DE102009009033B4 - Housing for an ignition transformer, transformer device and electronic ballast for a gas discharge lamp - Google Patents

Abstract

Housing for an ignition transformer for a gas discharge lamp, with:
a cavity designed to receive the ignition transformer, the cavity having an opening for inserting the ignition transformer into the housing;
a primary voltage connection which has two primary voltage contacts which are arranged such that they can be soldered to a printed circuit board which is arranged parallel to a first side of the housing;
a high-voltage connection which is located on a second side of the housing, which is different from the first side, and has two high-voltage contacts which can each be connected to a plug;
wherein the primary voltage contacts and the high voltage contacts are guided through a housing wall delimiting the cavity into the cavity and can be connected to the ignition transformer.

Description

The present invention relates to a housing for an ignition transformer for a gas discharge lamp, a transformer device for a gas discharge lamp and ballast electronics for a gas discharge lamp.

Xenon gas discharge lamps can generate light with a relatively high degree of efficiency. Such a gas discharge lamp can be one with xenon and other substances such as e.g. Include mercury and / or metal salts filled glass bulb in which two tungsten electrodes are located. An arc is generated between the electrodes, which emits an intense, white light.

Ballast electronics are used to operate the gas discharge lamp and supply the gas discharge lamp with electrical current. When the gas discharge lamp is switched on, an ignition voltage in the range of a few kilovolts, for example around 30 kV, is first applied between the electrodes in order to initiate a gas discharge between the electrodes. A significantly lower operating voltage is then applied between the electrodes, which maintains the gas discharge so that the gas discharge lamp generates light.

The operating voltage can be regulated in order to obtain a desired intensity of the light emitted by the gas discharge lamp. The required operating voltage can depend, among other things, on the age of the gas discharge lamp. While an operating voltage of approximately 60 V may be sufficient for new gas discharge lamps, an operating voltage of approximately 100 to 120 V may be required shortly before the end of the service life of the gas discharge lamp.

The electronic ballast can comprise electronic circuits for providing the ignition voltage and the operating voltage.

Ignition transformers are used to generate the ignition voltage. A primary voltage, which is generated by an electronic circuit that is part of the ballast electronics, is applied to a primary winding of the ignition transformer. The ignition voltage, which is significantly greater than the primary voltage, is generated in a secondary winding of the ignition transformer by electrical induction. An ignition transformer according to the prior art is for example in the WO 2006/119799 A1 described.

The ignition transformer can be mounted on a printed circuit board on which other components of the ballast electronics are also located, such as circuits for providing the primary voltage and the operating voltage. The secondary winding of the transformer can be connected to conductors on the circuit board that lead to plug contacts to which the lamp can be connected. The operating voltage can also be applied to the plug contacts. The circuit board can be encapsulated with an electrically insulating material in order to isolate the high voltage from the environment.

A disadvantage of the ballast electronics according to the prior art is that leakage currents on the surface of the circuit board and / or leakage currents can flow through the circuit board when the high voltage is applied between conductors of the circuit board. To reduce leakage currents and leakage currents, it may be necessary to maintain relatively large distances between the conductors to which the high voltage is applied and other conductors and / or electronic components located on the circuit board. However, this can lead to the ballast electronics becoming relatively large. As an alternative or in addition, the circuit board can be milled out in areas between the conductors to which the high voltage is applied and other components of the electronic ballast, which, however, can lead to a relatively high expenditure for the production of the electronic ballast.

According to document US 2008/0 191 627 A1 A high-voltage pulse generator for a discharge lamp is provided which comprises a pulse transformer in which a primary winding and a secondary winding are wound on a core, and a discharge lamp connector which is formed in a tubular shape with an opened front surface and a bottom made of an insulating material and which has an internal electrode terminal has, which is electrically connected to a high voltage part of the secondary winding in the ground. The high-voltage pulse generator further comprises a pulse generation capacitor and a discharge switch which are electrically connected to the primary winding of the pulse transformer. The discharge lamp connector is arranged so that its center lies on a center line passing through a substantial center in an axis direction (a direction parallel to a center line) of the pulse transformer and perpendicular to the axis direction. The capacitor and the discharge switch are arranged in such a way that they are opposite the high-voltage part of the secondary winding and a high-voltage area including the inner electrode connection with the discharge lamp connection in between.

From scripture U.S. 5,722,768 A there is known a lamp using a discharge lamp as a light source whose size is in axial directions is reduced, a discharge lamp built into a lamp body being used as the light source. A lighting circuit for illuminating the discharge lamp is accommodated in a housing and the housing is integrated into the lamp body. The housing with the lighting circuit, which is structured thinly, is arranged on the rear side of a base connector of the discharge lamp, and a circuit section which forms the lighting circuit is arranged in an outer peripheral region of the base connector.

