AT15941U1 - Operating device for a lamp with evaluation unit - Google Patents

Abstract

It is an operating device for lighting means (2), comprising: - a first input terminal (L) and a second input terminal (N), by means of which the operating device (1) is connectable to a supply voltage source, - a third input terminal (PE), by means of the operating device (1) is protected against electric shock, - and an evaluation unit (4) wherein there is a detection of the applied voltage (U1) between the second input terminal (N) and the third input terminal (PE) and the evaluation unit (4) , which preferably analyzes the detected voltage (U1) via an AD converter, in particular calculates features of the detected voltage (U1).

Description

description

OPERATING DEVICE FOR A LUMINAIRE WITH AN EVALUATION UNIT The invention relates to an operating device according to the preamble of claim 1 and a method for determining the type of supply voltage according to claim 10.

TECHNICAL FIELD In lighting systems that are intended, for example, to illuminate larger buildings or building complexes, the implementation of an emergency lighting operation is necessary for safety reasons. This means that in the event of an emergency, at least some of the system lights must provide a certain amount of basic lighting, which enables people to orient themselves safely and, if necessary, to leave the building quickly. This is especially true in the event that the general power supply to the lights is impaired due to the emergency. Whereas in the past special luminaires were used exclusively as emergency luminaires for this purpose, it is now mainly intended to use normal luminaires that function in the same way as all luminaires during normal operation, but also provide the aforementioned emergency lighting if necessary.

In order to be able to provide these so-called emergency lights the energy required to maintain the basic lighting, local solutions based on rechargeable batteries or batteries and facilities for central emergency lighting are known. In the case of a central emergency light supply, it is provided, for example, that instead of the usual supply voltage in the form of an AC voltage, the lights provided for emergency operation receive a supply voltage in the form of a DC voltage. This change in the power supply is recognized by the corresponding lights or their operating devices, which then initiate the special emergency operation.

PRIOR ART [0004] EP 0 939 476 B1 describes a device with a bridge rectifier which is switched into a safety power supply branch in a first state of emergency operation. The device contains switching elements that only connect certain lights intended for emergency operation to the supply voltage present at the input only if the supply voltage is a constant or only positive half-wave DC voltage, but not if the supply voltage is an AC voltage. A precise differentiation of different supply voltages in the DC and AC voltage range is not possible.

[0005] DE 10 2007 040 555 A1 also discloses a method and a circuit for identifying the type of voltage Vmains, which is present in two of three different temporal voltage waveforms. The circuit contains a bridge rectifier, from which two measuring circuits originate, positive current components flowing in one measuring circuit and negative current components flowing in the other. The type of voltage applied is identified by an evaluation circuit part.

It has now been shown that in certain situations, the solutions known from the prior art do not allow clear identification of the type of supply voltage supplied. This danger arises in particular if the output-side load of the operating device is very low, for example if the lamps operated by the operating device are operated with low power, for example at a low dimming level. In this case, the profile of the rated supply voltage in the case of an AC voltage approximates the profile of a quasi-DC supply voltage, since the voltage ultimately evaluated in the case / 9 due to the very low output powers

AT15 941 U1 2018-10-15 Austrian

Patent office of an AC supply voltage no longer reaches a zero crossing.

According to exemplary embodiments, it is provided that an operating device enables improved detection of the type of supply voltage.

The present invention therefore provides an operating device and a method that takes this situation into account and increases the reliability of the detection of the type of supply voltage.

PRESENTATION OF THE INVENTION It is the object of the present invention to provide an operating device which is improved compared to the prior art and which further improves reliable identification of the type of a supply voltage provided in such a way that even in the situations described above, there is reliable separation between the different supply voltage types can be distinguished.

[0010] According to a first aspect of the invention, an operating device for lamps,

a first input connection and a second input connection, by means of which the operating device can be connected to a supply voltage source,

a third input connection, by means of which the operating device is protected against electric shocks,

and an evaluation unit, wherein the applied voltage is detected between the second input connection and the third input connection and the evaluation unit has, preferably via an AD converter, analyzes the detected voltage, in particular calculates features of the detected voltage.

[0011] The evaluation unit can analyze the presence of an overvoltage, in particular by reverse polarity, an amplitude value, the type of supply voltage, an average value of the supply voltage present and / or information modulated onto the supply voltage.

At least one capacitor, preferably a Y capacitor, can be arranged between the second input connection and the third input connection and the detection of the applied voltage can take place across the capacitor or between two capacitors.

The amplitude of the applied voltage can be compared with a threshold value of a comparator and, depending on the threshold value comparison, the type of supply voltage, in particular whether an AC, DC or pulsed DC voltage is present, can be determined.

