Electric lamp and discharge devices: systems – Current and/or voltage regulation
Reexamination Certificate
2002-06-26
2003-12-02
Philogene, Haissa (Department: 2821)
Electric lamp and discharge devices: systems
Current and/or voltage regulation
C315S224000, C315S2090SC, C315SDIG005, C315SDIG007, C315S307000
Reexamination Certificate
active
06657403
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a circuit arrangement for operating a fluorescent lamp, comprising a half-bridge arrangement whose output signal can be fed to a load circuit, it being possible to connect a fluorescent lamp with filament electrodes to the load circuit, a preheating device for preheating the filament electrodes of the fluorescent lamp, and a power determining device for determining a preheating power value that represents a measure of the power that is converted in the filament electrodes during preheating. It also relates to a corresponding method for operating a fluorescent lamp.
BACKGROUND ART
The present invention addresses the problem that fluorescent lamps are produced which have different electrical data in the same dimensions or same versions. For example, one type is optimized for the converted electric power, and therefore for the luminous flux output by the lamp, while another type is directed toward high efficiency and in this case converts substantially less electric power. Since it is possible as regards their dimensions to interchange corresponding lamp types with one another in a given luminaire, operating devices have been developed that automatically recognize the type of lamp respectively being used and set the correct operating parameters. Such a circuit arrangement for automatic recognition of the type of lamp being used is known from the Energy Savings Company; the essential part of this is illustrated in FIG.
1
. In this case, a half-bridge arrangement that includes the two switches S
1
and S
2
is driven by an intermediate circuit voltage that is usually a DC voltage of the order of magnitude of 400 V. The midpoint of the half-bridge arrangement is connected to a lamp inductor L
S
that serves for current limitation after ignition of the lamp LA. Two capacitors C
K1
, C
K2
serve as coupling capacitors. In addition to the already mentioned lamp inductor L
S
, a load circuit includes a resonance capacitor C
R
. They serve to generate the voltage required to ignite the lamp.
The lamp LA comprises two filament electrodes W
1
, W
2
, which are preheated as follows: together with an inductor L
1
of a preheating circuit VK, the lamp inductor LS forms a transformer. As long as the lamp LA has still not yet been ignited, the preheating circuit VK can be supplied with energy on this path via the lamp inductor. Also arranged in the preheating circuit VK is a switch S
3
that is closed for the purpose of switching on the preheating. With the switch S
3
closed and the lamp LA not ignited, the inductor L
1
drives a current through the preheating circuit VK. Said current flows through an inductor L
2
which, as primary inductor, forms a transformer with two further inductors L
21
, L
22
. As soon as current flows through the inductor L
2
, current also flows through the inductors L
21
and L
22
, thus producing through the filament electrodes W
1
and W
2
a flow of current that results in heating of the filament electrodes W
1
, W
2
, that is to say preheats them. The level of the currents I
21
, I
22
is a function of the impedance of the filament electrodes W
1
, W
2
. The currents I
21
, I
22
are at a fixed ratio to the current I
1
of the preheating circuit VK. It is possible by measuring the voltage drop U
R1
across a measuring shunt R
1
to determine the current I
1
, and thus to establish which type of lamp is being used in the circuit arrangement. To control the half-bridge arrangement automatically, the voltage U
R1
dropping across the resistor R
1
is fed to a processor that sets the operating parameters in accordance with the type of lamp determined. After the preheating of the lamp LA, the switches S
1
, S
2
of the half-bridge arrangement are activated at a suitable frequency to raise the voltage present across the lamp so high as a consequence of the resonance circuit formed by the lamp inductor L
S
and the resonance capacitor C
R
that the lamp LA is ignited. After the ignition of the lamp LA, switches S
1
, S
2
of the half-bridge arrangement are operated at a frequency that corresponds to the normal operation of the lamp. As is evident to the person skilled in the art, the circuit arrangement illustrated in
FIG. 1
uses an actively switched preheating circuit VK.
DISCLOSURE OF THE INVENTION
The object of the present invention consists in developing a circuit arrangement of the type mentioned at the beginning so as to permit automatic recognition of the type of lamp being used in the circuit arrangement even in the case of circuit arrangements having a preheating circuit not actively switched. A corresponding method for operating a fluorescent lamp is also to be made available.
These objects are achieved by means of a generic circuit arrangement in the case of which a power determining device can be used to determine the power flowing into the load circuit during preheating.
The object in terms of method is achieved by means of a method in which the first step is to preheat a fluorescent lamp while feeding energy from a half-bridge arrangement into a load circuit, the fluorescent lamp, which has filament electrodes, being connected to a load circuit. In this case, a preheating power value is determined that represents a measure of the power flowing into the load circuit during preheating. This can be preferable the current flowing through the half-bridge arrangement. One of at least two sequences for operating the circuit arrangement is selected as a function of the determined preheating power value.
The solutions according to the invention are based on the finding that in the case of circuit arrangements having a preheating circuit that is not actively switched the power flowing into the load circuit is correlated with the type of lamp being used in the circuit arrangement, as long as the lamp is not ignited. In particular, it is possible to work out the portions converted in the load circuit, since the values of the components are known and constant. To this extent, the power flowing into the load circuit is essentially a function of the impedance of the filament electrodes, and so it is possible to deduce which type of lamp is being used from the power flowing into the load circuit. The suitable operating parameters can then be set as a function of the type of lamp established. In contrast with the known circuit arrangement illustrated in
FIG. 1
, instead of using preheating inductors it is also possible to preheat in the case of circuit arrangements according to the invention with the aid of preheating resistors or by constructing a resonance circuit. The range of preheating options is substantially widened to this extent. In the case of the circuit arrangement according to the invention, preheating, ignition and normal operation of the lamp are performed via one and the same circuit arrangement, solely by varying the frequency with which the switches of the half-bridge arrangement are opened and closed. The current flowing in one half-bridge arm is advantageously evaluated by the power determining device. It is thereby possible to determine the power flowing into the load circuit in a particularly simple way, for example by using a measuring shunt or an inductor.
The circuit arrangement preferably further comprises a sequence control system that selects one of at least two sequences for operating the circuit arrangement, doing so as a function of the preheating power value. It can be ensured by this measure that the circuit arrangement is operated automatically, that is to say without interaction of an operator, with the aid of operating parameters that correspond to the type of lamp established.
The at least two sequences for operating the circuit arrangement can comprise operating modes of the circuit arrangement for preheating and/or igniting and/or normal operations of the fluorescent lamp or measures in the event of a defective or unused fluorescent lamp.
This ensures, firstly, that in the case of a recognized type of fluorescent lamp the lamp is preheated, ignited and operated as normal in a suit
Schemmel Bernhard
Weirich Michael
Alemu Ephrem
Patent - Treuhand Gesellschaft fur Elektrische - Gluhlampen mbH
Philogene Haissa
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