DE19818621A1 - Circuit arrangement for adjusting the brightness of current-controlled light-emitting diodes for illuminating a display - Google Patents

Abstract

To improve a circuit arrangement for adjusting the brightness of current-controlled light-emitting diodes for illuminating a display (1), it is proposed that the circuit arrangement contains a control unit (2) which receives a signal via an input interface (6) which is a measure of the desired brightness of the light emitting diodes, DOLLAR A b) that the control unit (2) adjusts the control current of the light emitting diodes taking into account a degradation value in such a way that the light emitting diodes produce the desired brightness despite the degradation behavior during a reasonable period of use of the display (1) in constant intensity, The control unit (2) determines the degradation value by DOLLAR A c) in that the control unit (2) registers at least the operating time of the light-emitting diodes and stores an indication corresponding to the operating time in a memory (7) connected to the control unit (2) in which also data about the Degr adation behavior of the LEDs are stored, DOLLAR A d) and that the control unit (2) determines the degradation value for setting the control current for the LEDs as a function of their registered operating time in accordance with the data stored in the memory (7) for the degradation behavior and at reasonable time intervals updated.

Description

The invention relates to a circuit arrangement for adjusting the brightness current-controlled light-emitting diodes for illuminating a display, in particular for illuminating displays, buttons and switches in vehicles. The Proposed circuit arrangement can be both active for control Display elements as well as with backlighting or lighting be applied. Active display elements can e.g. B. Segment displays or status display fields of an instrument cluster in the dashboard of a Vehicle.

The invention is based on an arrangement according to DE 196 02 891 A1. There is an arrangement for adjusting the brightness of a current or voltage-controlled illuminant for illuminating a display described in which at the end of the manufacturing process of the display in Depending on the brightness of the lamp, a correction factor is determined , by means of which the control voltage or the control current of the Illuminant is set. The determination and adjustment of the Correction factor is carried out with the help of a light meter, which by the Illuminant emitted brightness measures as well as using an over connect a diagnostic interface to the control unit of the display external test computer. The measured brightness value is shown with a Table value compared, that in a memory belonging to the display  is deposited. To choose only a few discrete when choosing the correction factor The correction factor can also be limited to a table value Map that characterizes the luminous characteristics of the illuminant, be removed. The one taken from a table or a map Correction factor is then used to control the illuminant influenced by a change in current or voltage such that the measured brightness value at the values specified in the memory as the setpoint Brightness value is adjusted. The setting made in this way the control of the illuminant should according to DE 196 02 891 A1 for the The lamp's service life is preserved.

Are light-emitting diodes made from a semiconductor material a one-off setting of the brightness value is not sufficient out and also the possibility for an occasional improvement of the im Manufacturing process of the display setting is made Not meeting the demands of the market, because light emitting diodes will Time even when it turns on during the life of the Display can be driven with a constant current.

It is now the object of the present invention, a generic Circuit arrangement for adjusting the brightness of current-controlled To further develop LEDs for illuminating a display in such a way that a constant brightness of the LEDs during a reasonable The useful life of the ad is ensured, without any help of external measuring equipment or test equipment.

The object is achieved by the features of the first claim. The dependent claims show advantageous developments of the found Solution.

The solution is characterized by

• a) that the circuit arrangement contains a control unit which has a Input interface receives a signal that is a measure of the desired Brightness of the LEDs,
• b) that the control unit under the control current of the LEDs Takes into account a degradation value such that the LEDs, despite their degradation behavior, the desired brightness during a reasonable period of use of the advertisement in Generate constant intensity, the control unit Degradation value determined by
• c) that the control unit at least the operating time of the light emitting diodes registered and an indication corresponding to the operating time in one with the control unit connected storage, in which data about the degradation behavior of the LEDs is stored
• d) and that the control unit the degradation value for setting the Control current for the LEDs depending on their registered Operating time according to the data stored in the memory for the Degradation behavior determined and updated at reasonable intervals.

As a further development of the solution found, the control unit can also Information about the electrical power and / or the operating temperature of the LEDs are detected and registered, so that the determination of the Degradation value for setting the control current for the LEDs according to the data stored in the memory for the Degradation behavior not only depending on the registered Operating time, but also depending on the electrical Power and / or the operating temperature of the LEDs can take place.

On the inclusion of electrical power in that of the control unit carried out the degradation value for setting the Control current for the light emitting diodes should only be dispensed with then if that is from the control unit via the input interface  recorded signal for the desired brightness of the LEDs relative is constant, i.e. if one during the period of use of the display Change in the brightness of the LEDs once set not to expect or is not provided.

The inclusion of the operating temperature of the LEDs is therefore one quite a sensible option because aging, i. H. the degradation behavior the light-emitting diodes is temperature-dependent to a considerable degree and with many especially the automotive applications for the proposed Circuit arrangement with an operation in a wide temperature range with frequent temperature fluctuations must be expected.

