DE3022773C2 - - Google Patents

Description

The invention relates to a supply and ignition switch circle for low pressure fluorescent lamps with two filaments as electrodes with a diagonal of a diode bridge are connected in series, the other diagonal of the Diode bridge is connected to a switching element that opens after the alternating current on the fluorescent lamp switched on and the filaments are heated.

DE-PS 23 23 011 is such a device for ignition and known a discharge lamp in which the Discharge lamp electrodes with diagonal one Diode bridge are connected in series, the other Diago nale is connected to a switching element. Here will  the discharge lamp after heating up the electrodes ignited a voltage spike.

In the case of low-pressure fluorescent lamps, such as, for example used in railroad cars or hand lamps due to the frequent switching on and off of dark lamp ends generated, causing the lamps to ignite at low temperature rature is difficult. These dark ends in particular caused by high inrush voltages. To do that To facilitate ignition, ballasts should therefore be used det, which, however, have a poor efficiency point. The dark lamp ends also lead to one Difficulty of even functioning with good Efficiency when the lamp is operated with batteries alternating battery voltages. These problems are particular undesirable in railways because it was expensive measures.

Another circuit for fluorescent lamps at the beginning described type is known from DE-OS 27 18 683, in the case of heating filaments using a heating transformer continuously be heated. The filaments are egg diagonal ner diode bridge connected in series, the other Diagonal a damping device consisting of a Capacitor and a resistor is provided. With the This circuit can reignite in normal operation  voltage peaks are reduced in their amplitude, however, switch-on voltage surges cannot be avoided.

The object of the present invention is a supplier supply and ignition circuit for a low pressure light to create cloth lamp, in which the disadvantageous switch-on voltage surge can be avoided without the ignition security is reduced.

This object is achieved by a Circuit of the type described in the introduction by the Features of claim 1 is characterized.

Further useful features are claimed in claim 2 refer to.

An exemplary embodiment is described below described the figure.  

The figure shows a first component 01 , which has an oscillator and the transistors TR 1 , TR 2 , the diodes D 1 , D 2 , the capacitors C 3 , C 1 , the primary windings 1-3 and 2-4 of a transformer T 1 , which also includes the feedback winding 5-6 , a capacitor C 2 and an inductance L 1 . The component 01 is an oscillator that supplies a sinusoidal voltage on the secondary winding 8-10 of the transformer T 1 and a high voltage - also sinusoidal - on the ignition strips of the tube. The high voltage on the secondary winding 7-9 , which is connected to a screen ST near the fluorescent tube TF, favors its ignition. The voltage on the secondary winding 8-10 is at the cathodes of the tube.

The secondary winding 8-10 is part of a second construction part, which consists of the fluorescent tube TF, a diode bridge D 3 , D 6 , D 7 , D 8 and two rectifying diodes D 4 and D 5 . This second component is the supply part of the discharge tube. It is controlled by a third component of the device, the basic components of which are a comparator IC 1 , the capacitors C 7 and C 6 and the transistors TR 3 and TR 4 .

Comparator IC 1 measures the level of voltage across capacitor C 7 , which charges through resistor R 7 when the main switch closes, and at capacitor C 6 , at which a voltage is applied, which is proportional to the resistance of the heating wires FFT of the tube is, in whose circuit it is inserted together with the diodes D 4 and D 5 . The two voltages at C 7 and C 6 are compared with each other at the comparator IC 1 , and depending on whether the voltage at C 6 is greater or less, the output 6 of the comparator IC 1 is switched up or down.

Depending on the state of the output of the comparator IC 1 , the transistor TR 3 , which serves as an interface (intermediate stage) for the transistor TR 4 and controls it, becomes conductive or not. The transistor TR 4 serves as an interrupter for the circuit 2-4 of the heating wires FFT and is slowed down when it is switched on by the damping device R 8 and C 8 in order to supply the tube with a gradually increasing voltage when the cathodes are already warm .

When the main switch is closed, a current flows through the heating wires 1-2 and the diodes D 7 and D 3 via the heating filaments 3-4 back to the secondary winding 8-10 . The heating wires FFT essentially form a short circuit. The current that flows through the heating wires heats them up, causing their resistance to change with temperature. This change is measured (via the diode D 4 and D 5 ) by the comparator IC 1 , which compares the charge values of the capacitors C 6 and C 7 with one another. Thus, when the temperature and resistance values of the heating filaments FFT have reached a size which corresponds to a sufficient temperature of the heating wires, the transistor TR 4 - by means of TR 3 and the comparator IC 1 controlled by the level of C 6 for suppression - opens the diode bridge D. 3 , D 6 , D 7 , D 8 and thus causes a voltage to appear at the electrodes of the tube, which increases until it is so large that it can ignite.

A light emitting diode LED 1 serves as a control lamp and lights up during the pre-ignition of the tube.

The diode D 9 provides protection against accidental polarity inversions. In fact, when the polarity is reversed, the diode D 9 becomes conductive, thereby allowing a safety mechanism to be put in place, e.g. B. melts a short piece of line, thus separating the remaining part of the circuit. If an external fuse is provided, it will pop out in this case.

It actually heats the filaments of the tube that is always constant because it is always the temperature reached by the filaments is - independent dependent on any other external influences - that the Circuit in the operating state for the operating voltage feeder to the tube switches.

It should be emphasized that the described embodiment is only exemplary and not limiting. For example, the component TR 4 can be of a different type interrupter, such as. B. a relay, a reed relay or the like. In this case, it is possible to use an AC power supply directly.

Claims (2)

1. Supply and ignition circuit for low-pressure fluorescent lamps with two filaments (FFT) as electrodes, which are connected in series with a diagonal of a diode (D 3 , D 6 , D 7 , D 8 ), where the other diagonal the diode bridge is connected to a switching element (TR 3 ) which opens after the alternating current at the fluorescent lamp (TF) is switched on and the filaments (FFT) are heated, characterized in that a damping device is connected in parallel with the switching element (TR 3 ), consisting of a capacitor (C 8 ) and an opposing stand (R 8 ) is provided, which is dimensioned so that the lamp (TF) is fed to the Katho with a gradually increasing AC voltage without voltage jump. 2. Supply and ignition circuit according to claim 1, characterized in that the alternating current from a direct current source by means of an oscillator ( 01 ), preferably with a frequency of 10-100 KHz is generated.