FR1237431A - Circuit for lighting a fluorescent lamp without starter and with hot electrodes - Google Patents

Description

 Circuit for lighting a fluorescent lamp without choke and with hot electrodes. The invention relates to a circuit arrangement for igniting fluorescent lamps without starter and with hot electrodes.

Similar circuits are known, but they generally have the disadvantage that special lamps must be applied and that a heating transformer must be used to heat the electrodes, which consumes additional energy, whereas it is furthermore unlikely that high voltage will occur at ignition, so that the lamps age rapidly in these known circuits.

The present invention overcomes these disadvantages; it is characterized in that, in each supply line going to an electrode of a fluorescent tube, a coil of <I> shock </ I> has been incorporated and that in the connecting conductor between the two electrodes a The shock coil has also been disposed, the latter being wound on another core than the shock coils of the supply lines, while a resonance capacitor is incorporated in series with one of these three shock coils.

The invention will hereinafter be described with reference to the accompanying drawings in which: Figure 1 shows a circuit arrangement according to the invention; Fig. 2 shows the circuit of Fig. 1, wherein an ignition circuit and an operation circuit for a second tube have been incorporated.

Figure 3 shows a variant of the circuit of Figure 1; FIG. 4 shows a corresponding variant of the circuit of FIG. 2.

In general, it may be noted that the advantages of the invention over known circuits are that ordinary lamps can be used and that too high voltages can be avoided at the electrodes, so that the lamps last longer, while the separate cores (where consequently the core of the shock coil in the connection between the electrodes of the lamp is not common with the cores of the shock coils of the supply lines) always ensure immediate ignition, even at a very low temperature, for example 15 C below zero.

FIG. 1 represents the lamp L with its two electrodes E1 and E2; from the main terminals A and B extend two power lines in which the two shock coils S1 and S3 respectively have been incorporated with their separate cores K1 and K3. In the first power line from terminal A to el electrode El, a capacitor in series C is applied for resonance. In the line between the two electrodes E1 and E2 has been incorporated a shock coil S2 on a separate core K2. There are therefore three separate cores for the three shock coils.

In Figure 3, the same reference numerals have been applied to the same elements. It follows that the shock coils S1 and S3 can have a common core K1, <I> 3. </ I>

Figure 2 shows the same circuit as Figure 1, but in addition was added an ignition circuit and an operating circuit for a second lamp L2.

The circuit for burning lamp L2 extends from terminal A through shock coil S4 with core K4, electrode E3, lamp L2 and electrode E4 to terminal B. For ignition the electrodes E3 and E4 of the lamp L2 are heated by means of two windings W1 and W2 placed on the separate core K2 of the shock coil S2, so that the resonance current of the ignition circuit of the LI lamp is used to provide a heating voltage for the electrodes E3 and E4 of the lamp L2 which, therefore, also lights immediately without the application of an additional transformer or autotransformer. In FIG. 4, it can be seen as a difference with FIG. 2 that the cores K1 and K3 of the shock coils S1 and S3 are combined into a single core K1, 3.

<B> It </ B> is also noted that the capacitor C does not need to be applied to the location of the various figures. This capacitor C may also be placed in the connection between the electrodes ET and E2 of the lamp L1, therefore in series with the shock coil S2.

Claims (1)

 SUMMARY 1 Circuit for igniting a fluorescent lamp without starter and with hot electrodes, characterized in that, in each supply line of an electrode of a fluorescent lamp, a shock coil has been incorporated and that, in the connecting conductor between the two electrodes, a shock coil wound on another core has also been applied to the two supply line shock coils, a resonance capacitor being incorporated in series with one of said three shock coils. 2 Circuit as specified in 1, characterized in that the two shock coils of the supply lines are wound on a common core. 3 System for igniting, without starter, two fluorescent lamps, the first lamp being lit by a circuit as specified in 1 or 2. characterized in that the second lamp is connected by one of its electrodes directly, and by its other electrode via a shock coil, to the mains voltage, each electrode being connected to a heating coil wound on the core of the shock coil located between the two electrodes of the first lamp.