DE2032446A1 - Circuit arrangement for an alternating current fed gas discharge lamp with preheatable electrodes - Google Patents

Description

Circuit arrangement for an alternating current fed gas discharge lamp with preheatable electrodes

The invention relates to a circuit arrangement for an alternating current-fed gas discharge lamp with preheatable electrodes, preferably a fluorescent lamp, with a ballast and a starter located in the electrode bridge circuit for preheating and ignition of the lamp and a PTC thermistor. In the known starter circuits for fluorescent lamps, fuse starters can be used which mainly contain mechanical release systems, such as overcurrent bimetal releases, solenoid releases, air-thermal bimetal releases. These starters do not work without contact and can be exchanged for normal starters. In addition, there are circuits in which there is a PTC thermistor in the electrode circuit, which has the task of enabling the lamp to start. This PTC thermistor is spatially assigned to the starter and not to the lamp. In addition, it is known to attach temperature-sensitive protective elements, for example a bimetal or a _{fusible link t} , to the choke coil, which are in thermal connection with choke parts. These protective devices only respond when they have reached the overtemperature characteristic of preheating operation. The task is to use the PTC thermistor to protect the lamp from the poles of the continuous preheating operation in the event of a defective lamp or a defective starter.

The object is achieved according to the invention in that in the electrode bridge circuit in series with the starter and through which the preheating current flows, a PTC thermistor with at least 4O ⁰ O above the maximum ambient temperature.

109883/0805

- 2 - VPA 70/4021

temperature is arranged at which the ratio of specific Resistance to the cross section is chosen so that after about 10 to 60 seconds the end of the preheating operation occurs due to an increase in resistance, with the choke coil serving as a ballast possibly having a per se known, with her in thermal contact thermal fuse is provided. In the arrangement according to the invention, the PTC thermistor switches after a short period of time that can be specified as desired the preheating current without contact and avoids the usual switching disturbances such as contact erosion and radio interference. The ballast is not thermally stressed in the short switching time. The preheating operation becomes independent of the Mains voltage conditions safely switched off in the event of a fault. ' This also occurs if the undervoltage is not yet a characteristic device overtemperature for the preheating operation would arise. In the circuit according to the invention, the PTC thermistor works automatically, restarting. In the event of an error it causes only one switch-off and per network switch-off remains in this state. This PTC thermistor automatically avoids periodically recurring preheating phases. The possibly activated thermal fuse limits the temperature of the Choke winding to a permissible value and interrupts the Current when the choke coil is defective. . ., -

The invention is explained with reference to the drawing, it shows;

Pig, 1 the circuit arrangement according to the invention with the PTC thermistor within the lighting wiring and _lei

2 shows the circuit arrangement with a PTC thermistor housed in the starter housing. ·. _:: . _r ;; v

In the circuit arrangement shown for an alternating. ;> · Current-fed gas discharge lamp 1 with preheatable electrodes 2, 3 are the choke coil serving as a ballast with 10 and the network connection points with 8, 9 labeled Im Electrode bridge circuit are a starter 14 and a cold lead

109883/0805 - 3-.

- 3 - VPA 70/4021

ter 11 arranged. The preferably from a fluorescent lamp formed grass discharge lamp 1 has electrodes 2, 3 and lamp socket contacts 4 »5, 6 and 7 · If over the chase connection points 8, 9 a voltage is applied, the flows Current from the core connection point 8 via the choke coil 10, the mating contact 4, the electrode 2, the socket contact 5, the PTC thermistor 11, the starter connection terminal 12, the starter 1-4-f the starter terminal 13, the socket contact 7, the Electrode 3 and the mating contact 6 back to the mains connection point 9o

