DE10329367A1 - LED chain for signaling arrangement, has converter circuit which forces predetermined current through LED chain independent of external influences - Google Patents

Abstract

The converter circuit (8) is connected in a path of the LED chain (LKR) consisting of at least one LED (9). The converter causes an uniform current flow through the LED chain independent of external influences, e.g. ambient temperature, the temperature of the LED (9), temperature of the LED chain, temperature of the circuit board carrying the converter circuit, or luminance. The luminance depends on environment or on radiation emitted by the LED chain. Independent claims are also included for a LED array and a LED module.

Description

The The invention relates to an LED chain with at least one LED LED array and an LED module.

Usually are such LED chains or LED arrays connected to a power source during operation, that supplies the LED chain or the LED array with an operating current, where operating current or operating voltage are fixed.

often is for an LED chain or an LED array a lower limit for the generated Radiation specified that must not be undercut. This applies particularly when used in signaling systems, such as Traffic lights or train signals. For traffic safety reasons is here on compliance with the prescribed lower limits, the usually refer to the light output, pay special attention.

by virtue of signs of aging decrease with LEDs and thus with LED chains or arrays of the type mentioned with increasing operating time the radiation yield. To ensure compliance with specified lower limits during the to ensure the entire lifespan of an LED array or chain, is e.g. an oversizing or an operation with an elevated Operating voltage required. These measures are so too dimensioned that even at the worst If there is sufficient light output above the end of the service life predetermined lower limit is reached. It is accepted that significantly more light is generated at the start of operation than for the specified one Function of the LED array or the LED chain would be required. By an oversizing an LED chain or an LED array on the one hand increase Manufacturing costs, on the other hand, leads to an increased operating voltage to higher Operating costs and possibly accelerated aging.

It is therefore an object of the invention, an LED chain and an LED array to create the one in long-term operation as possible has constant radiation power. Furthermore, an LED module be developed with such an LED array.

This Task is with an LED chain with the features of the claim 1, with an LED array with the features of claim 6 or with an LED module with the features of the claim 11 solved.

advantageous Further developments and refinements result from the dependent Claims.

Around constant radiation output even in long-term operation Ensure LED chain to be able have been expensive microprocessors or special LED driver chips used the current through the LED chain or through the LED array regulate. These are microprocessors or LED driver chips These are separate components that are electrical with the LED chain or the LED array. This results in a overall expensive arrangement that over the LED chain or the LED array adds additional space for the Microprocessor or the LED driver chip claimed.

The In contrast, invention is based on the idea in the path of the LED chain to provide a converter circuit which is independent of an external influencing variable impresses predetermined current through the LED chain. The LED chain according to the invention allows waiving a separate driver arrangement. This allows an overall much cheaper Create arrangement. The space requirement is also minimized.

advantageously, Such an LED chain must practically not exceed the minimum requirements at the start of operation operate. This results in a low one from the start Energization leading to a higher LED chain life. moreover is the operation of the module due to the lower electrical Power requirements cheaper.

The tracking The current supply ensures that the minimum optical requirements while independent of the entire lifespan from the external influences essential reliable than conventional ones LED chains with fixed values for operating voltage or operating current be respected.

The Converter circuit is capable of being independent of that in the field of LED chain prevailing ambient temperature or brightness the given To keep current through the LED chain constant. In particular, the Converter circuit capable of a predetermined, defined Electricity independent from these influencing factors into the Emboss LED chain.

It it is irrelevant whether the brightness is due to the environment or the radiation emitted by the LED chain is conditional. This can advantageously both external environmental influences as also the radiation power that is reduced in the course of aging be balanced.

at a conventional LED chain would go along with a reduced radiation due to signs of aging, also reduce the current flowing through the LED chain. This physically conditioned process is carried out by the converter circuit equalized, because the current once given by independent of external circumstances the LED chain is kept constant.

at A preferred embodiment of the invention has the converter circuit a detection element with a resistor connected in series as well as a transistor with a resistor in a first main branch and with the LED chain in the second main branch, the node between the detection element and the resistor to the base terminal of the transistor connected is.

at the detection element can be a photodiode which for changes the brightness, be it from the environment or from the LED chain emitted radiation, responds. It can also be a temperature sensitive Act component, especially an NTC resistor, which the ambient current influencing the current of an LED chain. Also the temperature of one or more LEDs or one of the LED chains circuit board carrying the converter circuit can be included here become. Furthermore, within the scope of the invention as a detection element uses any device that is a controlled current source become. For example, the current of the LED chain can be controlled by means of a voltage Power source by changing the Control voltage, for example by feedback, manual change or a control loop.