In Scripture DE 202 04 920 U1 a coil arrangement is described, comprising a coil former for receiving at least one winding and with connecting pins for electrically connecting the winding ends to conductor tracks of a circuit board. Furthermore, the coil arrangement comprises a potting housing with a housing cap which has a cap opening for inserting the coil former.

The font JP H11-16,752 A Figure 4 shows a high voltage transformer with a coil having outer flange portions at both ends and a separating flange portion between the outer flange portions. A primary winding is wound around the spool between an outer flange portion and the separating flange portion. A secondary winding is wound around the spool between the other outer flange portion and the separating flange portion. The coil wound with the windings is accommodated together with a core in a housing which has a cuboid shape and an opening on one side. The remaining space of the case is filled with an insulating resin. The end portion of the outer flange portion of the spool is formed such that the end portion has a round part on the side of the secondary spool in the axial direction of the spool and an angled part on the opposite side.

It is an object of the present invention to provide a housing for an ignition transformer for a gas discharge lamp, a transformer device for a gas discharge lamp and ballast electronics for a gas discharge lamp with which the above-mentioned disadvantage of ballast electronics according to the prior art can be avoided.

A housing according to the invention for an ignition transformer for a gas discharge lamp comprises a cavity which is designed to accommodate the ignition transformer. The cavity has an opening for inserting the ignition transformer into the housing. The housing also comprises a primary voltage connection which has two primary voltage contacts which are arranged such that they can be soldered to a circuit board which is arranged parallel to a first side of the housing. In addition, the housing comprises a high-voltage connection, which is located on a second side of the housing, which is different from the first side, and has two high-voltage contacts, which can each be connected to a plug. The primary voltage contacts and the high voltage contacts are guided through a housing wall delimiting the cavity into the cavity and can be connected to the ignition transformer.

Through the high-voltage connection, the high voltage generated by the ignition transformer can be fed to the gas discharge lamp via cables that are connected to the high-voltage contacts by plugs. Since the high-voltage contacts are led through the housing wall delimiting the cavity into the cavity, the transformer can be connected directly to the high-voltage contacts and it is not necessary to conduct the high voltage generated by the transformer via conductors that are located on a circuit board. This allows leakage currents on the circuit board and leakage currents through the circuit board to be avoided or at least reduced. Since the high-voltage connection is on a side of the housing that is not covered by the circuit board when the housing is mounted on the circuit board, the high-voltage connection remains accessible even when the primary voltage contacts are soldered to the circuit board, and a contact between the high voltage and the circuit board can be avoided.

In some embodiments, the opening of the cavity can be on the first side of the housing. Since the opening is in the vicinity of the primary voltage contacts in such embodiments, connections of the primary winding of the ignition transformer can easily be connected to the primary voltage contacts after the ignition transformer has been inserted into the cavity.

In some embodiments, the high-voltage connection comprises a first connection part and a second connection part. These each have an interior space which is open on a side opposite the first side of the housing and in which some of the high-voltage contacts are located. Plugs, with the help of which the high-voltage contacts are connected to the gas discharge lamp, can be attached inside the interior. A creepage distance between the high-voltage contacts and the circuit board is extended through the walls of the interior.

In some embodiments, the first and the second connection part each comprise a hollow cylinder, the axis of which extends along a direction from the first side of the housing to a side opposite the first side. On the first side, the hollow cylinder is closed by a base. This shape enables a particularly simple and durable connection between the plug and the high-voltage contacts.

The hollow cylinders of the first and second connection parts can be circular cylinders or prisms.

In some embodiments, the housing further comprises a supply voltage connection with two first supply voltage contacts that can be connected to a plug. The supply voltage connection is located on a side different from the first side of the housing. Two second supply voltage contacts are each electrically connected to one of the first supply voltage contacts and are arranged such that they can be soldered to a circuit board that is parallel to the first side of the housing.

Through the supply voltage connection and the second supply voltage contacts, a supply voltage can be fed to conductors that are formed on the printed circuit board in order to supply electrical circuits on the printed circuit board, which can be part of an electronic ballast for the gas discharge lamp, for example. This means that further connections for the supply voltage can be dispensed with, which can enable the electronic ballast to be manufactured more cost-effectively.

In some embodiments, with the exception of the high-voltage contacts, the primary voltage contacts and the supply voltage contacts, the housing can be formed from an electrically insulating material with a dielectric strength of more than 20 kV / mm and / or a tracking resistance with a CTI value of more than 600. As a result, the high voltage generated by an ignition transformer housed in the cavity of the housing can be isolated particularly well from the surroundings of the housing.

