APPARATUS OF A PROGRESSIVE INDICATOR, ESPECIALLY FOR A CAR HEADLIGHT OR LAMP

Abstract

The apparatus of a progressive direction indicator, especially for a car headlight or lamp, comprises the main connector (1) as the input electric interface, an LDM power supply module (2) for the power supply of the LED light sources (7), an LED board (4) where the LED light sources are mounted, and an interface (3) interconnecting the LDM power supply module with the LED board. The apparatus further comprises a current controller (9) for setting the current of the LED light sources, with the LDM power supply module comprising a DC/DC converter (5) generating the output voltage V out, which is the voltage source for the LED board. The LED board comprises discrete switching elements (8) for switching of individual LED light sources depending on the input voltage, so that the LED light sources are sequentially switched depending on the output voltage V out.

Claims

1. An apparatus of a progressive direction indicator, especially for a car headlight or lamp, comprising a main connector (1) as an input electric interface, an LDM power supply module (2) for power supply of LED light sources (7), an LED board (4) where the LED light sources (7) are mounted, and an interface (3) interconnecting the LDM power supply module (2) with the LED board (4), wherein the apparatus further comprises a current controller (9) for setting the current of the LED light sources (7), wherein the LDM power supply module (2) comprises a DC/DC converter (5) generating output voltage V out, which is the voltage source for the LED board (4), and wherein the LED board (4) comprises discrete switching elements (8) for switching of individual LED light sources (7) depending on the input voltage, so that the LED light sources (7) are adapted to be sequentially switched depending on the output voltage V out.

2. The progressive direction indicator apparatus in accordance with claim 1, wherein the switching elements (8) are transistors.

3. The progressive direction indicator apparatus in accordance with claim 1, wherein the LDM power supply module (2) further comprises a u-controller (6) to control the amount of the output voltage generated by the DC/DC converter (5).

4. The progressive direction indicator apparatus in accordance with claim 1, wherein the current controller (9) is mounted on the LED board (4).

5. The progressive direction indicator apparatus in accordance with claim 1, wherein the current controller (9) is part of the LDM power supply module (2).

6. The progressive direction indicator apparatus in accordance with claim 1, wherein the u-controller (6) is also configured with the use of A/D inputs from the current controller (9) to control a switching sequence of the LED light sources (7) and/or to detect damage of the LED light sources (7).

Description

OVERVIEW OF FIGURES IN THE DRAWINGS

[0015] The present invention will be further clarified in more detail with the use of embodiment examples referring to the enclosed drawings where:

[0016] FIG. 1 shows an example of an implementation of the wiring of the light function known from the prior art,

[0017] FIG. 2 shows a block diagram of the wiring architecture of the progressively controlled function in accordance with the present invention, and

[0018] FIG. 3 is a graphic representation of switching of individual LEDs in the course of time (top part of the figure), time course of voltage generated by LDM (central part) and the number of switched LEDs depending on the output voltage of LDM V out (bottom part), all on accordance with the present invention.

EXAMPLE OF EMBODIMENTS

[0019] An embodiment example of the invention will now be described with reference to the attached FIG. 2. FIG. 2 shows a block diagram of the proposed wiring architecture of the progressively controlled function used, for example, with a headlamp or rear lamp. The block diagram consists of the following elements: Input connector 1, which supplies the input voltage to the lamp, DC/DC converter 5, which generates at its output the output voltage—V out, which corresponds to the required number of switched on LED light sources 7. The amount of this voltage and the timing of its changes are controlled by a u-controller 6, e.g. a microcontroller or a single-chip processor, which, through sensing of the voltage V reg at the A/D input, also provides detection and synchronization of individual LED light sources 7 as well as compensation for various forward voltage bins. The LED board 4 contains individual LED light sources 7, and the respective discrete switching elements 8, which are preferably transistors, and the current controller 9. The switching elements 8 are suitably interconnected in such a way as to ensure sequential switching of individual LED light sources 7, depending on the supply voltage V out. The current controller 9 is then responsible for the setting and stabilization of current flowing through individual LED light sources 7. The interconnecting interface 3 ensures inter-connection of the power supply LDM module 2 and the LED board 4, and comprises the V out, V reg and GND signals.

[0020] The present invention proposes a new system architecture comprising a DC/DC converter 5 working as a voltage power supply, the time sequence of switching of individual LED light sources 7 being based on the output voltage of the LDM supply module 2 through suitable wiring of the switching elements 8 and sufficient current control. The detection and control of the switching is carried out by a simple controller 6. Advantages of the architecture of the present invention are a relatively low price, and a simple interface.

[0021] The proposed design of the architecture for implementation of the animated direction indicator ensures gradual switching on and off of individual segments of the particular function. The DC/DC converter 5, which is part of the LDM power supply module 2, is responsible for the required time-variable voltage output based on the u-controller 6 settings within the proposed architecture. Depending on the input voltage of the LED board 4, individual switching elements 8 are switched on/off to control activation/deactivation of the respective LED light sources 7. The current controller 9 then ensures proper setting of the working current of the LED light sources 7. The advantageous function of the u-controller 6 is proper setting of the time profile of the switching by means of the voltage control output into the DC/DC converter 5 on the one hand, and control of the switching sequence and detection of individual LED light sources 7 through the input from the current controller 9 on the other hand.

[0022] FIG. 3 shows a graphic representation of sequential switching of individual LED light sources 7 in the course of time in its top part. The central part of FIG. 3 then shows the time course of the output voltage V out generated by the LDM power supply module 2. The bottom part of FIG. 3 shows the number of switched on LED light sources 7 depending on the output voltage V out provided by the LDM power supply module 2.

[0023] The above described concept of a voltage controlled direction indicator is an innovative concept of control and power supply of an animated direction indicator (ADI) in automotive applications. This concept is implemented by means of the LDM power supply module 2 and the control circuits of the LED board 4, ensuring the required functionality.

[0024] The following electric components participate in the light generation process: the main connector 1, which represents the input electric interface of the lamp, and the LDM power supply module 2, ensuring power supply and control of individual LED light sources 7 mounted together with the other electronic components on the LED board 4 and interconnected with the respective interface 3.

[0025] In the described design, the architecture of the LDM power supply module 2, LED board 4 and their interface 3 is based on the technology that uses sequential switching of individual LED light sources 7 depending on the voltage generated by the DC/DC converter 5 by means of transistors, switching individual LED light sources 7 depending on the input voltage, and achieving gradual activation of the LED light sources 7 based on the output voltage V out. The rate of switching on/off of individual LED light sources 7, or animated sequence, is controlled by the u-controller 6 setting a suitable output of the DC/DC converter 5. The u-controller 6 can also control the switching sequence and detect damage of the LED light sources 7 by means of A/D inputs. The current of the LED light sources 7 is set by the current controller 9.

LIST OF REFERENCE MARKS

[0026] 1′—main connector—prior art [0027] 2′—LDM power supply module—prior art [0028] 3′—interface—prior art [0029] 4′—LED board—prior art [0030] 1—main connector [0031] 2—LDM power supply module [0032] 3—interface [0033] 4—LED board [0034] 5—DC/DC converter [0035] 6—u-controller [0036] 7—LED light source [0037] 8—switching elements [0038] 9—current controller