By the resistor connected in series with the detection element the base potential of the transistor and corresponding to its base current dependent on of the current flowing through the detection element is changed. In same way changes the current through the LED chain, which at an initial point in time, for example, the start of operations by the ratio of two resistors and the initial conditions for the detection element is preset. Take the brightness, for example the environment, so decreases with a photodiode as a detection element the one flowing through the photodiode Current, the base potential of the transistor becomes larger or the base current is smaller. Depending on the current amplification of the transistor, this also reduces the current through the LED chain.

The LED array according to the invention has an LED chain with the features described above, the hereinafter referred to as the reference LED chain. Furthermore points the LED array at least one further LED chain with at least one LED, wherein the at least one further LED chain of the arrangement from the Converter circuit and the reference LED chain is connected in parallel.

The Providing several LED chains connected in parallel enables large-area signal systems. About that also increased the redundancy of the signaling system because if a single LED chain fails the signaling over the other existing LED chains is possible.

In Another advantageous embodiment of the invention is the reference LED chain and one for each additional LED chain Control arrangement connected in series. The control arrangements serve to adjust the currents in the associated LED chains according to one given current distribution. This prevents the currents in the individual LED chains due to different forward voltages of the individual LEDs or a short circuit LED deviate from the specified target current. Furthermore it is possible by means of the control arrangement, the in each LED chain impress the same current, so that overall a homogeneous radiation characteristic over the LED array results.

Preferably this control arrangement each includes a current amplification circuit for impressing a predetermined operating current in the LED chains. The current amplification circuit can control inputs to regulate the respective current in the LED chain, where the control inputs preferably connected to each other and at the same potential lie.

In a preferred embodiment form the control arrangement of the reference LED chain and each control arrangement of the further LED chains has a current mirror. This enables the reflection of the regulated or kept constant current by the Reference LED chain to every other LED chain of the LED array. Thus the Use of expensive microprocessors or special LED driver chips for every LED chain.

It It is also irrelevant whether the number of LEDs in the LED chains is the same or different. A different number of LEDs in respective LED chains are switched by the current mirror circuit balanced so that the same current through each LED chain flows like through the reference LED chain.

By dimensioning once or using a potentiometer in the current control part of the circuit, a specific, desired output brightness, ie a specific LED forward current, can be set. Changes due to the Aging of the LEDs and their brightness, the current is readjusted by the converter circuit and the control arrangements. The circuit can be dimensioned so that a certain maximum current is not exceeded.

in the Within the scope of the invention, an LED module is also provided which an LED array according to the invention and includes a power supply unit. Supply connections of the LED arrays are provided with supply connections on the output side Power supply unit connected.

The The invention is particularly for use in signaling systems such as traffic lights or railway signal systems. It is particularly advantageous here that in the invention an almost constant radiation power and thus compliance with prescribed lower limits for radiation power for the guaranteed entire life is without oversizing or excessive radiation generation is required at the beginning of life.

Further features, advantages and expediencies of the invention result from the exemplary embodiments described below in connection with the 1 and 2 , Show it:

1 a schematic block diagram of an embodiment of an LED module according to the invention, and

2 a schematic diagram of an embodiment of an LED array according to the invention.

This in 1 Shown block diagram of the embodiment of an LED module according to the invention 1 includes an LED array 2 and a power supply unit 3 (Power supply).

The power supply unit 3 is connected to a generally available power source, for example a public power grid (not shown). The power supply unit 3 converts the input voltage so that at the supply connections 4 . 5 a voltage is available to operate the LED array 2 suitable is. To do this, it is usually necessary to transform down the voltage applied on the input side and to rectify it or smooth the operating current.

typically, the forward voltage is one individual LED in the range of 1 volt to 5 volts, so depending on Number of LEDs in the LED chains a voltage between 5 and 30 Volts, i.e. suitable for operating the LED array in the low-voltage range is. Depending on the type and number of LEDs, operating currents can be up to several amperes flow. This applies in particular to LED modules for signaling systems, which too in daylight and unfavorable light must be visible from afar and a corresponding large one Have number of LEDs.

The LED array 2 has a reference LED chain LKR with LEDs 9 as well as LED chains LK1 ... LKn with LEDs 10 on. In the present exemplary embodiment, the LED chains LK1 ... LKn are connected on the anode side. In order to achieve an optimal current distribution on the individual LED chains, a current distribution circuit is used 7 intended. A control arrangement RA1 ... RAn is connected in series to each LED chain. A control arrangement LAR is also connected in series to the reference LED chain LKR. The control arrangements serve to divide the currents in the LED chains according to a predetermined current distribution. The rules are in connection with the 2 explained in more detail.

A converter circuit is still in the path of the reference LED chain LKR 8th provided in the present between the supply connection 4 and the anode connection of a first LED 9 of the LED chain LKR is connected. The converter circuit 8th also shows a direct connection to the other supply connection 5 on.

