DE10227487A1 - Illumination device for display back-lighting, comprises one or more light emitting diodes, at least one of which also measures the ambient light level which is then used by a microprocessor to regulate the display - Google Patents

Abstract

Illumination device comprises at least one light diode (1) that acts as a light source. At least one light diode also serves to detect the ambient light level. Dependent on the detected light level the light intensity of the at least one light diode is adjusted. Measurement and lighting modes of the light diode or diodes are alternated, enabling power output adjustment. Independent claims for method for : (1) operation of a back-lighting arrangement; and (2) for a motor control for the driving motor of a pump for liquid transport that has a LCD.

Description

The invention relates to a lighting device with at least one light-emitting diode provided as lighting means.

Such lighting devices, in the simplest case of a single light emitting diode and one assigned voltage and / or current source can exist used, for example, to illuminate or backlight any objects and thus find e.g. also used for background humidification of advertisements, e.g. in LCD displays, such as those in car radios or also generally electrical control devices for the representation of text and / or graphic information is provided. Come with these lighting fixtures mainly Semiconductor-based light-emitting diodes are used, as they are also used for low electrical outputs have a high luminous efficiency and therefore extremely economical Illuminants can be viewed.

It is often constant luminous lighting devices so that the luminosity as is inappropriate to describe, e.g. also a sufficient one Ambient brightness is given to read a display or to be able to recognize another object. In such a case would be a higher luminosity required and especially with backlights for liquid crystal displays With constant continuous lighting, the problem arises that with display in a bright environment with inappropriate backlighting appears as low contrast.

Accordingly, it would be desirable to have one To create lighting device in which the illuminance changes automatically adapts to the prevailing ambient brightness, so that in particular with backlit displays there is always optimal readability due to sufficient contrast.

For this it could e.g. be provided, to equip a lighting device with an additional sensor, to detect the ambient brightness and the illuminance of the Adapt lighting device to this. However, this means especially in today's very small displays that an additional Space for one Sensor must be provided, resulting in a more complex construction and also leads to increased production costs from an economic point of view.

The object of the invention is therefore to provide a lighting device in which with minimal Effort to adjust the illuminance depending on the ambient brightness possible is.

This object is achieved according to the present invention solved by that in a lighting device according to the invention by means of at least one light-emitting diode, which acts as lighting means is provided in the device, the ambient brightness can be detected and depending of which the luminosity this at least one or, if necessary, also several light-emitting diodes is adjustable.

Such a lighting device according to the invention is the consideration underlying that a usual LED not only after applying an electrical voltage as light-emitting element can be used, but that one Conversely, the LED can also work as a photodiode and thus on an externally illuminated one LED an electrical signal, in particular an electrical Voltage that can be tapped, which is proportional to the ambient brightness is.

A normal light emitting diode can accordingly used both as a light-emitting element and as a sensor be so that in an inventive lighting device there is no need to provide a separate sensor to to detect the ambient brightness. The task of one Sensor is adopted according to the invention of at least one light-emitting diode, optionally also several or all light-emitting diodes used in a lighting device to illuminate an object, an advertisement or other are provided.

Basically, it is the case with one from the outside LED illuminated by ambient brightness, through which no Electricity flows, which does not shine itself, one on the connection electrodes Tension can be tapped that is proportional to that Shows ambient brightness. Even if the LED itself lights up, that is a current flows through the light emitting diode, which is inevitably above the LED voltage drop setting detect a change when the lighting of the light emitting diode due to the ambient brightness changes from the outside. It there is therefore the possibility for both a non-luminous and a luminous In terms of measurement technology, the LED is proportional to the ambient brightness record electrical quantity, especially a tension that over the LED falls off and further evaluate this electrical signal.

According to the invention, it can be provided to detect such an electrical signal, which drops off at least on a light-emitting diode and is proportional to the ambient brightness, for example by means of a measuring device. After evaluating this metrologically recorded signal, there is the possibility of electrically actuating the at least one light-emitting diode or else several or all of the light-emitting diodes of a lighting device as a function of this electrical signal, that is to say to vary the voltage and / or current, for example. This can be done in particular by means of a control device, for example by means of a programmable voltage / power supply. There is thus the possibility of the luminosity of the at least one Light-emitting diode or also several or all light-emitting diodes depending on the ambient brightness.

With lighting devices with Light-emitting diodes can be provided to pulse the light-emitting diodes operate at both a maximum luminosity and a maximum To achieve the life of the LEDs. For example, periodically in a row for a very short time a light emitting diode with a multiple of the otherwise allowed current switched on. The pulsing of such a light emitting diode is set so quickly that it is for human Eye as such is no longer perceptible and the human Eye only recognizes a continuous brightness. For example, will Usually pulsing set to a repetition rate of more than 25 Hertz.

