DE819294C - Circuit arrangement for the ignition and operation of fluorescent tubes with two heatable glow cathodes - Google Patents

Description

Circuit arrangement for igniting and operating fluorescent tubes with two heatable hot cathodes For operating fluorescent tubes with two heatable ones Circuits with hot cathodes without an auxiliary anode are known in which hot cathodes and Fluorescent tube can be fed from the same power source. By one at the same time Self-induction in the heating and main circuit (choke, relay winding, etc.) Like.) If the heating circuit is interrupted, a voltage surge is generated which adds to the supply voltage and ignites the tube. With all of these Circuits must be used to limit the main current after ignition in the main circuit a current limiting resistor should be placed, its value at the usual supply voltages a few hundred olim. Of course, the ohmic value of the current limiting resistor also by correspondingly increasing the ohmic component of the im Main circuit lying relay winding can be kept small. The total DC resistance of the main circuit must remain unchanged: Due to the fact that in these circuits the entire for the operating state of the tube after ignition measured DC resistance is inevitably also in the heating circuit, results for the operation of the commercially available, originally intended for alternating current operation and fluorescent tubes equipped with two hot cathodes have the disadvantage that relatively high self-induced voltages are required in order to be safe and sound Cause ignitions. This requires that the self-induction lying in the main circuit must be dimensioned disproportionately large, which is known to involve increased material costs and space requirements, so it is uneconomical.

The invention shows a way how the value of self-induction im Main circuit with small dimensions and thus the choke or the one in its place used Relay winding can be kept small.

It is proposed that fluorescent tubes be operated with direct current, which are equipped with two hot cathodes, only one of the two hot cathodes to allow the heating current to flow through. This eliminates the need for the current limiting resistor to be placed in the heating circuit. It can now do so rather than a purely Ohmic resistance be switched so that it is only traversed by the main current. By the essential higher heating current, which is still within the permissible limit, the tube heated so effectively that relatively little if the heating circuit is interrupted occurring voltage surges are sufficient for ignition.

The new circuit will equip the fluorescent tubes with two hot cathodes by no means superfluous, rather tubes, which as a result Destruction of a filament can no longer be operated with alternating current, by using the other filament, it can easily be used on direct current will. The connections of the burned-out cathode are expedient to connect with each other, as this again makes the entire cathode surface effective will. Even with the new circuit needs when connecting to the DC voltage source the polarity has to be disregarded as the filament in the main circuit is by no means must be connected as a cathode.

The invention will be explained in more detail by two circuit diagrams, with still further advantages of the new circuit are mentioned.

Fig. I shows the known circuit. Those with two hot cathodes i and 2 equipped fluorescent tube 3 is via the choke 4 at 5 and 6 to the DC voltage source connected. The current limiting resistor is also located in the main and heating circuit 7 and the winding of the relay 8, its changeover contact 9 when the relay responds interrupts the heating circuit and then short-circuits the throttle 4 via line OK. i i is a spark quenching capacitor. The winding of the relay is sometimes also designed as a partial winding of the choke 4. Fig. 2 shows the new circuit. the with the switching elements corresponding in Fig. i have the same reference numerals Mistake. The hot cathode 2 is only connected single-pole, so it is not from Heating current flowed through. The choke 4 has been omitted because the self-induction of the relay to generate the ignition voltage is sufficient. The current limiting resistor 7 is only in the main circuit. The line ok and thus the second contact at 9 are not required in this circuit.

In the known circuit according to Fig. I, the following direct current resistances are, for example, in the heating circuit: choke 4 about 300 ohms, limiting resistor 7 about 450 ohms and relay winding 8 about 10 ohms, so a total of about 76o ohms. In the new circuit according to Figure 2, on the other hand, only the approximately 40 ohm DC resistance of relay winding B is in the heating circuit.

12 is in the new circuit: 2 a fuse to prevent that the hot cathode i as a result of overload caused by a defective capacitor i i, blows.

Claims (3)

PATENT CLAIMS: i. Circuit arrangement for the ignition and operation of fluorescent tubes with two heatable hot cathodes, in which the fluorescent tube and hot cathode are fed from the same direct current source and a self-induction in the heating and main circuit at the same time generates a voltage surge when the heating current is interrupted, which leads to the ignition of the tube, characterized in this that only one of the two hot cathodes is traversed by the heating current. 2. Circuit arrangement according to claim i, characterized in that the entire self-induction of the main circuit is represented by the winding of the relay 8, which switches off the heating circuit. 3. Circuit arrangement according to claim i and 2, characterized in that the current limiting resistor 7, only in the main circuit.