DE1037008B - Method for facilitating ignition in gas discharge lamps, in particular in flashlight discharge lamps - Google Patents

Description

The invention relates to a method for facilitating the ignition in gas discharge lamps, in particular in flashlight discharge lamps, their discharge path by means of an ignition transformer and is pre-ignited via at least one ignition electrode conducted ignition pulse. Subject of the invention is also a particularly suitable arrangement for carrying out this method. Fig. 1 shows the usual Basic circuit for the ignition of gas discharge lamps. 1 is the storage capacitor, 2 is the flashlight discharge lamp, 3 the ignition electrode, which causes ignition by means of a pulse or alternating voltage.

Now, for various reasons, the aim is to connect the operating voltage for the tube to the main capacitor 1 as small as possible, but to keep its capacity as large as possible. That makes ignition more difficult the gas discharge lamp 2, which is normally operated by one or more capacitively or galvanically Ignition electrodes 3 is initiated. For a given tube there is a minimum operating voltage, below even a preignition caused by an ignition electrode does not trigger the Main discharge from capacitor 1 leads. This is a limitation in the dimensioning of the tube given in their electrical and geometrical data, which are far below the photoelectric optimum lies.

It is known that the operation of gas discharge lamps is effective along the discharge path Increase DC voltage or low-frequency operating voltage by constantly using a high-frequency voltage either in series or in parallel with this operating voltage. The high frequency voltage can either be connected directly to the discharge electrodes of the lamp or specifically for this purpose provided ignition electrodes are guided. The purpose of this additional high frequency voltage is to provide relief the ignition of the gas discharge lamp.

This known method for facilitating the ignition in gas discharge lamps has the disadvantage that a special high-frequency generator is required, which cumbersome the operating equipment of the lamp and makes it costly. In addition, this known method does not offer the possibility of a timed to achieve a precisely defined ignition insert, as is required above all for flashlight discharge lamps will.

A method for facilitating the ignition in gas discharge lamps is also known at which pre-ignites the gas discharge lamp by means of an ignition pulse conducted via an ignition electrode and at the same time as the ignition pulse, an additional pulse is applied to an auxiliary ignition path, which is a Method for facilitating ignition in gas discharge lamps, in particular

in flashlight discharge lamps

Applicant:

German Electronics G. mb H.,
Berlin-Wilmersdorf, Forckenbeckstr. 9-13

Dr. Karl Fritz, Darmstadt,
has been named as the inventor

Represents part of the discharge path of the gas discharge lamp. The additional pulse for the auxiliary ignition system is thereby derived from the ignition pulse for the ignition electrode, so that ignition pulse and additional pulse enter at the same time.

In this known method, however, in addition to the usual one, usually on the outer wall of the gas discharge lamp attached ignition electrode an additional, protruding into the discharge path of the lamp Inner electrode can be used. This method can therefore only be used with specially designed gas discharge lamps be performed.

In contrast, the method according to the invention is characterized in that with regard to its Implementation and the arrangement used is extremely simple and cheap. The procedure after the invention consists in that an additional pulse is derived from the ignition pulse and fed to the discharge path of the tube, in series or parallel to the operating voltage of the lamp. In the method according to the invention is thus the Additional pulse derived from the ignition pulse for the operating voltage applied to the storage capacitor 1 laid in series or in parallel. Additional electrodes are not required for this. This additional impulse falls with the ignition pulse at the auxiliary electrode 3 within the build-up time of the discharge. One comes so with operating voltages at the storage capacitor 1, which are far below the minimum mentioned above lie. The ignition pulse is usually of the order of 10,000 V and very sharp, while the The actual discharge either runs in direct current form or as in the case of the flashlight discharge lamp a flat pulse of about 500 volts or less

809 598/261

Claims (4)

is. How the additional pulse is expediently derived from the ignition pulse and placed in series or in parallel with the operating voltage of the lamp can be seen from the following exemplary embodiments of the invention. FIGS. 2 to 5 show exemplary embodiments of the application according to the invention. According to FIG. 2, the additional pulse is transmitted through a special transformer 4, expediently an air transformer with a suitably large spread, according to FIG. 3 through an additional winding 7 with loose coupling on the ignition transformer 6 and according to FIG. 4 through a coupling of the primary winding of the additional transformer 4 via suitably dimensioned capacitances 5 with the secondary or primary side of the ignition transformer 6. It is noteworthy that in this last case there is also a series connection of the pulse voltage on the secondary winding of the additional transformer 4 with the voltage on the storage capacitor 1, when the primary circuit of the ignition transformer 6 is connected directly to the capacitor 1. 5 shows a parallel connection of the additional pulse to the operating voltage via the transformer 8, the choke 9 acting as a block to prevent a short circuit of the pulse over the capacitor 1. Alan can also, especially according to FIG. 4, with a suitable dimensioning of the resonance ratios, achieve an oscillation of the ignition energy between the two transformers 4 and 6 in the form of beats, the half-period of which must be small compared to the decay time of the ionization in the tube 2. Patent application: 1.Methods to facilitate ignition in gas discharge lamps, in particular in flashlight discharge lamps, their discharge path by means of an ignition pulse conducted via an ignition transformer and via at least one ignition electrode is pre-ignited, characterized in that an additional pulse from the ignition pulse is derived and fed to the discharge path of the tube, in series or parallel to Operating voltage of the lamp. 2. The method according to claim 1, characterized in that that high-frequency oscillating or floating ignition voltages are selected. 3. Arrangement for carrying out the method according to claim 1 or 2, characterized in that that the auxiliary pulse is taken from the primary or secondary winding of the ignition transformer and inductively or capacitively in the operating circuit connected to the discharge electrodes Lamp is coupled. 4. Arrangement for performing the inductive transformer coupling according to claim 3, characterized in that the derived additional pulse is also suitable in an auxiliary winding (7) large scatter is generated on the core of the ignition transformer (6). Considered publications:
German Patent No. 864,659;
British Patent No. 435,025;
Austrian patent specification No. 165 248. 1 sheet of drawings © «09 592/261 p.