A transformer device according to the invention for a gas discharge lamp comprises a housing with some or all of the features described above and an ignition transformer. The ignition transformer is located in the cavity of the housing and is electrically connected to the high-voltage contacts and the primary voltage contacts. A part of the cavity not occupied by the ignition transformer is filled with a potting material that envelops the ignition transformer.

By potting the cavity with the potting material, the ignition transformer can be electrically isolated from its surroundings.

Ballast electronics for a gas discharge lamp according to the present invention comprise a transformer device with the features described above and a printed circuit board. The circuit board has an electrical circuit which is designed to apply a primary voltage for the ignition transformer between two conductors of the circuit board. The transformer device is attached to the printed circuit board in such a way that the first side of the housing faces the printed circuit board and the primary voltage contacts are soldered to the two conductors of the printed circuit board.

An electrical circuit for providing an operating voltage for the gas discharge lamp can also be formed on the circuit board. As a result, all components of the electronic ballast can be formed on a single circuit board, which enables the electronic ballast to be manufactured in a space-saving manner.

• 1a eine schematische Perspektivansicht eines Gehäuses für einen Zündtransformator für eine Gasentladungslampe gemäß einer Ausführungsform der vorliegenden Erfindung;
• 1a und 1b schematische Querschnittsansichten des in 1a gezeigten Gehäuses; und
• 2 eine schematische Querschnittsansicht einer Vorschaltelektronik für eine Gasentladungslampe gemäß einer Ausführungsform der vorliegenden Erfindung.

Embodiments of the present invention are described with reference to the accompanying figures. Show it:

• 1a a schematic perspective view of a housing for an ignition transformer for a gas discharge lamp according to an embodiment of the present invention;
• 1a and 1b schematic cross-sectional views of the in 1a housing shown; and
• 2 a schematic cross-sectional view of electronic ballast for a gas discharge lamp according to an embodiment of the present invention.

1a shows a schematic perspective view of a housing 100 for an ignition transformer for a gas discharge lamp according to an embodiment of the present invention. Cross-sectional views of the housing 100 along planes that are in 1a by reference numerals 130 , 131 are designated are in 1 b and 1c shown. It shows 1b a cross section through the housing 100 along the plane 130 and 1c shows a cross section along the plane 131 .

The case 100 has a first side 150 on that in the perspective view of the 1a below and from the housing 100 is covered. Also, the case has 100 a second page 151 (in the perspective view of the 1a left), a third page 152 (in the perspective view of the 1a back) a fourth page 154 (in the perspective view of the 1a right) and a fifth page 155 (in the perspective view of the 1a front). A sixth page 153 of the housing is on the first side 150 opposite and is in the perspective view of 1a visible from above.

The case 100 includes a cavity 101 . The shape and size of the cavity 101 are designed in such a way that an ignition transformer for a gas discharge lamp is inserted into the cavity 101 can be used. For example, the cavity 101 in some embodiments have a substantially cuboid shape with a length of 25 mm, a width of 20 mm and a height of 14 mm, the length in one direction from the third side 152 to the fifth page 155 , the width in one direction from the second side 151 to the fourth page 154 and the height in one direction from the first side 150 to the sixth page 153 can be measured.

On the first page 150 of the housing 100 exhibits the cavity 101 an opening 102 on, through which the ignition transformer enters the cavity 101 can be used. In embodiments in which the cavity 101 has a substantially cuboid shape, the opening 102 be formed in that on a surface of the cuboid on the first side 150 of the housing 100 lies, one the cavity 101 limiting housing wall is completely or partially omitted. The cavity can be used on the other surfaces of the cuboid 101 be limited by housing walls.

The present invention is not limited to embodiments in which the cavity 101 has a substantially cuboid shape. In other embodiments, it can also have a substantially cylindrical shape. In further embodiments, the cavity 101 have a shape corresponding to the outer shape of a known ignition transformer, so that the ignition transformer essentially precisely fits into the cavity 101 can be used.

The case 100 also has a primary voltage connection 103 on. The primary voltage connection 103 includes two primary voltage contacts 104 , 105 . In the in 1a to 1c The embodiment shown protrude the primary voltage contacts 104 , 105 on the fifth page 155 of the housing 100 out of a housing wall and are near an edge between the first side 150 and the fifth page 155 appropriate. The primary voltage contacts can each have a front area 125 , 126 have, which is designed to be connected to the first side 150 of the housing 100 lies in one plane.