Based on the period between two Pulses to control one or more LEDs can be used Pulse mode, the switch-on time is, for example, only about 10% of the period. The remaining 90% of this time can accordingly for that too are used by means of the LED that is switched off during this time to detect the ambient brightness as described above and subsequently the pulse operation depending to continue from the detected brightness. For example, both the pulse duration as well as the pulse height, hence the current dependent on can be set from the detected ambient brightness.

Such a method of operation a lighting device according to the invention can't just be done are at the aforementioned pulse duration of about 10% of the period between two pulses, but also with any other pulse width, it is only necessary to ensure that there is sufficient time between two pulses remains to measure the ambient brightness.

Carrying out the detection of the ambient brightness in pulse mode and here in particular in the pulse pauses Continuous operation has the further advantage that the ambient brightness proportional signal to be detected is not due to the own lighting the diode is disturbed is, so that the evaluation of the detected electrical Signals are significantly simplified.

A pulse operation, the at least one light-emitting diode, several or possibly all light emitting diodes of a lighting device Accordingly, in addition to the advantage mentioned above, it has the maximum luminosity and the life of the diodes have the further advantage that the evaluation of the electrical signal and thus the electronic Wiring the light emitting diode when performing such a method significantly simplified.

Basically, a lighting device according to the invention with at least one light-emitting diode, but preferably with at least one two LEDs. These two or more LEDs can electrically connected in series as well as in parallel, depending on the application needs. Independent of the type of this connection is always possible also the ambient brightness by means of the light emitting diodes used as illuminants to be detected, be it in continuous or in pulsed operation the lighting device.

To simplify the electrical Wiring can be provided that the aforementioned control device to control the LEDs in a lighting operation and the also previously mentioned measuring device for detecting the ambient brightness proportional signals within a common electronic control unit, are formed in particular within a microprocessor. This means a further simplification of electronic shading, in particular because such a microprocessor is programmable and accordingly be adaptable to different areas of application and requirements can.

For example, the control device can both with separate execution as well as in an implementation within a control unit or a microprocessor as a programmable power supply, preferably be designed as a pulse width modulator. With one Pulse width modulator is a pulse operation in a very simple way possible for each LED in particular, both the pulse width - the duty cycle - and the pulse height and therefore the height of the current and the pulse repetition rate can be set programmably become.

A measuring device that also separately or within a control unit or the microprocessor can be formed, e.g. as a triggerable analog-digital converter in particular may also be designed with an upstream lock-in amplifier. There is accordingly the possibility with such a measuring device that is proportional to the ambient brightness and if necessary previously reinforced electrical signal, which is particularly a voltage above or represents several light emitting diodes, as an analog signal and subsequently convert to a digital form, e.g. by means of the microprocessor further processed in terms of programming and e.g. into a control algorithm to be involved.

This signal, which is now in digital form, can be evaluated and used in order to reprogram the pulse ready module by means of the control unit and thus to adapt the luminosity of the light-emitting diodes to the measured ambient brightness. This can in particular In the case of backlit liquid crystal displays in particular, an optimal contrast and thus good readability are always guaranteed, regardless of the ambient brightness.

In a particularly preferred embodiment it is provided that the electronic control unit, i.e. e.g. the microprocessor, a single I / O port, i.e. an input or output line provides that between the individual functions of tax and Measuring device is switchable. There can therefore be such a line or such a port is used within a first period to apply a voltage to the at least one light emitting diode and so generate a current flow and in a second temporal Range the voltage across the LEDs due to the ambient brightness drops to be measured and further evaluated in digital form.

The use of at least one light emitting diode in a lighting device comprising at least one light-emitting diode leads as a sensor for measuring the ambient brightness to a significant improvement of the previously known LED-based Lighting devices without any additional design or cost cause.

Such a lighting device can preferably be used are used as the backlight of a liquid crystal display a motor controller, e.g. in motors for pumps to convey a Fluid.

An embodiment of the invention is described in the following drawing.

The 1 shows the schematic representation of a lighting device according to the invention with a total of 6 light-emitting diodes connected in series in an upper region 1 , which are connected to ground potential with their right-hand connecting electrode, if necessary, via subsequent light-emitting diodes. By applying a voltage to the left-hand electrode, these 6 light-emitting diodes can accordingly be switched on and thus made to light up, the luminous intensity essentially dependent on the voltage, and thus on the total current flow through the light-emitting diodes.

