DE202008008280U1 - Control unit for controlling and / or regulating a motor vehicle lighting device and motor vehicle lighting device - Google Patents

Abstract

control unit (13) for controlling and / or regulating a motor vehicle lighting device (11) with several analog encoders (25) for specifying an analog value (R), wherein the control device (13) an analog / digital converter (20) for detecting an analog signal (R) dependent on the analog signal and one with an input (33) of the analog-to-digital converter (20). connected multiplexer arrangement (57) for selecting at least one of the analog values (R), characterized in that a first terminal (31) of at least one selection of the analogue value transmitters (25) connected to the input (33) of the analog / digital converter (20) is and the multiplexer arrangement (57) at least a first activatable Switching element (41), which in such a way between a second connection (32) one of the selection of the analog value transmitter (25) and a first one predetermined electrical potential (45) is arranged that the second terminal (32) with the first potential by activating of the switching element (41) is connectable.

Description

The The invention relates to a control device for controlling and / or Rules of a motor vehicle lighting device with multiple analog encoders for specifying an analog value, wherein the controller has a Analog / digital converter for detecting an analog value dependent Analog signal and one with an input of the analog / digital converter connected multiplexer arrangement for selecting at least one of the analog values. The invention also relates a motor vehicle lighting device with such a control unit.

From the DE 31 51 628 A1 a circuit arrangement for the evaluation of analog measured values is known. This circuit has an analog / digital converter with an analog multiplexer upstream. Inputs of the analog multiplexer are connected to analog encoders. In the operation of this circuit arrangement, one of the analog value transmitters is selected by means of the analog multiplexer and an analog signal generated by the same is supplied to the multiplexer. A disadvantage of this circuit arrangement is that the analog multiplexer is relatively complex to implement, resulting in comparatively high production costs for this circuit arrangement.

task The present invention is a control device of to provide the above-mentioned type, the analog values of several Analog value encoder can capture and yet easy and inexpensive is feasible.

These The object is achieved by a control unit of the type mentioned above, characterized is that a first connection of at least one selection of the analog value transmitter is connected to the input of the analog / digital converter and the Multiplexer arrangement at least a first activatable switching element such that between a second terminal of one of Selection of the analog value transmitter and a first preset electrical Potential is arranged, that the second connection with the first Potential can be connected by activating the switching element.

The The present invention demonstrates a solution as with only an analog / digital converter the analog values of several analog value encoders can be recorded without being more expensive and complex analog multiplexer must be used. In contrast to known multiplexer arrangements, the first Connections of the analogue encoder directly, that is without using an analog multiplexer, with the input of the analog-to-digital converter connected. The switching elements serve to the second connections to connect the analog value transmitter with the first potential. Because it at the first potential to a predetermined potential, for example can be a ground potential, the first switching elements be relatively easy to run. In contrast to switching elements for an analog multiplexer, the in the provided according to the invention multiplexer arrangement first switching elements are not designed to switch an analog signal be. Thus, simple and inexpensive Semiconductor switching stages, such as simple transistor stages used become.

Around to operate the controller in a simple way and to capture the analog values with a relatively high accuracy it is particularly preferred that each analog value transmitter exactly one first switching element is assigned to one of a the analog value transmitter preset analog value as analog signal from Analog / digital converter to capture, if that this analog value transmitter assigned switching element is activated. Thereby can the analog values of the individual analog encoders are separated from each other be queried by activating the corresponding switching element. Interactions between the individual analog encoders are thus largely excluded. Each first switching element comprises an activated state in which there is a relatively low Has resistance. In the activated first switching element is So the second connection of the corresponding analog value encoder with the relatively low resistance connected to the first potential. In a non-activated state, the first switching element such a high resistance that the second terminal of the corresponding analog value encoder at least substantially from the first potential is disconnected. It can be provided that at Operation of the control unit, the individual switching elements in turn be activated individually, so that the analog values in turn from the analog / digital converter can be detected individually.

In A preferred embodiment provides that the multiplexer arrangement comprises an electrical network, the between a second predetermined electrical potential and the Input of the analog / digital converter is arranged. At the second electrical potential may be the potential of a supply voltage line act of the controller. With the help of the network can a voltage divider comprising the network and an analogue encoder will be realized. This will increase the accuracy of detecting the analog values elevated.