As detailed below, the housing 100 mounted on a printed circuit board, with the first side 150 rests on a surface of the circuit board. The front areas 125 , 126 the primary voltage contacts rest on the circuit board so that the front areas 125 , 126 can be soldered to conductors formed on the surface of the circuit board. Thus the primary voltage contacts are 104 , 105 designed in such a way that they are connected to a circuit board that is parallel to the first side 150 of the housing 100 is arranged, are solderable.

In other embodiments, the primary voltage contacts 104 , 105 in one to the first page 150 perpendicular direction in the plane of the drawing 1c runs down, out of the housing 100 stick out. In such embodiments, the primary voltage contacts 104 , 105 through holes in a printed circuit board on the first side of the housing 100 applied, plugged and soldered on the back of the circuit board with conductors that are formed on the back of the circuit board. Thus the primary voltage contacts are 104 , 105 also in such embodiments with a circuit board that is parallel to the first side 150 of the housing 100 is arranged, formed solderable.

The primary voltage contacts 104 , 105 are through a housing wall that forms the cavity 101 on the fifth page 155 limited, in the cavity 101 guided. Connections of a primary winding of an ignition transformer, which is located in the cavity 101 located inside the cavity 101 with the primary voltage contacts 104 , 105 be electrically connected, for example by soldering connecting wires of the ignition transformer to the ends of the primary voltage contacts 104 , 105 that went into the cavity 101 protrude. Thus, through the primary voltage connection 103 an electrical contact between the primary winding of one in the cavity 101 housed ignition transformer and conductors formed on a printed circuit board are made to apply the primary voltage to the ignition transformer.

The case 100 also has a high-voltage connection 106 on. The high voltage connection 106 is in the in 1a to 1c embodiment shown on the second side 151 of the housing 100 attached to the fifth side 155 , from which the primary voltage contacts 104 , 105 protrude, adjoins. In other embodiments, the high-voltage connection 106 also on one of the other sides with the exception of the first side 150 be attached so that it is not covered by a circuit board on which the first side 150 of the housing 100 rests.

The high voltage connection 106 can have a first connector 109 and a second connector 110 include.

The first connector 109 can make an interior 111 have that on the sixth page 153 of the housing 100 that the first page 150 opposite, is open. In some embodiments, the first connection part 109 have the shape of a hollow cylinder on the first side 150 through a floor 156 is completed. One axis 113 the hollow cylinder can extend along a direction from the first side 150 to the sixth page 153 extend. The axis 113 can go to the first page 150 or to one on the first page 150 lying plane must be essentially perpendicular, so that it is essentially perpendicular to the surface of a circuit board on which the housing 100 with the first page 150 is fastened downwards.

The first connector 109 can make a first high-voltage contact 107 include. This can be an electrically conductive pin 115 have along the axis 113 of the hollow cylinder extends. Another part of the high voltage contact 107 can through the floor 156 of the first connector 109 and the the cavity 101 on the second page 151 final housing wall through into the interior of the cavity 101 be performed so that the high voltage contact 107 with a secondary turn one into the cavity 101 The ignition transformer used can be connected, for example by soldering connecting wires of the ignition transformer to one in the cavity 101 protruding end of the first high-voltage contact 107 .

Similar to the first connector 109 can be the second connector 110 an interior 112 have that on the sixth page 153 of the housing 100 is open.

The second connection part can be in the form of a hollow cylinder with a cylinder axis 114 leading to the cylinder axis 113 is parallel and differs from the first side 150 to the sixth page 153 of the housing 100 extends, have. The second connector 110 can also have a second high-voltage contact 108 include that a pen 116 may comprise an electrically conductive material extending along the axis 114 extends and through a bottom surface (not shown) which closes the hollow cylinder of the second connection part on the first side of the housing, and through a cavity 101 on the second page 151 delimiting housing wall be guided into the interior of the cavity. Further features of the second connector 110 can match those of the first connector 109 correspond.

The present invention is not limited to embodiments in which the connecting parts 109 , 110 Have hollow cylinders in the form of a circular cylinder, as in 1a to 1c shown. In other embodiments, the connecting parts 109 , 110 also have a hollow cylinder with a different cylindrical shape, which is produced by parallel displacement of a base along the axes 113 , 114 arises. For example, in some embodiments the hollow cylinders can be prisms, the interiors of which 111 , 112 geometrically by parallel displacement of a polygon along the axes 113 , 114 arises. In some embodiments, the interiors of the connection parts 109 , 110 for example have a cuboid shape.

