NL8402293A - LIGHTING SYSTEM. - Google Patents

Description

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Lighting system. , "* ~ IT | t ^ JULY984

The invention relates to a yer light pη ^ τπ- .. system, comprising a mains-converting rectifier unit, a high-pressure lamp with a high-pressure sodium lamp or a high-pressure metal halide lamp, preferably low power, and a current-limiting ballast element and, if necessary, an ignition device. The lighting system according to the invention reduces the tendency of the lamps to go out and thereby makes it possible to use high-pressure sodium lamps or high-pressure metal halide lamps also of low power in a wider area.

It is known that the high-pressure sodium lamps or high-pressure metal halide lamps supplied with a nominal current of less than 1A are relatively difficult to switch on, the voltage peak required for reconnection is high and the gas discharge when using a supply voltage extinguishes easily with a frequency of 50 to 60 Hz. For these reasons, attempts have recently been made to supply these lamps, and in particular their miniaturized versions, either with a high-frequency alternating current or with rectified high-frequency pulses. Such solutions are described, for example, in U.S. Patent 4,170,746 and in Russian Patent 496,700. When the high pressure lamp is supplied with high frequencies or with pulses, the frequency should be chosen appropriately, since unfavorable values of the frequency may cause audible disturbances in the lamp and the upstream units, on the other hand, harmful resonances. phenomena in the light body of the lamp can occur, which can lead to harmful properties of the lighting system. For such lamp embodiments, it is typical that the upstream units have a relatively complicated design, which adversely affects the operational reliability as well as the costs of the entire lighting system.

The object of the invention is to provide a lighting system, in which the property of the high-pressure lamps, namely the high-pressure sodium lamp or the high-pressure metal halide lamp, can be extinguished easily extensively, whereby the dimensions are reduced. and the power consumption of the lamps can be reduced relative to the known solutions.

The invention is based on the insight that, when supplying the high-pressure sodium lamp or the high-pressure metal halide lamp, it is not necessary to use the hitherto known high-frequency switching systems, but a rectifier and a downstream inductive filter. rectifier and the filter, if necessary, an ohmic ballast can be provided to limit the current. Since the rectifier is connected to the AC mains, the proposed embodiment means that the high pressure lamp is powered with a filtered DC current.

The inductive filter used minimizes the ripple of the current, which reduces the tendency of the lamp to go out.

According to the invention, the lighting system of the type mentioned in the opening paragraph is characterized in that a series element comprising the high-pressure lamp and an inductive filter is connected directly or at most via an ohmic ballast element to the DC output of the rectifier unit.

It is particularly favorable for limiting the lamp current when the ohmic ballast element is a pure resistor. This solution is particularly desirable in the case where a mixed light lamp is to be realized, which in known manner comprises, in a common balloon, an incandescent lamp and a discharge lamp. This cannot be achieved, for example, with a high pressure sodium lamp under the conditions of an AC power supply and the use of the known embodiments due to the strong tendency of the lamp to go out. This means that the ohmic resistor can be in the form of a filament, which is conveniently arranged in a common balloon with the high pressure lamp. The ohmic ballast can be both connected to the AC input of the rectifier. if it is connected to its DC output.

In the latter case, an improved filter operation in the lighting system according to the invention can be achieved if, as noted, the high pressure lamp and the inductive filter containing series element is connected to the output of the rectifier unit via an ohmic ballast element and furthermore a diode is arranged parallel to the 5 series element, the diode being reverse-biased relative to the output polarity of the rectifier unit.

When choosing between mounting the ohmic ballast element on the input side or the output side 10, it should be taken into account that in the former case the lamp can be designed with four connection points and in the latter case when a mixed light lamp is realized, three connection points must be installed.

Furthermore, the filament as an ohmic ballast provides the advantage that the tendency of such a lamp to go out becomes very low, since, as is known, the filament contributes to stabilization of the current, making the lamp very insensitive to the variations of the mains voltage.

It is also possible to use a capacitive ballast element, whereby the efficiency of the lamp is improved. However, such a ballast must always be connected to the AC input of the rectifier.

The DC power supply may optionally lead to changes in the electrodes of the high pressure sodium lamp or the high pressure metal halide lamp. To compensate for these changes it is advantageous to make the electrodes asymmetrical. This asymmetry consists either in that the cathode is constructed with a higher content of emissive material than the anode, the anode also being designed without an emissive material, or in that a relative to the cathode larger anode is used.

The advantages of the lighting system according to the invention can be summarized as follows. The ripple of the supply current can be reduced, which results in a decrease of the lighting system's tendency to go out and the possibility of obtaining and using lamps 40 with a considerably lower power consumption 8402293

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Than the known units, and furthermore the use of lamps with a higher power consumption with a smaller variation of the light, and obtaining effective mixed-light lamps with high-pressure sodium lamps or high-pressure metal halide lamps. It is also possible to use a simple ohmic upstream element, for example a filament. The light of the described lighting system according to the invention is free from an intensive variation and the high-frequency interference phenomena. A further advantage further consists in the simplicity of the design and, consequently, of the manufacture, in a reduction of the costs of the described lighting system compared to the known high-frequency circuits.