It can further be provided that the network has at least one series circuit comprising a resistor and a second activatable one Has switching element. The second switching element may be configured to have an activated state and a non-activated state. In the activated state, the second switching element may have a relatively low resistance, and in the non-activated state, the switching element may have a comparatively high resistance. By means of the second switching element, a total resistance of the network can be influenced. This allows switching between different measuring ranges.

Preferably is a protective resistor on at least one of the first switching elements to protect the first switching element from an overcurrent arranged. Such an overcurrent can occur, for example, if a short circuit within the controller or within a motor vehicle lighting device to which the control unit heard, occurs. By means of the protective resistor is the Resistance of the connection between the second terminal of the analogue encoder and the first potential in the activated first switching element increases, so that occurring in the short circuit current is limited and thereby the overcurrent is avoided.

Around realize the control unit with a small number of parts it is particularly preferred that at least one the first switching elements and / or at least one of the second switching elements an output, preferably a tri-state output, of a digital circuit includes.

in this connection it is preferred that the digital circuit is a microcontroller, for driving the first and / or second switching elements is set up. As a result, the number of parts of the controller further reduced, because a control and / or regulating logic and the first and the second switching elements in a single Component, namely the microcontroller, are integrated.

In a preferred embodiment of the invention is provided in that at least one of the analog value transmitters has a sensor, preferably a temperature sensor.

Further can be provided that at least one of the analog value transmitter comprises a Kodierwiderstand, wherein an ohmic resistance of the Kodierwiderstands certain information, preferably one Configuration information of the lighting device, characterized. The controller can by means of the Anlog / digital converter and the multiplexer arrangement the ohmic resistance of the coding resistor and from this determine the configuration information. In controlling and / or regulating the lighting device, the Controller consider this information.

When Another solution to the above object is a motor vehicle lighting device with several analog encoders for specifying an analog value and a control device for controlling and / or regulating the motor vehicle lighting device proposed, wherein the control device an analog / digital converter for detecting an analog signal dependent on the analog value and one connected to an input of the analog-to-digital converter Multiplexer arrangement for selecting at least one of Includes analog values, which is characterized in that the control unit as an above-described inventive control device is trained. With the motor vehicle lighting device according to the invention can all the advantages of the invention Control unit can be realized.

in this connection it is particularly preferred that the illumination device at least a motor vehicle headlight and / or at least one motor vehicle light includes, wherein the motor vehicle headlight or the Motor vehicle light at least one of said analog value transmitter having.

Further Features and advantages of the invention will become apparent from the following Description in which particularly preferred exemplary embodiments the invention explained in more detail with reference to the drawing become.

The sole figure of the drawing shows a schematic representation of a motor vehicle lighting device 11 according to a preferred embodiment of the present invention. The lighting device 11 has a controller 13 and a motor vehicle headlight 15 on.

The control unit 13 includes a microcontroller 17 with an analog / digital converter element 18 , which together with an input filter designed as a low-pass filter 19 an analog / digital converter 20 of the control unit 13 forms. Furthermore, the microcontroller points 17 several tri-state outputs 21 on.

The headlight 15 comprises several - in the embodiment shown two - LED assemblies 23 , Each light emitting diode assembly 23 includes one or more light emitting diodes (not shown) for generating light in accordance with a particular light function of the headlamp 15 , In this case, each individual light-emitting diode assemblies 23 be designed to generate light according to exactly one specific light function. Each light emitting diode assembly 23 includes two analog encoders 25 , One of the analogue sensors 25 each light emitting diode assembly 23 is as a temperature sensor 27 in the form of egg Nes temperature-dependent resistor R is formed. The temperature sensor can be realized as a thermistor (NTC) or as a thermistor (PTC). The temperature sensor 27 may be for detecting an operating temperature of the light emitting diode assembly 23 be used.

