Method and device for operating a fluorescent tube in an energy saving manner
First Claim
1. An energy-saving operating method for a fluorescent tube, the method comprising the following steps:
- applying heat current to an incandescent filament at one end of the fluorescent tube, in a first operating mode, the incandescent filament being connected to electronic energy-saving circuitry;
applying another heat current to another incandescent filament at an end opposite to said one end of the fluorescent tube, the other incandescent filament being connected to electronic circuitry which is separate from the electronic energy-saving circuitry; and
interrupting the application of the heat current and the other heat current to the incandescent filament and the other incandescent filament, respectively, in a second operating mode;
wherein an operating parameter of the other incandescent filament is monitored, in the first and second operating modes, by monitoring means which are comprised by the electronic circuitry so as to control a time period of application of the other heat current to the other incandescent filament in dependence on a time period of application of the heat current to the incandescent filament by means of the electronic circuitry in response to the operating parameter being monitored.
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Accused Products
Abstract
The invention relates to an energy-saving operating method and an apparatus for energy-saving operation of a fluorescent tube, especially a T5 fluorescent tube. In a first operating mode, heat current is applied to an incandescent filament at one end of the fluorescent tube. Moreover, in the first operating mode, another heat current is applied to another incandescent filament at an end of the fluorescent tube opposite to said one end. The other incandescent filament is connected to energy-saving circuitry. In a second operating mode, the application of the heat current to the incandescent filament and of the other heat current and the other incandescent filament is interrupted. Monitoring means are provided, which are comprised by electronic circuitry, to monitor an operating parameter of the other incandescent filament in the first and second operating modes. The electronic circuitry controls a time period of application of the other heat current to the other incandescent filament in dependence on a time period of application of the heat current to the incandescent filament, in response to the operating parameter being monitored.
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Citations
9 Claims
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1. An energy-saving operating method for a fluorescent tube, the method comprising the following steps:
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applying heat current to an incandescent filament at one end of the fluorescent tube, in a first operating mode, the incandescent filament being connected to electronic energy-saving circuitry;
applying another heat current to another incandescent filament at an end opposite to said one end of the fluorescent tube, the other incandescent filament being connected to electronic circuitry which is separate from the electronic energy-saving circuitry; and
interrupting the application of the heat current and the other heat current to the incandescent filament and the other incandescent filament, respectively, in a second operating mode;
wherein an operating parameter of the other incandescent filament is monitored, in the first and second operating modes, by monitoring means which are comprised by the electronic circuitry so as to control a time period of application of the other heat current to the other incandescent filament in dependence on a time period of application of the heat current to the incandescent filament by means of the electronic circuitry in response to the operating parameter being monitored. - View Dependent Claims (2, 3, 4)
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5. An apparatus for energy-saving operation of a fluorescent tube, especially a T5 fluorescent tube, comprising:
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electronic energy-saving circuitry adapted to be coupled to an incandescent filament at one end of the fluorescent tube to control application of heat current to the incandescent filament; and
electronic circuitry, separate from the electronic energy-saving circuitry, adapted to be coupled to another incandescent filament at an end opposite to said one end of the fluorescent tube to control application of another heat current to said other incandescent filament;
the electronic circuitry comprising monitoring means to monitor an operating parameter of said other incandescent filament so that switch-on/switch-off of the application of the other heat current to the other incandescent filament can be controlled in dependence on the switch-off/switch-on of the application of the heat current to the incandescent filament by means of the electronic circuitry in response to the operating parameter being monitored.
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- 6. The apparatus as claimed in clam 5, wherein the monitoring means comprise means for monitoring a frequency of a maintaining voltage applied to the other incandescent filament.
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8. An apparatus for coupling to an incandescent filament of a fluorescent tube, comprising electronic circuitry for controlling the application of heat current to the incandescent filament in dependence on the operating mode, the electronic circuitry comprising monitoring means to monitor a frequency of a maintaining voltage at the incandescent filament so that the application of heat current to the incandescent filament can be switched on in a first mode of operation and interrupted in a second mode of operation by means of the electronic circuitry in response to the frequency being monitored.
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9. (Canceled)
Specification