Furthermore, you can design the solution found so that the Degradation behavior of the data reflecting light-emitting diodes not only in Form of individual discrete and therefore relatively less punctual values in the Storage can be stored, but in the form of a data sheet taken curve or by a formula or by parameters for a specific, but not detailed here, the Degradation behavior descriptive algorithm, whereby the of the Control unit to determine the degradation value in even finer coordination can reflect the actual degradation behavior of the LEDs. In this way, a possibly with the proposed tracking of the Control current associated undercompensation or overcompensation the degradation behavior for the LEDs is avoided even better become.

The main advantage of the solution found is that a constant brightness of the LEDs during a reasonable The service life of the display can be ensured without this external measuring equipment or test equipment are required. In an open timing chain the control current of the light emitting diodes is based on a  Degradation value tracked that the brightness of the LEDs for one Users of the ad despite their physical and therefore unavoidable degradation behavior remains constant. The Degradation value from the control unit based on reasonable intervals of data stored in a memory that shows the degradation behavior flag, updated. The update takes place in that the Control unit as the operating parameters of the LEDs their operating time and preferably also registers the electrical power with which the LEDs have already been operated, and then based on those in the memory stored data that characterize the degradation behavior, which degradation value is typically based on the registered Operating parameters currently results. This update of the degradation value will only be carried out in practice at reasonable intervals in order to Control unit not overly burdened with calculations. To the next update, the control unit saves the determined Degradation value preferably in one assigned to the control unit Memory and performs all desired until the next update Brightness settings for the LEDs based on this currently applicable Degradation value through by the control unit the control current for the Set the LEDs taking this degradation value into account. There the degradation value indicates the extent to which the brightness of the LEDs has already decreased compared to their initial brightness, the Control current for the LEDs is inversely proportional to Degradation value tracked. Prerequisite for a successful Application of the proposed circuit arrangement is, of course, that the Control current is initially set so that a tracking of his Amount is possible without overdriving the LEDs. Of the The working range for the control current of the light-emitting diodes must therefore be chosen in this way be that the limit of the LEDs by tracking the Control current during the planned period of use of the advertisement if possible is not reached. In addition, it is also advantageous that the proposed  Circuit arrangement intercepting the initially strong degradation Burn-in for the LEDs is unnecessary.

The collection and registration of information about the for the determination of the operating parameters required in each case current degradation value, d. H. the Information about the operating time, the electrical power and / or the Operating temperature, can be done with means that are in one with a generic display equipped device are already available, so that the collection and registration of the required information is practical done cost-neutral. This too is for the realization of the found Solution a significant advantage. In practice, the Information about the operating time and the electrical power of the LEDs therefore usually no independently working sensory measuring equipment needed because the control unit through appropriate programming both the duration of the current flow to the LEDs as well as an indication of can register the amount of the control current. Because in most Applications, the operating voltage of the light emitting diodes largely is constant, the control unit can easily the electrical power of the LEDs as soon as they indicate the amount of the Control current can fall back. Because the control current is direct in many cases is provided by the control unit, the control unit only needs by storing a corresponding information in the one assigned to it Memory to register how much of it in a given unit of time provided control current was. Once the control unit does that Behavior of the one provided by her at her exit Control current logged, essential information about the Operating parameters are available to work with them based on the in memory stored data on the degradation behavior of the LEDs the current To determine the degradation value. As a really additional measuring device to the already existing components for the proposed Circuit arrangement is only one near the light emitting diodes  arranged temperature sensor required to give an indication of the Win operating temperature of the LEDs, then this information is fed to the control unit for further processing.

The ones to be stored in the memory connected to the control unit Data for setting the control current of the light emitting diodes can be found at Manufacturing process of the display to be illuminated with the light-emitting diodes get saved. All you need is the manufacturer 's information LEDs in the form of suitable data in the memory of the Circuit arrangement to transmit. This data can be very easily through an appropriate program selection to the exact specification of the Adjust used LEDs so that always optimal for each display Data are used. This also makes the Manufacturing process for a generic display simplified because a depending on the component-specific specification the selection in the Manufacturing process of the display used LEDs can be omitted.

The continuous tracking of the control current of the LEDs now causes a constant brightness of the lighting of the display what a is a significant quality feature of the entire ad. Can also by this measure can be achieved once a harmonic Adjustment ratio of the brightness of all arranged in a vehicle Ads for a reasonable period of use, usually several Years, remains constant. Disharmonies as a result of a different Degradation behavior in the brightness of the LEDs is avoided. Disharmonies could also differ between ads, one Users but simultaneously presented devices arise when an advertisement is illuminated by light emitting diodes and another by a light source that does not lose brightness or does not lose brightness to the extent that light-emitting diodes.

