DE2732795C2 - Arrangement for detecting the working alternating current of a discharge lamp, which has at least one heating coil heated by a heating alternating current - Google Patents

Description

Voltage has been induced arrangement,

F i g. 2 an application example of the

ßen arrangement,

30 Figure 3 shows a further development of the invention

Arrangement with a timing element.

The invention relates to an arrangement for detecting in FIG. 1 shows a transformer TR on the primary

of the working alternating current of a discharge lamp, see two primary windings I, II of the same type. Of the

at least one winding sense of the primary windings is heated by an alternating heating current

te heating coil has in particular a fluorescent 35 way represented by dots. A stream is now flowing

tube, like a warm cathode fluorescent lamp. e.g. from a connection WIl through the one primary

Especially with warm cathode fluorescent lamps winding I and the heating coil of the discharge lamp

it is often necessary to have an electrical information or tube R if the tube is not ignited, so must

to obtain that the lamp or tube from this current also through the other winding II and

The preheating state changed to the ignited state and a connection // 12 flow off again. Here is the

This is because gen is when optical monitoring of the winding sense of the primary windings I, II is selected

not possible. that the through the one primary winding I in the second

The electrical information or a voltage of this information winding III induced by the

The corresponding signal can be processed further. Other primary winding II in the secondary winding in-

which, for example, is lifted again in response to an alarm or a confirmed voltage. Consequently

trigger message. there is no overall signal in the secondary winding

Disadvantageously allows the measurement of the current generated in the. However, when the arc in tube R

Cathode lead no clear statement about which is ignited, a current flows into one of the primary windings

Condition of the tube, since at least with the usual lighting I ₁ the not through the other primary winding II

material lamps the preheating current flows off again about the same 50. This will result in the secondary winding

The same order of magnitude as the working current. It is therefore III a voltage induced that changes over time

The object of the invention to provide an arrangement, the working current of the tube R is proportional. That

by which the working alternating current of a tube is certainly the same also applies to the other primary winding 11 or

is detectable. for a different current flow direction.

The object is achieved according to the invention by a 55. It is thereby achieved that when the tube R,

Transformer with a secondary winding and with, as usual, operated with alternating current, in the se-

two primary windings solved, on the one hand the secondary winding III of the transformer TR an alternating

Alternating heating current of the discharge lamp is induced by the self-voltage, the magnitude of which is the temporal

Primary windings flows so that if the ignition is not ignited, the alternating working current of the tube R pro-

charge lamp in the secondary winding no voltage eo is proportional. By the heating current, however, can in the

Discharge lamp generates the alternating current in the secondary windings I, II-conditioned signal, secondary winding induces an evaluable voltage. which is very small on the one hand, and on the other hand, the two primary windings are preferably wound in opposite directions by means of suitable manufacturing measures of the Prides transformer so that the 65 primary windings I, II can be practically eliminated,
Through the individual primary windings in the secondary there is a clear separation between heating winding induced voltages mutually up-current and working current in a way achieved by lifting. When the discharge lamp has ignited, it generates a signal that is only dependent on the operating current

ψ, will. It does not matter whether the tube is connected to a Α »static inverter with permanent heating or to a / t | nem AC voltage network with choke and starter ant | In any case, a signal occurs on the secondary side, ff the magnitude of which is proportional to the change in the working If alternating current over time
jv? In Fig. 2 shows an application example of the arrangement according to the invention, in which the tube R i | is supplied by a controlled transistor inverter TWR f§. The secondary signal of the transformer 77? is fed to a control of the transistor inverter TWR after integration by means of a capacitor C 1 and after rectification by a diode D 1 and subsequent smoothing or filtering by a further capacitor C2 of the transistor inverter TWR. A discharge resistor R 1 is also provided for the first capacitor C1. As mentioned, is in the secondary coil III of the transformer 77? an evaluable voltage is only generated when the tube R has ignited. The transistor inverter is controlled depending on this signal

An example of such a control is shown in FIG shown This unit is designed for retrofitting in existing devices

A negative signal appears at the connection »TWR-Ein« as soon as the transistor inverter 7WR des Device should operate the tube.

This results in a positive edge at the collector of Π, with the help of which the transistor Tl is brought to open via C3 and R 5.

Tl and TZ form a monostable multivibrator. By opening Tl also TZ is opened by the device located in the 7WR switching transistor is opened, the TWR starts to operate, and at the same time, the transistor Tl held open over C4 R 6 for a few seconds.

If a sufficiently large signal appears at the output of TR during this time (tube has ignited), Tl is kept open continuously via R 2, ZD 1. This means that the TZ also remains open and the inverter continues to work.

If the »TWR-On« signal goes away, Π blocks again, and Tl and TZ and thus also the 7TVR are switched off again via D 2, R 4 and ZD 1

Appears at the exit of 77? If the signal is not sufficiently large, after the recharging time from C 4 and Λ 6, Tl, TZ, and the TTVR switching transistor are also blocked again. The inverter stops working.

For this purpose 3 sheets of drawings

U

60

65

Claims (3)

1 2, on the other hand, a share of the work flow through each of the. Claims: Primary windings that do not flow through the other primary winding, which means that in the second 1. Arrangement for the detection of the alternating working winding a voltage is induced which the Änstroms a discharge lamp that has at least a 5 change in the working current proportional to the time is a heating coil heated by an alternating heating current, whereby the ignition state of the discharge lamp shows characterized by can be grasped. a transformer (TR) with a secondary winding This allows the heating current and the working ment (III) and two primary windings (I, II), are clearly separated from each other by current. It is the alternating heating current of the discharge lamp (R) it does not matter whether the discharge lamp is connected to a static flows in such a way that if the discharge lamp is not ignited, inverters with permanent heating or an There is no voltage in the secondary winding (III) indu- AC voltage network with choke and starter, is adorned, while with ignited discharge lamp in any case the secondary winding of the transformer pe (R) the working alternating current in the secondary gate emits a signal, the size of which changes the winding (HI) an evaluable voltage induces 15 working alternating current is proportional 2. Arrangement according to claim 1, characterized in that the inventive arrangement can advantageously be used to determine whether a static inverter operated by (R) between the primary windings (I, II) in series is a fluorescent switch and that the primary windings (I, II) lamp has ignited in a predetermined time or are wound in opposite directions. 20 is still in the preheating state. 3. Arrangement according to claim 1 or 2, identification device with the monitoring arrangement and the characterized by a lamp connected on the secondary side so locally separated from each other that one Timing element that is excluded after a specified time - optical monitoring Interval after switching on the supply of the The invention is illustrated in the drawing using the Discharge lamp (R) switches it off again when explained in more detail in the exemplary embodiment provided. It shows no evaluable F i g indicating their ignition state. 1 shows a schematic diagram of the inventive