The invention is explained in more detail below with reference to the drawing, in which some exemplary embodiments are shown.

Fig. 1 is a favorable embodiment of the lighting system according to the invention, wherein the alternating current input of the rectifier unit is preceded by an ohmic ballast element.

Fig. 2 shows another favorable embodiment of the lighting system according to the invention, in which an ohmic ballast element follows the DC output of the rectifier unit.

FIG. 3 shows yet another favorable embodiment of the lighting system according to the invention, in which a capacitive ballast element is arranged.

As can be seen from the drawing, the lighting system is provided with a high-pressure lamp 1, a preceding or subsequent inductive filter 2 - these parts together form an inductive series element - as well as a rectifier unit 3. The high-pressure lamp 1 hereinafter referred to as a high pressure sodium lamp, although a high pressure metal halide lamp may also be used. The rectifier unit 3 consists, for example, of a two-phase rectifier designed as a Graetz circuit.

According to Fig. 1, an ohmic ballast element 4 precedes the rectifier unit 3 fed from the mains of 220 V, 50 Hz, namely the AC input 40 thereof. The ohmic ballast element 4 may for example be 8402293 - 5 - »designed as an incandescent lamp with a supply voltage of 220-230 V and a power consumption of TOO W. In this case, the high-pressure sodium lamp in the series element is connected to the DC output of the rectifier unit 3 connected. The inductive filter in this case can have an inductance of 1.2 H. The full power consumption of the displayed lighting system is approximately 60 W.

In the embodiment according to Fig. 2, the rectifier unit 3 is connected directly to the mains 220 V, 50 Hz and the ohmic ballast element 4 is connected to the DC output of the rectifier unit 3. The ohmic ballast element 4, which is advantageously designed as an incandescent lamp, as in the circuit according to Fig. 1, is placed between the two end points of the series element, the inductive filter 2 being connected to the DC output of the rectifier unit 3. To improve the filtering effect, a diode 5 is arranged parallel to the series element. The high pressure sodium lamp and the incandescent lamp are to be mounted in a common balloon.

As can be seen from Fig. 3, it may furthermore be advantageous to have a capacitive ballast element 6 precede the alternating current input of the rectifier unit 3 and thereby guarantee the current limitation. The capacitive ballast 6, which influences the operating conditions of the high-pressure sodium lamp to a considerable degree, is, for example, a capacitor of 5.6, which, in cooperation with the inductive filter of 1.2-H, ensures that. the power consumption of the lighting system 30 supplied with the mains voltage 220 V., 50 Hz is approximately 20 to 30 W, depending on the parameters of the high-pressure sodium lamp.

In the illustrated embodiments, an internal ignition device or a suitable ignition agent (e.g. a Penning mixture) is also used, if necessary.

The conditions for switching on the high-pressure lamp 1 can be improved by a suitable choice of the cathode and anode of the high-pressure lamp 1 (not indicated with reference numbers). By an asymmetrical design of the electrodes, i.e. by using a larger anode and 84022S3

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a smaller cathode and / or by the amount of emissive material such. Choosing that more of this material is present at the cathode than at the anode (the anode can also be made entirely without such material), those changes caused by the DC power supply of the electrodes can be compensated for.

As can be seen from the foregoing, an illumination system with a simple construction has been proposed, which guarantees a reliable light output at low power consumption, even when using high-pressure sodium lamps or high-pressure metal halide lamps with low power.

8402293

Claims (7)

1. Lighting system, comprising a mains AC rectifying unit, a high pressure lamp with a high pressure sodium lamp or a high pressure metal halide lamp, preferably low power, and a current limiting ballast and, if necessary, a ignition device, characterized in that a series element is connected directly or at most via an ohmic ballast element (4) to the DC output of the rectifier unit (3), that the high-pressure lamp (1) and an inductive filter (2) 10. Lighting system according to claim 1, characterized in that an ohmic ballast element (4) is connected to the AC input of the rectifier unit (3). Lighting system according to claim 1 or 2, characterized in that the series element comprising the high-pressure lamp (1) and the inductive filter (2) is connected via the ohmic ballast element (4) to the DC input of the rectifier unit (3), a diode (5) being arranged parallel to the series element, the diode (5) being reverse-biased relative to the output polarity of the rectifier unit. Lighting system according to any one of claims 1 to 3, characterized in that the ohmic ballast element (4) is designed as a filament, which is arranged in a common balloon with the high-pressure lamp {13. Lighting system according to claim 1, characterized in that a capacitive ballast 30 (6) is connected to the AC input of the rectifier unit (3). Lighting system according to any one of claims 1 to 5, characterized in that the electrodes of the high-pressure lamp (1) are asymmetrical, the content of emissive material at the cathode 35 being greater than at the anode. Lighting system according to claim 4, characterized in that the anode is larger than the cathode. 8402293