To control the LEDs 1 is a microprocessor for lighting operation 2 provided an exit 3 which represents the output of a pulse width modulator. Such a pulse width modulator (PWM) enables pulsed operation of the 6 light-emitting diodes provided here, which means that these light-emitting diodes are operated within a very short time, e.g. with a multiple of the otherwise permitted current, which increases both the luminosity and the service life of the LEDs elevated. In order to provide the required electrical power in the present case, a power driver can be provided at the output of the pulse width modulator 4 to provide, which provides an amplification of the signal provided and thus the total provided here 6 Operates LEDs.

In this simplified schematic representation, it is further provided that the microprocessor has an analog-digital converter 5 which is also connected via a connecting line to a left-hand electrode connection of the light-emitting diodes, so that there is the possibility here of measuring a voltage falling across the light-emitting diodes proportional to the ambient brightness, converting it into a digital signal and evaluating it.

The measurement of what is proportional to the ambient brightness electrical signals can be in the pulse operation proposed here especially in the pulse pauses between two electrical voltage / current pulses respectively. It can be provided without being shown here that the electrical signal in the pulse pauses depending on a trigger signal record and, if necessary, reinforce before digital conversion.

As mentioned before, but not in this figure shown, can the two inputs / outputs 3 and 5, i.e. the puff width modulator and the analog-digital converter of the Microprocessor also in a common input / output channel or Microprocessor I / O port be realized, the function of which can be switched over time.

The embodiment shown here 1 can be expanded as required, particularly with regard to the arrangement of the light-emitting diodes 1 in the form of any parallel and series connections that can be provided depending on the application.

The presented invention is accordingly particularly flexible in its application and achieves adaptation the luminosity especially through change the pulse widths and pulse heights in dependence of the ambient brightness, without the need for a separate sensor needed becomes.

Claims (17)

Lighting device, in particular for backlighting a display device for text / graphic information, comprising at least one light-emitting diode provided as lighting means ( 1 ), characterized in that by means of at least one light-emitting diode ( 1 ) the ambient brightness can be detected and, depending on this, the luminosity of the at least one light-emitting diode ( 1 ) is adjustable. Lighting device according to claim 1, characterized in that one on at least one light-emitting diode ( 1 ) falling electrical signal proportional to the ambient brightness, in particular by means of a measuring device ( 2 . 5 ), detectable is. Lighting device according to one of the preceding claims, characterized in that at least one light-emitting diode ( 1 ) as a function of the detected electrical signal, in particular by means of a control device ( 2 . 3 ), can be controlled electrically. Lighting device according to one of the preceding claims, characterized in that at least one light-emitting diode ( 1 ) by means of the control device ( 2 . 3 ) can be controlled in an electrically pulsed manner and by means of the measuring device ( 2 . 5 ) the electrical signal can be detected within a pulse pause. Lighting device according to one of the preceding claims, characterized in that the electrical signal is a voltage which is proportional to the ambient brightness via at least one light-emitting diode ( 1 ) drops. Lighting device according to one of the preceding claims, characterized in that it has at least two light-emitting diodes ( 1 ) which are electrically connected in series and / or in parallel with one another. Lighting device according to one of the preceding claims, characterized in that the control device ( 2 . 3 ) and measuring device ( 2 . 5 ) within an electronic control unit ( 2 ), in particular a microprocessor. Lighting device according to one of the preceding claims, characterized in that the control device ( 2 . 3 ) is designed as a pulse width modulator. Lighting device according to one of the preceding claims, characterized in that the measuring device ( 2 . 5 ) is designed as an analog / digital converter. Lighting device according to one of the preceding claims 7 to 9, characterized in that the electronic control unit ( 2 ) has an I / O port that can be switched between the functions of the control and measuring device. Method for operating a lighting device, in particular according to one of the preceding claims, as a function of the ambient brightness with at least one light-emitting diode ( 1 ), characterized in that the electrical control of the at least one light-emitting diode ( 1 ) depending on a measured electrical signal, which is connected to a light emitting diode ( 1 ) drops proportionally to the ambient brightness. A method according to claim 11, characterized in that the electrical signal before activation in the de-energized state of a light emitting diode ( 1 ) is recorded. Method according to one of the preceding claims, characterized in that the at least one light-emitting diode ( 1 ) pulsed electrically controlled and the electrical signal is detected within a pulse pause. Method according to one of the preceding claims, characterized characterized that depending of the detected electrical signal the pulse width and / or pulse height changed becomes. Method according to one of the preceding claims, characterized characterized as an input / output port of a control device is switched between the control function and the measuring function. Use of at least one light emitting diode ( 1 ) in at least one light emitting diode ( 1 ) comprehensive lighting device as a sensor for measuring the ambient brightness. Motor control, in particular for the motor of a pump advancement of fluids, comprising an illumination device according to one of the previous claims 1 to 10, in particular for backlighting a liquid crystal display.