A possible implementation of the converter circuit 8th comes from 2 out. The converter circuit 8th has a transistor T, which in the present case is designed as a pnp transistor. The collector of transistor T is with the anode of an LED 9 the reference LED chain LKR connected. The emitter is connected to the supply connection via a resistor R. 4 connected. Between the supply connections 4 . 5 a series circuit comprising a detection element DE, which is designed as a photodiode, for example, and a resistor RDE connected in series with it. The photodiode DE is on the cathode side with the supply connection 4 and connected on the anode side to the resistor RDE. The base of the transistor T is connected to the node between the photodiode DE and the series resistor RDE.

The photodiode DE and the resistor RDE form a voltage divider, a voltage being set at the node depending on the radiation detected by the photodiode DE. A voltage drops across the resistor RDE, which is proportional to the photocurrent generated by the photodiode DE and thus the brightness of the surroundings or the radiant power of the LEDs of the LED array 2 depends. It is through the ref renz LED chain LKR flowing current inversely proportional to the generated photocurrent or the detected radiation instead of the brightness-sensitive detection element DE, which in the 2 is designed as a photodiode, a temperature-dependent element, for example an NTC resistor, can also be used. The control then does not depend on the brightness, but instead on the ambient temperature of the LED module.

The control arrangements RAR-RA1, RAR-RA2, ... RAR-RAn each form a current mirror. For this purpose, the control arrangement RAR, which lies in the path of the reference LED chain LKR, has an npn transistor TR connected as a diode and a resistor RR located in the emitter branch, which is connected to the supply connection 5 connected is.

The control arrangements RA1 ... RAn are each constructed identically and have an npn transistor T1 ... Tn and a resistor R1 ... Rn located in the emitter branch. The collectors of the transistors T1 ... Tn are each connected to the cathode of a respective LED 10 of the LED chains LK1 ... LKn connected. The base connections of the transistors T1 ... Tn are each connected to the base connection of the transistors TR of the control arrangement RAR.

By means of the current mirror, each of the LED chains LK1 .. LKn is impressed with the current flowing through the reference LED chain LKR. This happens regardless of how many LEDs 10 are present in a respective LED chain.

The current flowing through the reference LED chain can be adjusted with a potentiometer so that the specified output brightness of the LEDs 9 . 10 established. Changes due to the aging of the LEDs 9 . 10 the brightness, the current is generated by means of the converter circuit 8th and the current level is readjusted automatically. A means can also be provided in the path of the reference LED chain so that a certain maximum current is not exceeded.

Claims (12)

LED chain (LKR) with at least one LED ( 9 ), with a converter circuit (in the path of the LED chain (LKR) ( 8th ) is provided that impresses a predetermined current through the LED chain (LKR) regardless of an external influencing variable. LED chain according to claim 1, characterized in that the on the converter circuit ( 8th ) Influencing external influencing variable a temperature, in particular the ambient temperature, the temperature of the LED ( 9 ) or the temperature of a circuit board carrying the LED chain or the converter circuit, or a brightness. LED chain according to claim 2, characterized in that the brightness by the environment or by the led chain (LKR) emitted radiation is conditional. LED chain according to one of claims 1 to 3, characterized in that the converter circuit ( 8th ) has a detection element (DE) with a series-connected resistor (RDE) and a transistor (T) with a resistor (R) in a first main branch and with the LED chain (LKR) in the second main branch, the node between the detection element (DE) and the resistor (RDE) is connected to the base terminal of the transistor (T). LED chain according to claim 4, characterized in that the detection element (DE) is a photodiode, a temperature sensitive Component, in particular an NTC resistor, or a controlled current source is. LED array with a reference LED chain (LKR) according to one of the preceding claims, characterized in that the LED array ( 2 ) at least one further LED chain (LK1 ... LKn) with at least one LED ( 10 ) and the series arrangement of the converter circuit and the reference LED chain (LKR) is connected in parallel. LED array according to claim 6, characterized in that to the reference LED chain (LKR) and any other LED chain (LK1 ... LKn) each a control arrangement (RAR, RA1 ... RAn) in series is switched, the control arrangements (RAR, RA1 ... RAn) for Setting the currents in the associated LED chains (LK1 ... LKn) according to one given current distribution. LED array according to claim 7, characterized in that the control arrangements (RA1 ... RAn) each have a current amplification circuit for impression a current into the other LED chains (LK1 ... LKn). LED array according to claim 8, characterized in that the control arrangement (RAR) of the reference LED chain (LKR) and each Control arrangement (RA1 ... RAn) of the other LED chains (LK1 ... LKn) one Form current mirror. LED array according to one of claims 6 to 9, characterized in that that the number of serial in an LED chain (LKR, LK1 ... LKn) interconnected LEDs is different. LED module, characterized in that the LED module ( 1 ) an LED array ( 2 ) according to one of claims 5 to 8. LED module according to claim 11, characterized in that the LED array ( 2 ) Supply connections ( 5 ) with which a power supply unit ( 3 ) is connected on the output side.