DE19925795A1 - Gas discharge lamp drive circuit has current-compensated choke between feed and return lines to/from lamp with which electromagnetic noise caused by ignition pulses is suppressed - Google Patents

Abstract

The circuit has an electronic adapter (EVG) connected to a voltage supply and an ignition device (ZG) as well as a noise suppression device connected between a feed to the lamp (L) and a return line from the lamp for suppressing electromagnetic noise generated by the lamp drive. A current-compensated choke (D) is arranged between the feed and return lines with which the electromagnetic noise caused by ignition pulses is suppressed.

Description

State of the art

The invention relates to a lamp control circuit for a gas Discharge lamp, in particular of a motor vehicle, with a chip connected electronic ballast and a Ignitor as well as with one leading to the gas discharge lamp Outgoing conductor and an interference suppressor arranged from this return conductor direction for electromagnetic caused by the lamp control Disorders.

Such a lamp control circuit is specified in DE 43 10 307 A1. In this known lamp control circuit is electro suppression magnetic interference fields that occur during re-ignition peaks, during nominal operation occur in the gas discharge lamp, an electronic filter circuit with in an outgoing conductor and a return conductor for controlling the Gas discharge lamp each arranged inductive component and min  at least one capacitance arranged between the forward conductor and the return conductor tive component proposed. The electronic filter circuit is so close as the installation conditions allow for the gas discharge lamp, where rod inductors are specified for the inductive components have a rod-like ferrite core surrounded by a coil winding. To Start of lamp control caused by the ignition pulses Disruptions are insufficiently suppressed.

Ignition pulses are usually higher in order to ignite the gas discharge lamp Voltage, e.g. B. 20 kV is used, with large temporal voltage changes and current changes in the gas discharge lamp associated with them transient interference spreading the lamp in the direction of the power supply gene lead, increasing the potential or potential differences spatially spaced mass points occur that are equal clock disturbances due to the leads to the gas discharge lamp. Such common-mode interference is un with the previously known measures sufficiently suppressed.

The invention has for its object a lamp control circuit to provide at the beginning, with the particular common mode interference can be suppressed effectively and with simple measures.

This object is achieved with the features of claim 1. After that is provided that a current-compensated in the outgoing conductor and the return conductor Throttle is arranged. By inserting the current compensated choke in  the lines are particularly when the gas discharge lamp is ignited resulting common mode interference largely suppressed. At the tension supply is therefore only a small disturbance variable.

An embodiment of the lamp control circuit is that the current compensated choke between the electronic ballast and the gas Discharge lamp is arranged, and alternatively in that the Stromkom Penetrated choke between the voltage supply and the electronic Ballast is arranged.

A simple, compact design is achieved in that the current comp choked a ring wrapped by the forward and return lines core.

The invention is described below with reference to exemplary embodiments took explained in more detail on the drawings. Show it:

Fig. 1 is a schematic diagram of a lamp driver with an interference suppression device,

Fig. 2 shows another embodiment of a lamp drive Example with interference suppression device,

Fig. 3 Effect of a current-compensated choke in the operating current and

Fig. 4 Effect of the current-compensated choke in the event of an interference current.

As shown in Fig. 1, a lamp control circuit for a gas discharge lamp L consists of an electronic ballast EVG, which is connected via voltage supply lines VL to a supply voltage UV of a voltage supply. Connection lines AL with an outgoing conductor and a return conductor lead from the electronic ballast EVG to an ignition device ZG and a gas discharge lamp L connected to it.

The forward conductor and the return conductor are connected via a current-compensated choke D. a common toroid, with the outgoing conductor and the return conductor on the windings have applied windings. Outgoing conductor and return conductor are applied in opposite directions to the toroid.

For the operating current IB, the magnetic fields HB in the ring core cancel each other almost completely, as shown in FIG. 3.

For the interference current IS, caused by the ignition pulses in the form of a common mode interference, the current-compensated choke is effective as an inductor ( FIG. 4). The magnetic fields HS caused by the interference current IS do not cancel each other out here.

In the embodiment shown in FIG. 2, the current-compensated inductor D is arranged between the voltage supply and the electronic ballast EVG and, according to FIG. 1, is coupled to the forward conductor and the return conductor.

It has been shown that with a current compensated arranged in this way Choke D is largely suppressed a common mode interference, so that at the Power supply a much smaller disturbance is determined than for example in the case of interference suppression using voltage-limiting components such as B. capacitor, varistor and the like. That only to a local reduction of Cause disturbance.

Claims (4)

1. Lamp control circuit for a gas discharge lamp (L), in particular a motor vehicle, with an electronic ballast (EVG) connected to a voltage supply and an ignition device (ZG) and with a lead conductor leading to the gas discharge lamp (L) and one coming from the latter Return conductor arranged interference suppression device for electromagnetic disturbances caused by the lamp control, characterized in that a current-compensated choke (D) is arranged in the forward conductor and the return conductor, with which the electromagnetic disturbances caused by ignition pulses are suppressed. 2. lamp drive circuit according to claim 1, characterized, that the current compensated choke (D) between the electronic Ballast (EVG) and the gas discharge lamp (L) is arranged. 3. lamp drive circuit according to claim 1, characterized, that the current-compensated choke (D) between the voltage ver supply and the electronic ballast (EVG) is arranged. 4. lamp control circuit according to one of the preceding claims, characterized, that the current-compensated choke (D) one of the feed line and the Return line wrapped toroid.