The proposed solution will be briefly explained again using a simplified block diagram. The figure shows a display 1 with light-emitting diodes, the control current of which is set by a control unit 2 . In the present case, the control is to be carried out by a pulse width modulated signal (PWM). Alternatively, the control could of course also be carried out analogously with a continuously running current.

The control unit 2 receives, via an input interface 6, a signal which is a measure of the desired brightness of the light-emitting diodes. The signal received via the input interface 6 can be tapped by a dimmer with which the desired brightness for the light-emitting diodes is set by the user of the display 1 . However, this signal can also be a default value without any problems. B. is transmitted via a CAN data bus from another control device to the device containing the display 1 . In order to react appropriately to this specification for the brightness in the sense of the objective for this invention, the control unit 2 sets the control current taking into account a degradation value.

To determine the degradation value, the control unit 2 detects and registers the operating time of the light-emitting diodes and preferably also their electrical power and - if necessary - their operating temperature. If information on the two operating parameters operating time and electrical power are not recorded directly by the control unit 2 , an operating hours counter 3 can be used as a means for recording the operating time, which determines the current flow duration, and the electrical power can also be recorded using a suitable measuring device 4 will. Furthermore, the control unit 2 can be supplied with the signal of a temperature sensor 5 arranged in the vicinity of the light-emitting diodes. The information about the detected operating parameters is fed to the control unit, where it is continuously accumulated and updated and stored in a memory 7 assigned to the control unit 2 . The control unit 2 now uses the current information about at least one of the detected operating parameters to check which degradation value is assigned to them on the basis of the data stored in the memory 7 about the degradation behavior of the light-emitting diodes, and then makes this degradation value available for a corresponding setting of the control current. Whether the control unit provides the control current directly at its output or via suitable drivers is not significant for the present invention. In practice, the degradation value will not be updated continuously, but only at reasonable time intervals. B. depending on the load of the LEDs, possibly daily or depending on brightness reductions that can be perceived by the human eye as different brightnesses in the respective operating environment of the display.

If the information for the operating time shows that the light-emitting diodes have, for example, already been operated for 1000 hours, the control unit 2 looks in the memory 7 to see which degradation value is assigned to this operating time in accordance with the information from the manufacturer of the light-emitting diodes. In order to compensate for the decrease in brightness that has occurred in the meantime, the amount of the control current to be set must be multiplied by the reciprocal of the degradation value. If, for example, it is found that the brightness of the light-emitting diodes has typically already dropped to 0.7 times the initial brightness due to the operating time, the control unit 2 now increases at its output the pulse duty factor of the PWM signal to the reciprocal of the determined degradation value, which in this example 1 / 0.7 = 1.43 would be.

The memory 7 , in which the data for the operating parameters operating time, electrical power or operating temperature for collecting the degradation value is collected, is to be designed as a non-volatile memory (EEPROM or flash). It is expedient to also store in this memory 7 the data for the degradation behavior of the light-emitting diodes, which can be given by table values, data sheet curves or parameters for algorithms to be executed by the control unit 2 . Which data are to be stored advantageously in which form will have to be decided on a case-by-case basis depending on the application and the available capacity of the memory 7 .

Claims (3)

1. Circuit arrangement for adjusting the brightness of current-controlled light-emitting diodes for illuminating a display ( 1 ), characterized in that

• a) that the circuit arrangement contains a control unit ( 2 ) which receives a signal via an input interface ( 6 ) which is a measure of the desired brightness of the light-emitting diodes,
• b) that the control unit ( 2 ) sets the control current of the light-emitting diodes taking into account a degradation value in such a way that the light-emitting diodes, despite their degradation behavior, generate the desired brightness during an appropriate period of use of the display ( 1 ) in constant intensity, the control unit ( 2 ) the degradation value determined by
• c) that the control unit ( 2 ) registers at least the operating time of the light-emitting diodes and stores an indication corresponding to the operating time in a memory ( 7 ) connected to the control unit ( 2 ), in which data on the degradation behavior of the light-emitting diodes are also stored,
• d) and that the control unit ( 2 ) determines the degradation value for setting the control current for the light-emitting diodes as a function of their registered operating time in accordance with the data stored in the memory ( 7 ) for the degradation behavior and updates them at reasonable time intervals.

2. Circuit arrangement according to claim 2, characterized in that the control unit ( 2 ) also records and records information about the electrical power and / or the operating temperature of the light-emitting diodes, so that the determination of the degradation value in accordance with the stored in the memory ( 7 ) Data for the degradation behavior in addition to the registered operating time can also take place as a function of the electrical power and / or the operating temperature of the light-emitting diodes. 3. Circuit arrangement according to one of the preceding claims, characterized in that the data for the degradation behavior of the light-emitting diodes are stored on the basis of data sheet curves or by means of a formula in the memory ( 7 ).