Further, each light emitting diode assembly has 23 as another analogue value transmitter 25 a coding resistor 29 on. An ohmic resistance R of the coding resistor 29 characterizes a configuration of the corresponding LED assembly 23 , Under the configuration of one of the light emitting diode assemblies 23 in particular electrical properties of the light emitting diodes, a number of in the light emitting diode assemblies 23 existing light-emitting diodes and / or a kind of interconnection of the individual LEDs to understand each other. The ohmic resistance R of the coding resistor 29 is commonly used in the manufacture of the light emitting diode assembly 23 , in particular depending on the configuration of the corresponding light-emitting diode assembly 23 , set.

The headlight shown in the figure 15 is just one of many possible embodiments of the present invention. The structure of the headlight 15 can be arbitrarily adapted to the requirements arising in a particular application. For example, the number of light emitting diode assemblies 23 be varied. The individual light-emitting diode assemblies 23 can have a different structure, especially as regards the type and number of analogue sensors 25 concern. As analogue value transmitter 25 may be in place of or in addition to the temperature sensors 27 and the coding resistors 29 additional types of sensors are provided. In addition, instead of the headlight 15 Also, a fog light or a motor vehicle light (eg flashing light, a lamp for daytime running lights or position light, etc.) are provided. The lighting device 11 can both the headlight 15 as well as one or more lights.

From the figure it can be seen that the analog value transmitter 25 are bipolar, with a first terminal 31 of each analogue encoder 25 with an entrance 33 of the analog / digital converter 20 connected is. A second connection 32 of each analogue encoder 25 is about one in the control unit 13 arranged protective resistor 35 with exactly one tri-state output 21 of the microcontroller 17 connected. The tri-state outputs 21 that with the protective resistors 35 are connected, each having a first switching element 41 on.

Furthermore, the controller has 13 an electrical network 37 on that with the entrance 33 of the analog / digital converter 20 connected is. The network 37 has several - in the embodiment shown two - resistors 39 on, wherein a first terminal (without reference numeral) of each of these resistors 39 with the entrance 33 of the analog / digital converter 20 is connected and a second terminal (no reference numeral) of each of these resistors 39 with exactly one more tri-state output 21 of the microcontroller 17 connected is. The network 37 So has two series circuits, each comprising one of the resistors 39 and a second activatable switching element 43 the tri-state outputs 21 to which the resistors 39 are connected to.

At the switching elements 41 . 43 it is in the semiconductor technology in which the microcontroller 17 realized, commonly used semiconductor switches. The switching elements 41 . 43 are with a first potential in the form of a ground potential 45 and a second potential 47 that is the potential of a supply voltage line of the microcontroller 17 corresponds, connected.

The first switching elements 41 , the electrical network 37 comprising the second switching elements 43 and the resistors 39 as well as the protective resistors 35 form a multiplexer arrangement 57 to select at least one of the analog encoders 25 specified analog values. The one from a specific analog transmitter 25 specified analog value corresponds to an ohmic resistance R between the first terminal 31 and the second port 32 this analogue encoder 25 ,

Between an on-board power line 49 a vehicle electrical system of a motor vehicle, in which the lighting device 11 is installed, and the supply voltage line can be a voltage converter 51 be provided. However, the supply voltage line of the microcontroller can also directly with the electrical system line 49 be connected.

The input filter 19 is formed in the embodiment shown as an RC element, with an input 53 the analog / digital converter element 18 connected is. An input of the input filter forms the input 33 of the entire analog / digital converter 20 ,

Deviating from the embodiment shown, another structure (LC element, active filter, etc.) of the input filter can also be used 19 to get voted. In an embodiment not shown, there is no separate input filter 19 intended. There are the first connections 31 the analogue encoder 25 and the electrical network 37 directly to the entrance 53 of the analog / digital converter element 18 connected.

During operation of the lighting device 11 is the microcontroller 17 connected to a supply voltage having a usual for the operation of microcontroller value such as 3.3 volts, 5 volts or a higher voltage. The voltage between the second potential 47 and the ground potential 45 thus corresponds to the supply voltage of the microcontroller 17 , If the voltage converter 51 is provided, this generates the supply voltage from a between the electrical system line 49 and the ground potential 45 existing vehicle electrical system voltage U _Batt .

The microcontroller 17 introduces a method for controlling and / or regulating the illumination device 11 out. This method includes procedures for detecting from the analog encoders 25 given analog values in the form of the resistance R of the individual analog value transmitter 25 , This process is repeated to track changes in the analog values R. In the following, this process is explained in more detail.