In addition, further detection means can be arranged, which can be arranged between the first input connection and a ground potential of the operating device and a first voltage divider for generating a first measurement signal are arranged and between the second input connection and the ground potential, a second voltage divider for generating a second measurement signal be arranged and that the further detection means for supplying the two measurement signals can be connected to the evaluation unit. The evaluation unit can contain means for forming a difference signal from the first measurement signal and the second measurement signal.

If there is a small dimming value, preferably <10%, the evaluation unit can only consider an evaluation of the supply voltage based on the detection between the second input connection and the third input connection.

If there is a large dimming value, preferably> 10%, the evaluation unit can only take into account an evaluation of the supply voltage on the basis of the further detection means.

Alternatively, the evaluation unit can use the evaluation of the supply voltage

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Consider the patent office of the detection between the second input connection and the third input connection and the evaluation of the supply voltage using the further detection means.

Furthermore, a method for determining the type of supply voltage, in particular for an LED, with the following steps:

- Detection of the applied voltage between a second input connection and a third input connection

- analysis of the applied voltage,

- Determine the type of supply voltage based on the analysis of the detected applied voltage.

The invention will now be described with reference to the figures. Show:

Fig. 1 [0021] Fig. 3 shows an embodiment of the operating device according to the invention, a further embodiment of the operating device according to the invention, a further embodiment of the operating device according to the invention.

1, an operating device 1 for at least one lamp 2, in particular an LED, an LED path or a gas discharge lamp, with

a first input connection L and a second input connection N, by means of which the operating device 1 can be connected to a supply voltage source,

a third input connection PE, by means of which the operating device 1 is protected against electric shocks,

- and an evaluation unit 4, whereby between the second input connection N and the third input connection PE or between the first input connection L and the third input connection PE the present voltage U1 is detected and the evaluation unit 4, preferably via an AD converter, detects the voltage Voltage U1 analyzed, in particular features of the detected voltage U1 calculated, shown.

[0024] The AD converter can be integrated in the evaluation unit 4 or can be arranged externally.

The operating device 1 may have an input filter 7 consisting of a capacitor and a first inductance at the first input connection L and a second inductance at the second input connection N, a rectifier 5, preferably a bridge rectifier, which rectifies the supply voltage Umains. This rectifier 5 can be connected to a power correction circuit 3 and / or half-bridge circuit with a resonant circuit 3.

The evaluation unit 4 can analyze the presence of an overvoltage, in particular by reverse polarity, the type of the supply voltage Umains, an amplitude value of the supply voltage Umains, an average value of the supply voltage Umains present and / or information modulated onto the supply voltage Umains. Modulated information can, for example, be dimming commands. The analysis of the supply voltage Umains can be done by detecting the voltage U1.

At least one capacitor 6, preferably a Y capacitor, can be arranged between the second input terminal N and the third input terminal PE and the detection of the applied voltage U1 across the capacitor 6, or between two capacitors 6.

The amplitude of the applied voltage U1 can be compared with a threshold value of an integrated comparator and the type of supply voltage Umain, in particular whether an AC, DC or pulsed DC voltage is present, can be determined as a function of the threshold value comparison. When a DC supply voltage Umain or a pulsed DC voltage is detected, the operating device 1 can set emergency lighting operation and / or deactivate the dimming functionality of the operating device 1 and / or a specific one

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Set dimming value. When an AC supply voltage Umain is detected, the operating device 1 can have full functionality.

In addition, further detection means 9 can be arranged, which are arranged between the first input terminal L and a ground potential of the operating device 1 and a first voltage divider 8 can be arranged for generating a first measurement signal U3 and a second between the second input terminal N and the ground potential Voltage divider 8a for generating a second measurement signal U2 can be arranged and that the further detection means 9 for supplying the two measurement signals U2, U3 can be connected to the evaluation unit 4.

The evaluation unit 4 can contain means for forming a difference signal from the first measurement signal U3 and the second measurement signal U2.

When there is a small dimming value, preferably <10%, the evaluation unit 4 can only take into account an evaluation of the supply voltage Umains on the basis of the detection between the second input connection N and the third input connection PE.

If there is a large dimming value, preferably> 10%, the evaluation unit 4 can only take into account an evaluation of the supply voltage Umain using the further detection means 9.

Alternatively, the evaluation unit 4 can take into account the evaluation of the supply voltage Umain on the basis of the detection between the second input connection N and the third input connection PE and the evaluation of the supply voltage Umain on the basis of the further detection means 9. If identical results of the two evaluations are available, the respective results can be used. If the further detection means 9 has a different result than the detection between the second input connection N and the third input connection PE, the result is used which has recognized an AC supply voltage.

