DE1943176C3 - Ignition device for fluorescent lamps - Google Patents

Description

Low-pressure gas discharge lamps with regard to their properties in both directions

ffiSen. stay. The waste product sound would be high, um

Weabe of the invention is to replace an improvement now a reverse blocking thyristor.

j supply of the electrodes of the fluorescent lamps is generally a symmetrical lynstor I W vorrtetestrom and the generation of one for the 5 with a diode connected in series, which ate

* Sh Hüne reliably sufficient pulse voltage energy source voltage sufficiently exceeding

* rf »in simple circuitry means to obtain reverse voltage. The symmetrical thyristor must mite «" »«. » _{then only the requirements} regarding his

According to the invention, this task will therefore be sufficient in one direction st that the thyristor has a reverse blocking thyristor ίο reject rate in the manufacture of the thyristors

• and its connection point with the ignition con is significantly reduced. ,

S j Lor via a diode that runs in the same direction The use of a reverse blocking iny-

£ (JW «» ¹ " ¹ thyristor is connected, with the second ristor also automatically leads to the fact that in Ruclcwans-

^{s The} edge of the fluorescent lamp is connected. There is no oscillation in the direction and thus the

j BleKiruu _{the first electrode of the} fluorescent 15 oscillation frequency, compared with the use

"is""J ™ _e f e _n winding of the current limiting symmetrical thyristors, reduced to half

lamp u secondary winding of the impulse trans- will. The stress of the reverse blocking

-? ° »IS connected. Thyristor by the oscillation is therefore on the

* ^t0X TZh the use of a reverse blocking the forward direction corresponding V ™ ^ ™haben "'

* Thyristor one achieves that the current flow * changes and for the reverse direction canceled yer H h the circuit with the current limiting choke thyristor can always be in a stable Behiet »veroici

iLrt This is a direct consequence of using. , ...

5 ^U L reverse blocking thyristor. It gives' It turns out that the use eme, back-

^dU f dS Se G? eichs? romkom _p onent in the pulsating downward blocking thyristor instead of e.nes, symmetrical ^S it Strom1 causes a magnetic saturation of the magnetic, ₅ Irish thyristor with regard to the design of the switching Γγ Suombeirenzungsdrossel, so that management, manufacture and reliability of operation is reduced by the impedance of the current limiting choke. ,,. · ,, „„ n des

f η S This allows sufficient preheating

? rom will be received. But this leads to the fact that the symmetrically blocking thyristor with the ignition f- iSitunß in an extended range of 30 capacitor via a diode, which is connected in the same Rieh ⁷ ZtZt Ϊ and circuit conditions of the device as the thyristor with the second, ambient u, , "" P.nMir.klich "nd F. electrode of the fluorescent lamp connected. The HA

Ambient and circuit conditions aes lungwieun j «yi, mu. ₆ ^, »κν _-_

Fluorescent lamp also has an instantaneous and connected electrode to the fluorescent lamp. The reason for this sure appealing ignition device available is for the following reason: Ordered the one mentioned at the beginning, which uses the pulse voltages as they are known with the ignition device, all electrical I aid of the reverse blocking thyrial _{? 5} circuit elements that are generated with the ignition switch direction J store and are used each blackening phenomenon are connected in series, intended to suppress the during men on the fluorescent lamp. The lighting of the fluorescent lamp on the thyristor can also reduce the secondary winding of the pulsating voltage. Since the operation of the transformer via a compensation winding of the thyristor itself is determined by the voltage between its As; It is of decisive importance that while the above-mentioned saturation of starting the fluorescent lamp leads to the support of the voltage applied to the magnetic circuit of the current limiting choke, the voltage applied to it should be its breakdown voltage and, in itself, could not exceed the time ranges in which. If precautions are not taken for a preheating current to flow through the electrodes that are encountered, the operating voltage increases to extend the entire period of the excitation current. tube sometimes due to unfavorable conditions, a sufficient voltage and operating conditions are achieved, for example a sufficient preheating current in the event of an unexpected occurrence. The starter circuit is increasing the voltage of the electrical energy but now no longer electrically ran the energy source or due to a drop in the can be separated, so that the fluorescent lamp is constantly at 50 ambient temperature during start-up. preheated state remains. This phenomenon arises from the fact that the voltage applied to the thyristor also only occurs when a symmetrical thyristor increases, which is again used for a kip. A reverse blocking thyristor thyristor can result. Even if the transistor is used, the current only flows in a fluorescent lamp that has already been ignited, which means that the direction through the electrodes of the fluorescent lamp is recently exposed to the preheating state, which is disadvantageous for the lamp, while a current flow in the opposite direction is disadvantageous. Now a diode is connected to the ignition. As a result, there is a rest time in the circuit in the specified manner in series extending half a period. This means that one switches, so this difficulty is completely eliminated: Considerable advantage of the ignition device with switch-back. It is reliably avoided that the thyristor is blocking the ignition. During normal operation, there is also the fact that, from the point of view of the manufacturer, fluorescent lamp works and a preheating current from thyristors causes a certain disadvantage to be sent through the electrodes of the fluorescent lamp stands that the symmetrical thyristor is an under. This increases the service life and the difference in breakdown voltage and holding efficiency. The power consumption is reduced, power is supplied in the forward and reverse direction. It would thus be illustrated in advance during manufacture, and this clearly shows only a few thyristors on the basis of this FIG. 1 the circuit of an embodiment of the tWei-ephieries within the required limits ignition device,