According to the invention in the electrode Bruck circuit in series with the starter 14 and traversed by preheating a cold · · · - ■ 11 arranged conductors with special properties. This PTC thermistor 11 has a transition temperature that is at least 40 ⁰ O above the maximum ambient temperature. In addition, in this PTC thermistor 11, the ratio of specific resistance to the cross section is chosen so that this PTC thermistor 11 terminates the preheating operation by increasing resistance after about 10 to 60 seconds. Depending on the mode of operation of the starter 14, the starting attempts are repeated until the gas discharge lamp 1 ignites and the current no longer flows via the electrode bridge circuit 5-11-12-14-13-7 but in the lamp 1 from the electrode 2 to the electrode 3 . After normal | Start process and when the lamp 1 is lit, the PTC thermistor 11 remains inoperative. If the electrode bridge circuit is not bridged by the lamp 1 due to a defective component, i.e. if this lamp 1 ignites, the PTC thermistor 11 becomes high-resistance and prevents the continuous preheating operation.

Flows as a result of deactivation of lamp 1 or welding If the starter contacts apply a preheating current for an inadmissibly long time, the PTC thermistor 11 through which this current also flows becomes heated up to the point that his internal resistance is out of range constant fourth almost suddenly by several powers of ten increases, interrupts the circuit and ends the preheating.

109883/0805 '- 4 -

BATH ORIGINAL

- 4 - YPA 70/4021

Since the resistance of the PTC thermistor 11 is quite high after it has responded, the mains voltage is applied if the starter contacts are open (Normally open contact starter) to the starter. With small Current is now brought the PTC thermistor 11 to transition temperature and held at high resistance. When the starter contacts are closed (break contact starter or welded contacts), the PTC thermistor 11 adjusts the current to a value that is required to maintain the critical temperature.

The choke coil 10 is optionally provided with a thermal sensor 15, which is in thermal contact with it »This. Comes to the protection against continuous preheating achieved by the PTC thermistor 11 nor the limitation of the inductor winding temperature. At the end of the "service life" of the choke coil 10, the circuit is interrupted, whereby the lamp L against any overheating is secured.

In the PTC thermistor 11, the ratio of specific

The resistance to the cross section is equal to 0.2 ft. cm per mm. The PTC thermistor 11 is advantageously spatially separated from the starter 14 arranged within the luminaire wiring. The spatial. borrowed assignment of the PTC thermistor 11 to the lamp L and the simple Accommodation within the luminaire wiring have the advantage that any.Starter used; and exchanged can be. However, it can advantageously, as it is in the Figure 2 is shown, the PTC thermistor 11 are housed in the starter housing 14 '.. In this way, the PTC thermistor 11 is spatially assigned to the starter 14 (Figure 2) and there is a backup starter, which in existing systems with known Luminaire wiring can be used.

4 claims 2 figures

/ ORIGiIMAL BATHROOM

10 9 8 8 3/0805 ~ ⁵ "

Claims (1)

W VI —— · -5- VPA 70/4021 Claims I AJ circuit arrangement for an AC-powered gas discharge lamp comprising preheatable electrodes, preferably, a fluorescent lamp, with a Torschaltgerät and an in-electrode bridge circuit for pre-heating and ignition of the I »ampe serving initiator and a PTC resistor, characterized in that in the electrode bridge circuit in series with the starter ( 14) and through which the preheating current flows, a PTC thermistor (11) is arranged with at least 40 ⁰ G above the maximum ambient temperature transition temperature, at which the ratio of specific resistance to cross section is chosen so that after about • ■ 10 to 60 seconds by increasing the resistance the termination .The preheating operation occurs, with the as Vorschaltgexät serving choke coil (10) with a known per se, standing with it in thermal contact Etiermosicherung (15) is provided. 2p circuit arrangement according to claim 1, characterized in that in the PTC thermistor (11) the ratio of specific resistance to cross section is equal to Q _t ZJ2, cm per mm, 3, ' circuit arrangement according to claim 1, characterized gekennzeiclinet, | that the PTC thermistor (11) is spatially separated from the starter (14) within the light wiring » 4. Circuit arrangement according to claim 1, characterized in that that the PTC thermistor (11) is housed in the starter housing '. (14 *) is · ■ - .. ■■ '" 109883/0 8 05 Blank page