For example, the further detection means 9 can detect a DC supply voltage at a small dimming level, in particular at a dimming level <10%, although an AC supply voltage is present, due to the problem that was described in the introduction to the application. However, the detection between the second input connection N and the third input connection PE would correctly detect an AC supply voltage and the evaluation unit 4 would use the result of the detection between the second input connection N and the third input connection PE.

In a further scenario, the further detection means 9 could detect an AC supply voltage and the detection between the second input connection N and the third input connection PE could detect a DC supply voltage. This could occur if the protective conductor wire had not been connected to the third input connection PE. The evaluation unit 4 would then use the result of the further detection means 9. Alternatively, however, the dimming functionality of the operating device 1 could be restricted or the operating device 1 switched off in this scenario, since a missing protective conductor wire causes the light from the lamps 2, v. a. at low dimming levels <10%, and the control gear 1 would not be adequately protected against electric shocks.

Furthermore, a corresponding method for determining the type of supply voltage Umain, in particular for an LED 2, has the following steps:

- Detection of the applied voltage U1 between a second input connection N and a third input connection PE

- Analysis of the detected applied voltage U1,

- Determination of the type of supply voltage Umain based on the analysis of the detected applied voltage U1, disclosed.

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Patent Office [0037] Alternatively, a voltage drop of the third input connection PE can be evaluated against a ground potential. A voltage drop across a capacitor or between two capacitors can be detected against the ground potential. In particular, it can be one or more Y capacitors. This variant can alternatively be used instead of the evaluation of the voltage drop between the second input connection N and the third input connection PE on all embodiments of FIGS. 1 to 3.

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Claims (10)

Expectations 1. control gear for illuminant (2), comprising: a first input connection (L) and a second input connection (N), by means of which the operating device (1) can be connected to a supply voltage source, a third input connection (PE), by means of which the operating device (1) is protected against electric shocks, - And an evaluation unit (4), characterized in that between the second input connection (N) and the third input connection (PE) the applied voltage (U1) is detected and the evaluation unit (4), preferably via an AD converter, detects it Voltage (U1) analyzed, in particular features of the detected voltage (U1) calculated. 2. Operating device according to claim 1, characterized in that the evaluation unit (4) the presence of an overvoltage, in particular by polarity reversal, the type of supply voltage (Umains), an amplitude value, an average value of the applied supply voltage (Umains) and / or one on the supply voltage (Umains) modulated information analyzed. 3. Operating device according to claim 1 or 2, characterized in that at least one capacitor (6), preferably a Y capacitor, is arranged between the second input connection (N) and the third input connection (PE) and the detection of the applied voltage (U1) over the capacitor (6) or between two capacitors (6). 4. Operating device according to claim 3, characterized in that the amplitude of the applied voltage (U1) is compared with a threshold value of a comparator and, depending on the threshold value comparison, the type of supply voltage (Umains), in particular whether there is an AC, DC or pulsed DC voltage , certainly. 5. Operating device according to claim 1, characterized in that additional detection means (9) are arranged, which is arranged between the first input terminal (L) and a ground potential of the operating device (1) and a first voltage divider (8) for generating a first measurement signal (U3) and a second voltage divider (8a) for generating a second measurement signal (U2) is arranged between the second input terminal (N) and the ground potential and that the further detection means (9) for supplying the two measurement signals (U2, U3) are connected to the evaluation unit (4). 6. Operating device according to claim 5, characterized in that the evaluation unit (4) contains means for forming a difference signal from the first measurement signal (U3) and the second measurement signal (U2). 7. Operating device according to claim 5, characterized in that the evaluation unit (4), in the presence of a small dimming value, preferably <10%, only evaluates the supply voltage (Umains) on the basis of the detection between the second input connection (N) and the third input connection ( PE) is taken into account. 6.9 AT15 941 U1 2018-10-15 Austrian Patent Office 8. Operating device according to claim 7, characterized in that the evaluation unit (4), in the presence of a large dimming value, preferably> 10%, only takes into account an evaluation of the supply voltage (Umains) using the further detection means (9). 9. Operating device according to claim 5, characterized in that the evaluation unit (4) the evaluation of the supply voltage (Umains) based on the detection between the second input connection (N) and the third input connection (PE) and the evaluation of the supply voltage (Umains) using the further detection means (9) are taken into account. 10. A method for determining the type of supply voltage (Umains), in particular for an LED (2), comprising the following steps: a) Detection of the applied voltage (U1) between a second input connection (N) and a third input connection (PE) b) analysis of the detected applied voltage (U1), c) Determining the type of supply voltage (Umains) based on the analysis of the detected applied voltage (U1). Two sheets of drawings 7.9 AT15 941 U1 2018-10-15 Austrian Patent Office Fig. 1 V, Fig. 2 8.9 AT15 941 U1 2018-10-15 Austrian Patent Office Fig. 3 9.9