE DRAWINGS

[0019] The inventive illumination arrangement comprises a control unit 1 and a headlamp 1 with an illumination module 22, a power supply 24, 25, 26 for the illumination module 22 and a peripheral module, which can be a stepper motor.

[0020] The control unit 1 features a microcontroller 11 with which data for controlling the illumination module 22 and for controlling the peripheral module 23 of the headlamp 1 can be generated. This data is transmitted via an interface of the control unit 1 and a cable 3 to an interface of the illumination module 22. A first channel is set up via the interfaces and the cable, via which the data for controlling the illumination module and for controlling the peripheral module 23 can be transferred. The first channel is a bidirectional channel so that it is also possible to transfer data from the illumination module 22 to the control unit 1.

[0021] The illumination module 22 takes the form of an SSL chip. It comprises an LED matrix, receives data for controlling the illumination module 22 and for controlling the peripheral module 23. The data for controlling the illumination module 22 is processed by the SSL chip 22.

[0022] A part of the data, namely image information, is processed by the SSL chip 22 in order to set the desired light pattern or the desired light distribution.

[0023] A further part of the data for controlling the illumination module 22 is forwarded to the power supply 24, 25, 26. For this purpose, the SSL chip 22 has an interface that is connected to an interface 24 of the power supply via a CAN bus. The interface 23 is connected to a microcontroller 25 of the power supply that actuates a power unit 26 of the power supply 24, 25, 26, via which the LED matrix or, as the case may be, individual LEDs of the LED matrix are supplied with power.

[0024] Furthermore, the SSL chip 22 extracts from the data received the data for controlling the peripheral module 23 and makes it available at the interface at which this data is then transferred via a cable 4 to the peripheral module 23. A second channel is set up for this purpose via the interface and the cable.

[0025] This second channel is a bidirectional channel so that it is also possible to transfer data from the peripheral module 23 to the illumination module 22. The peripheral device 23 can, for example, feature a diagnostic function with which diagnostic data can be collected. Such diagnostic data can be transferred to the illumination module 22 via the bidirectional second channel. This data can be transferred via the bidirectional first channel from the illumination module 22 to the control unit 1.

[0026] A modified RGB signal is transferred via the first channel. Just like every RGB signal, the RGB signal contains control information for generating the image, in the present case the image information for generating the desired light pattern. Alongside this data, the RGB signal, which is a modification of a conventional RGB signal, also contains data for controlling the power supply 24, 25, 26 of the illumination module 21, 22 and for controlling the peripheral module 23. This data is transferred in a range of the RGB signal that is not used for the image information on the light pattern or the light distribution. This is preferentially what is known as the blanking range.

[0027] FIG. 2 shows the schematic layout of an individual video image 9 RGB signal.

[0028] The video image 9 has a total height of 91 and a total width of 92. The total height 91 is subdivided into four ranges 911, 912, 913, 914. The first range designates the active height 911. The first range in the lower range of the image is bordered by the vertical front porch 912 and in the upper range of the image by the vertical back porch 913. Furthermore, a range of the vertical synchronization 914 borders on the vertical back porch 913.

[0029] The total width 92 can likewise be subdivided into four ranges 921, 922, 923, 924. The first range designates the active width 921; in the right portion of the image, this is surrounded by the horizontal front porch 922 and in the left portion of the image by the horizontal back porch 923. The horizontal back porch 923 is bordered by a range of the horizontal synchronization 924.

[0030] The useful information in the video signal is transmitted in the range spanned by the active height 911 and the active width 921. This range can, in turn, be subdivided into a first video image portion 93 and a second video image portion 94. For each video image portion 93, 94, the luminance values of the individual LEDs of the LED matrix of the SSL chip 22 are coded in 16383 pixels.

[0031] The unused range of the video image, the blanking range, is located outside of the range spanned by the active height 911 and the active width 921. This blanking range also includes the vertical back porch 913 in which the data 95 for controlling the power supply and for controlling the peripheral module are transferred.

[0032] List of Reference Numbers

[0033] 1 Control unit

[0034] 11 Microcontroller

[0035] 2 Headlamp

[0036] 22 SSL chip

[0037] 23 Peripheral module

[0038] 24 Interface

[0039] 25 Microcontroller

[0040] 26 Power unit

[0041] 3 Cable for the first channel

[0042] 4 Cable for the second channel

[0043] 9 Video signal of an RGB image

[0044] 91 Total height

[0045] 911 Active height

[0046] 912 Vertical front porch

[0047] 913 Vertical front porch

[0048] 914 Vertical synchronization

[0049] 92 Total width

[0050] 921 Active width

[0051] 922 Horizontal front porch

[0052] 923 Horizontal front porch

[0053] 924 Horizontal synchronization

[0054] 93 First part video image

[0055] 94 Second part video image

[0056] 95 Range of the range of the RGB signal not used for image data that is used for data to control the power supply and the peripheral module