The microcontroller 17 activates exactly one of the first switching elements 41 , so that at the corresponding tri-state output 21 connected protective resistor 35 with the ground potential 45 is connected. The other first switching elements 41 remain inactive, that is in a high-impedance state in which the to the corresponding tri-state outputs 21 connected protective resistors 35 neither with the ground potential 45 still with the second potential 47 are connected.

In addition, the microcontroller selects 17 a measuring range by one or more of the second switching elements 43 activated, that is, such controls that with the corresponding tri-state outputs 21 connected resistances 39 with the second potential 47 are connected. The network 37 thus forms one of the microcontroller 17 gradually adjustable resistance between the second potential 47 and the entrance 33 of the analog / digital converter 20 , It can be provided that at the same time only one of the second switching elements 43 is activated, so that the number of adjustable resistors of the network 37 the number of second switching elements 43 equivalent. In the embodiment shown, two different resistances can thus be set in this way. However, it can also be provided that one or more second switching elements 43 are activated simultaneously, so that the number of adjustable resistors of the network 37 2 ⁿ , if n is the number of second switching elements 43 is. In the embodiment shown, four different values for the resistance of the network thus result in this case 37 ,

In the embodiment shown, an activated state corresponds to the first switching elements 41 a connection of the corresponding tri-state outputs 21 with the ground potential 45 , A state of the first switching elements 41 in which the corresponding tri-state outputs 21 with the second potential 47 are not used. An activated state of the second switching elements 43 corresponds to a connection of the corresponding tri-state outputs 21 with the second potential. A state of the second switching elements 43 in which the corresponding tri-state outputs 21 connected to the ground potential is not used. The inactive state of all switching elements 41 . 43 corresponds to a high-impedance state of the corresponding tri-state outputs 21 ,

Deviating from this, the tri-state outputs 21 be controlled in other ways. For example, it may be provided that the activated state of the first switching elements 41 a connection of the corresponding tri-state outputs 21 with the second potential 47 and the activated state of the second switching elements 43 a connection of the corresponding tri-state outputs 21 with the ground potential 45 equivalent.

By activating one of the first switching elements 41 and one or more of the second switching elements 43 creates a voltage divider, the network on a first branch 37 and at a second branch a series circuit of exactly one analog value transmitter 25 and a protective resistor 35 includes. Between the two branches of this voltage divider is the input 33 of the analog / digital converter 20 arranged. The analog-to-digital converter element 18 of the analog / digital converter 20 detects one through the input filter 19 of the analog / digital converter 20 filtered voltage between the input 33 and the ground potential 45 , In an embodiment not shown is an analog / digital converter 20 provided a voltage between the second potential 47 and the entrance 33 detected. The analog / digital converter 20 puts the microcontroller 17 a digital value characterizing the detected voltage.

The detected voltage is then from the microcontroller 17 converted to a size representing that analog value that by the corresponding activation of the switching elements 41 . 43 selected analog value encoder 25 is given. In the case of a temperature sensor 27 a temperature is determined. For this purpose, a calculation rule, a map or other suitable means can be used. In the case of a coding resistor 29 determines the microcontroller 17 depending on the detected analog value configuration information of the LED assembly 23 in which the coding resistor 29 is arranged.

In addition, the microcontroller 17 Also check if the value of the detected voltage is between the input 33 and the ground potential 45 within a permissible value range. If the detected voltage is outside the permissible range, the microcontroller recognizes 17 that a short circuit between the input 33 and the ground potential or between the input 33 and the second potential 47 or the on-board power line 49 of the motor vehicle is present.

Furthermore, the microcontroller 17 Check for an interruption in a connection line 55 between the controller 13 and the headlight 15 is present. For this purpose, all second switching elements 43 be disabled and the voltage between the input 33 and the ground potential 45 depending on certain switching states of the first switching elements 41 (activated or not activated).

Within the sequence can in turn exactly one of the first switching elements 41 be activated and the voltage between the input 33 and the ground potential for one or more combinations of switching states of the second switching elements 43 be recorded. In this way you can with only one analog / digital converter 20 Analog values of several analog value encoders 25 be recorded.