S 6

F i g. Figure 2 shows the waveforms of the voltage at the power source 20. Of course, the reverse points £ and F of the embodiment of Fig. 8, downward blocking thyristor 30 in the same direction

Fig.3 shows the waveform of the polarity when starting the as diode 32. The reverse blocking

Fluorescent lamp at point E of the embodiment voltage of the diode 32 is sufficiently larger than the nominal

from F i g. 1 flowing current, and 5 voltage of the energy source 20.

F i g. 4 one compared to the embodiment The circuit works as follows: If the sub-

The embodiment breaker 22, which is slightly modified from FIG. 1, is closed, so the nominal voltage

form. of the energy source 20, which the breakover voltage of the Thy-

F i g. Fig. 1 shows a power source 20, to which ristor 30 exceeds in parallel, to the terminals of the thyristor

Between points G and H an interference suppression condenser is placed. The thyristor 30 becomes conductive. This flows

gate 21 is connected and with which in series a sub- a preheating current with rectified by the diode 32

crusher 22 lies. A clamp (point G) of the electrified half-waves through electrodes 25 and 26

See energy source 20 is via a current limiter fluorescent lamp 24.

throttle 23 connected to a fluorescent lamp 24 The waveform of the between points E and

tied to one end of the first electrical 15 F voltage applied during preheating

trode 25 of the fluorescent lamp 24. The other can F i g. 2, while the white

Terminal (point H) of the energy source is due to a lenform of the thyristor 30 during the

The end of the second electrode 26 of the fluorescent pre-heating current is shown in Fig.3

lamp 24. The first electrode 25 is the. Between the electrodes 25 and 26 of the luminous

Fluorescent lamp 24 with its other end ao fabric lamp 24 thus appears a pulse voltage

(Point E) with one end of a pulse transform of large amplitude. In this way the luminous

Mator 27 with primary winding 28 associated secondary lamp 24 ignited. Once that is done, will

outer winding 29 connected. The other end of the se- the voltage on the thyristor 30 is switched off-

secondary winding 29 is connected to the primary winding 28. The fluorescent lamp 24 therefore remains in the

of the pulse transformer 27 connected in series. The »5 ignited state. Even if the peaks dei

Primary winding 28 is parallel to a series tube voltage of fluorescent lamp 24 extremely

circuit of a thyristor 30 and a Zündkon- are high or a large temperature-dependent wedge

capacitors 31. When the thyristor 3 · is present, the ignition capacitor 31 is due to

a reverse blocking thyristor. The connection of the presence of the diode 32 only in one direction

The dark point of the thyristor 30 is charged with the ignition capacitor. As a result, the unfavorable influence is de;

Sator 31 is via a diode 32, which in the same Rieh charging and discharging of the ignition capacitor 31 au!

how the thyristor is switched, with the other - the peak values at the fluorescent lamp 24 and au!

Ren end (point F) of the second electrode 26 which suppresses the thyristor 30.

Fluorescent lamp 24 connected. Primary winding 28 and secondary winding 29 can

The number of turns of the secondary winding 35 may be exchanged for one another

29 of the pulse transformer 27 is larger than that of the. It is also permissible to use the thyristor 30 and the

Primary winding 28, namely in a ratio of ignition capacitor 31 with respect to its position in de:

of about 10: 1. The breakover voltage of the reverse circuit of Fig. 1, referred to otherwise

blocking thyristor 30 is smaller than the nominal one, exchange.

voltage of the energy source 20, but greater than the 40 F i g. 4 shows an embodiment with a to

Voltage of fluorescent lamp 24. On the other hand, additional winding 23 'is at the current limit ?;

the reverse voltage of the reverse blocking thyroidal throttle 23. This causes an amplification of the pre

stors 30 sufficiently larger than the nominal voltage of the heating current.

