DE1044971B - Brightness control circuit for fluorescent lamps - Google Patents

Description

GERMAN

A brightness control circuit for fluorescent lamps has already been proposed (patent 965 591), in which an ignition device, consisting of a saturation converter located in the working circuit of the lamp, in which by means of a time-changing Excitation voltage pulses are generated is used. The present invention is concerned with an improvement of such a brightness control circuit with the aim of reducing flickering, which occur in part of the control range and are referred to as "stratified discharges" avoid. The invention is based on the knowledge that in the stratified discharge on the lamp in irregular sequence voltages of high frequencies occur, and serves to solve the problem of this suppress irregular high frequency voltages.

Accordingly, the invention relates to a brightness control circuit for fluorescent lamps with an im Working circuit lying saturation converter, in which by means of a time-varying excitation Voltage pulses are generated, and consists in that the fluorescent lamp through a capacitor is bridged, which can be switched off and is only switched on after the lamp has been ignited. The condenser must therefore be able to be switched off, because when the lamp is de-energized it will destroy the ignition pulse and would prevent ignition. After lighting the lamp and turning on the capacitor with the help of the latter over the entire control range from full brightness to complete darkening a uniform glow of the lamp is achieved.

Various exemplary embodiments of the invention are shown in FIGS. Same parts are Identified in all figures.

According to FIG. 1, the working circuit of a fluorescent lamp 10 is connected to the terminals 26 of an alternating voltage network via a main switch 45. A controllable resistor 30 and an air gap throttle 14 are connected upstream of the lamp in a manner known per se. In addition, according to the proposal of the main patent, an ignition converter 15 is provided in the working circuit, the excitation circuit of which is also connected to the AC voltage source via a current limiting choke 16 and an ignition switch 29. The excitation winding of the ignition converter 15 is connected in the opposite direction to its working winding. The current limiting choke 16 can, for example, be combined with the series choke 14 to form a structural unit in that both windings are arranged on a common air gap core. However, separate structural units can also be used for this purpose. A filament transformer 9 is like a brightness control circuit
for fluorescent lamps

Applicant:

Siemens-Schuckertwerke

Corporation,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Dipl.-Ing. Harro Müller, Erlangen,
has been named as the inventor

normally provided. A capacitor 34 is connected in series with a switch 46 in parallel with the lamp 10.

To start up the fluorescent lamp, the main switch 45 and the ignition switch 29 are closed, while switch 46 is open. After the ignition, the switch 46 is closed. With With the help of the rheostat 30, the brightness of the fluorescent lamp can then be regulated down as desired, without the possibility of a stratified discharge.

The following two figures show examples of an automatic control device for closing of the switch 46 after the ignition is also indicated. It is also based on an older suggestion (Patent 1 003 355) a saturation reactor 18 is provided in the working circuit, which makes it possible the brightness of the fluorescent lamp also by lowering the voltage down to a negligibly small one Reduce the amount or several lamp circuits in parallel with a common one To operate the control device. The heating transformer is omitted for the sake of clarity.

Fig. 2 shows a current-dependent control device, consisting of two relays 47 and 48, which on address different current values. The relay 47 tolerates the full lamp current and actuates one Switch 46 ', through which the capacitor path is closed, and a switch 49, which the relay 48 bridged. The latter is dimensioned for a very small current and operates a switch 46 ″ in Capacitor path. The two relays 47 and 48 are via one in the working circuit of the fluorescent lamp horizontal rectifier arrangement 50 fed.

■ 809 680/266

If the lamp current is less than the hold value of relay 47, so that switches 46 'and 49 are open, so the capacitor path through the relay 48 is closed by means of the switch 46 ″ influenced by it held.

According to Fig. 3, a thermal switch 51 is provided as an automatic control device, the heating coil is connected to the mains voltage and after closing the main switch 45 with a short delay time in which the fluorescent lamp is ignited, the capacitor path closes.

Claims (4)

PATENT CLAIMS: 1. Brightness control circuit for fluorescent lamps with a lying in the working circuit Saturation converter in which voltage pulses are generated by means of an excitation that changes over time are, characterized in that the fluorescent lamp is bridged by a capacitor which can be switched off and is only switched on after the lamp has been ignited. 2. brightness control circuit according to claim 1, characterized by an automatic control device for closing the switch in the capacitor circuit. 3. brightness control circuit according to claim 2, characterized by one influenced by the lamp current Control device. 4. brightness control circuit according to claim 2, characterized by a thermal switch as automatic control device. 1 sheet of drawings © 1809 680/266 11.58