Should a short circuit on one of the connecting line between the control unit 13 and the headlight 15 occur, that is at least one of the connecting lines to the ground potential 45 , the second potential 47 or the on-board power line 49 connect the protective resistors 35 for having a current on the tri-state outputs 21 to which the protective resistors 35 are connected, limited and the microcontroller 17 can not be destroyed by the short circuit. A current through a tri-state output 21 of the electrical network 37 is through the resistance 39 limited.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 3151628 A1 [0002]

Claims (11)

Control unit ( 13 ) for controlling and / or regulating a motor vehicle lighting device ( 11 ) with several analog encoders ( 25 ) for specifying an analog value (R), wherein the control unit ( 13 ) an analog / digital converter ( 20 ) for detecting an analog signal (R) dependent analog signal and one with an input ( 33 ) of the analog / digital converter ( 20 ) connected multiplexer arrangement ( 57 ) for selecting at least one of the analog values (R), characterized in that a first terminal ( 31 ) at least one selection of analogue sensors ( 25 ) with the entrance ( 33 ) of the analog / digital converter ( 20 ) and the multiplexer arrangement ( 57 ) at least a first activatable switching element ( 41 ), which in such a way between a second connection ( 32 ) one of the selection of analogue sensors ( 25 ) and a first predetermined electrical potential ( 45 ) is arranged, that the second connection ( 32 ) with the first potential by activating the switching element ( 41 ) is connectable. Control unit ( 13 ) according to claim 1, characterized in that each analog value transmitter ( 25 ) exactly a first switching element ( 41 ) is assigned to one of the analogue sensors ( 25 ) analog value (R) as an analog signal by means of the analog / digital converter ( 20 ) when this analogue encoder ( 25 ) associated first switching element ( 41 ) is activated. Control unit ( 13 ) according to claim 1 or 2, characterized in that the multiplexer arrangement ( 57 ) an electrical network ( 37 ) between a second predetermined electrical potential ( 47 ) and the entrance ( 33 ) of the analog / digital converter is arranged. Control unit ( 13 ) according to one of the preceding claims, characterized in that the network ( 37 ) at least one series circuit comprising a resistor ( 39 ) and a second activatable switching element ( 43 ) having. Control unit ( 13 ) according to one of the preceding claims, characterized in that on at least one of the first switching elements ( 41 ) a protective resistor ( 35 ) for protecting the first switching element ( 41 ) is arranged in front of an overcurrent. Control unit ( 13 ) according to one of the preceding claims, characterized in that at least one of the first switching elements ( 41 ) and / or at least one of the second switching elements ( 43 ) an output, preferably a tri-state output ( 21 ), a digital circuit ( 17 ). Control unit ( 13 ) according to claim 6, characterized in that the digital circuit is a microcontroller ( 17 ), which is used to drive the first switching elements ( 41 ) and / or the second switching elements ( 43 ) is set up. Control unit ( 13 ) according to one of the preceding claims, characterized in that at least one of the analog value transmitters ( 25 ) a sensor, preferably a temperature sensor ( 27 ). Control unit ( 13 ) according to one of the preceding claims, characterized in that at least one of the analog value transmitters ( 25 ) a coding resistor ( 29 ), wherein an ohmic resistance of the coding resistor ( 29 ) certain information, preferably configuration information of the illumination device ( 11 ), characterized. Automotive lighting device ( 11 ) with several analog encoders ( 25 ) for specifying an analog value (R) and a control unit ( 13 ) for controlling and / or regulating the motor vehicle lighting device ( 11 ), whereby the control unit ( 13 ) an analog / digital converter for detecting an analog signal (R) dependent analog signal and one with an input ( 33 ) of the analog / digital converter connected multiplexer arrangement ( 57 ) for selecting at least one of the analog values (R), characterized in that the control unit ( 13 ) as a control device ( 13 ) is designed according to one of the preceding claims. Lighting device ( 11 ) according to claim 10, characterized in that the illumination device ( 11 ) at least one motor vehicle headlight ( 15 ) and / or at least one motor vehicle light, wherein the motor vehicle headlight ( 15 ) or the motor vehicle light at least one of said analog value transmitter ( 25 ) having.