1 sheet of drawings

Claims (2)

ι 2 fabric lamp an electronic component shuttered claims; tet, which ignites when a certain voltage is exceeded and when falling below the holding 1. Ignition device for fluorescent lamps, which is automatically extinguished when the power is turned off. The one terminal of an electrical energy source 5 is a contactless switch for Abüber a current limiting throttle with a circuit of the electrode bridge circuit at the end of the first electrode of the fluorescent lamp connection of the fluorescent lamp. This is connected without contact and the other terminal of the ener switch consists of the series connection of an energy source at one end of the second electrode rectifier diode with an electronic component of the fluorescent lamp, the first electrode of which is io ment. At the other end of the fluorescent lamp, one end of the secondary ignition is applied as the highest voltage, the clamping span secondary winding of a pulse transformer voltage of the electrical energy source. Most fluorescent lamps need a peak voltage for their end of the secondary winding in series and ignition, which exceeds the terminal parallel to a series connection of a voltage of the energy source.For such an ignition capacitor and a thyristor, fluorescent lamps can therefore be switched this is known to be used in the connection point with the other igniter. However, the end of the second electrode is also connected, with fluorescent lamps in which the terminal chip is characterized by the fact that a backward blocking thyristor is sufficient to interfere with the thyrination of the electrical energy source for the ignition and ao is sufficient the ignition condensation, such as low temperature, and with the occasional gate (31) via a diode (32), diz come in the same voltage reductions that the direction as the thyristor is switched, with the existing voltage for the ignition of the luminous second electrode of the The fluorescent lamp (24) is no longer reliably sufficient
is bound. as it is therefore already known (British pa- 2. Ignition device according to claim 1, characterized tentschrift 1119 874), for the safe ignition of the characterized in that the first electrode of the fluorescent lamp is supplied with a pulse voltage, Fluorescent lamp (24) via a winding (23 ') which is considerably above the voltage of the electrical the current limiting choke (23) with the secondary energy source is located. For the ignition, the A current is connected to the winding (29) of the pulse transformer (27) 30 electrodes of the fluorescent lamp is. leads and between the electrodes at the opposite ends of the fluorescent lamp the required Voltage applied. Thereby the circles for supplying the electrodes with preheating current 35 and for applying the ignition voltage independently of the secondary windings of an autotransformer The invention relates to an ignition device for being fed together with a thyristor Fluorescent lamps in which one terminal of an electronic forms a pulse transformer, the switching tables Energy source via a current limiting voltage of the thyristor is smaller than the peak choke with one end of the first electrode of the 40 voltage of the energy source. An ignition of the Fluorescent lamp is connected and the other fluorescent lamp is connected to this device as well Clamp the energy source at one end of the second in difficult conditions. The required electrode the fluorescent lamp, the first of which is to use an autotransformer, ins-electrode with its other end with one end special also for supplying the electrodes with the secondary winding of a pulse transformer 45 feeds the preheat current, but makes the igniter connected whose primary winding is bulky and heavy with the other. Also there is the cost of Ren end of the secondary winding in series and par- such an igniter high. Will continue allele to a series circuit of an ignition con- during normal working of the fluorescent capacitor and a thyristor is connected, which in the lamp the efficiency of the tube through the Be-connection point with the other end of the two- 50 drive of the transformer diminished. This is a th electrode is connected. Consequence of the fact that the pulse transformer An ignition device of this type is known (in terms of the energy source in front of the fluorescent table Patent 1,528,704). The igniter lamp is switched and so are the pulse voltages device is designed so that the components are also generated when the fluorescent circuit including the symmetrical thyri-55 lamp has already ignited. That leads to a very stors and the pulse transformer are used, great stress on the thyristor and thus too in order to generate a pulse voltage necessary for a corresponding reduction in life-ignition the fluorescent lamp is sufficient. A disadvantage of the duration of the ignition device. Besides, it can't Ignition device with symmetrical thyristor of the type of circuit mentioned for the Im exists in the fact that there is no adequate preheating pulse generation devices to reverse current to the electrodes at both ends of the couplings of the pulse voltages to the network Fluorescent lamp can be given. Come from this. This leads to radio frequency interference, Reason, special measures are necessary to protect the electrodes connected to the network in other areas Increase preheating current. niche devices such as radio receivers can interfere An ignition device is also already available. Fluorescent lamps known (German patent specification It is finally still known (USA.-Patent- 193 165), in which the electrodes can be preheated. writing 2 523 021), instead of thyristors in ignition device is in the electrode bridge circuit of the lighting for fluorescent lamps auxiliary discharge lines,