In some embodiments, the housing 100 also a supply voltage connection 120 exhibit. The supply voltage connection 120 can on the fourth page 154 of the housing 100 or one of the second page 151 , the third page 152 , the fourth page 154 or the fifth page 155 be arranged. The supply voltage connection 120 can make an interior 132 have, which can have a cylindrical shape, for example a prismatic shape, in particular a cuboid shape. In the interior 132 can be two first supply voltage contacts 121 , 122 located in the form of pins that are in one direction from the first side 150 to the sixth page 153 of the housing 100 extend, can be formed. The interior 132 of the supply voltage connection 120 can be on the sixth side of the case 100 be open so that the supply voltage contacts 121 , 122 from the sixth page 153 are accessible from.

The supply voltage connection 120 further comprises two second supply voltage contacts 123 , 124 . The second supply voltage contacts 121 , 122 are each connected to one of the first supply voltage contacts 121 , 122 electrically connected. For example, the supply voltage contacts 121 and 123 be connected to each other and the supply voltage contacts 122 , 124 can be connected to each other. In some embodiments, the supply voltage contacts 121 and 123 are provided in the form of a first one-piece metal part and the supply voltage contacts 122 and 124 can be provided in the form of a second integral metal piece.

The second supply voltage connections 123 , 124 can be arranged so that they are connected to a circuit board facing the first side 150 of the housing 100 is parallel and / or on the first side 150 of the housing 100 rests, can be soldered. For this purpose, the second supply voltage connections 123 , 124 in some embodiments near the edge between the first side 150 and the fourth page 154 from one on the fourth page 154 arranged housing wall protrude and each have a front portion that has a plane on the first side 150 touches, similar to the above for the primary voltage connections 104 , 105 described.

In other embodiments, the second supply voltage contacts 123 , 124 perpendicular to the first page 150 out of the case 100 stick out and be designed to pass through holes in a circuit board onto which the housing 100 with the first page 150 is placed downwards, plugged in and soldered to the back of the circuit board with conductors that are attached to the back of the circuit board.

The high voltage contacts 107 , 108 , the primary voltage contacts 104 , 105 , the first supply voltage contacts 121 , 122 and the second supply voltage contacts 123 , 124 can be formed from an electrically conductive material, for example a metal. Other parts of the case 100 can be formed from an insulating material, for example from plastic or a ceramic material. In some embodiments, parts of the housing 100 be made of a material with a dielectric strength of more than 20 kV / mm and / or a tracking resistance with a CTI value of more than 600. This allows the high voltage contacts 107 , 108 , the primary voltage contacts 104 , 105 and the supply voltage contacts 121 , 122 , 123 , 124 especially good from each other and from one in the cavity 101 housed ignition transformer must be electrically isolated.

2 shows a schematic cross-sectional view of ballast electronics 200 for a gas discharge lamp according to an embodiment of the present invention.

The ballast electronics 200 comprises a transformer device 250 .

The transformer device 250 includes a housing 100 that some or all of the above with reference to 1a to 1c may have the features described. In the cavity 101 of the housing 100 there is an ignition transformer 251 for a gas discharge lamp. The ignition transformer 251 can have a core 209 and a bobbin 208 embrace that of the core 209 encloses. The bobbin 208 may have a primary winding and a secondary winding which are inductively coupled to one another, so that a change in a current flowing through the primary winding induces a voltage in the secondary winding.

The primary winding of the ignition transformer 251 can be electrically connected to the primary voltage contacts 104 , 105 of the housing 100 be connected. For this purpose, connecting wires from the primary winding can also be placed in the cavity 101 protruding ends of the primary voltage contacts 104 , 105 be soldered.

The secondary winding of the ignition transformer 251 can be electrically connected to the high voltage contacts 107 , 108 of the housing 100 be connected. For this purpose, connecting wires from the secondary winding can also be placed in the cavity 101 protruding ends of the high-voltage contacts 107 , 108 be soldered. In 2 is for example a connecting wire 210 shown, which is the secondary winding of the ignition transformer 251 with the high voltage connection 107 connects.

One not from the ignition transformer 251 occupied part of the cavity 101 can with a potting material 207 be filled. For this purpose the housing can after the insertion of the ignition transformer 251 into the cavity 101 , soldering the connection wires of the primary winding of the ignition transformer to the primary voltage contacts 104 , 105 and soldering the connecting wires of the secondary winding of the ignition transformer 251 with the high voltage contacts 107 , 108 be held in a position in which the opening 102 of the cavity 101 facing up. Then the potting material can 207 in liquid form into the cavity 101 be filled and solidified in this. In some embodiments, the housing 100 be held so that the first page 150 is essentially horizontal so that the potting material 207 with one to the first page 150 solidified parallel surface. A fill level of the potting material 207 can be set so that the ignition transformer 251 that went into the cavity 102 protruding ends of the high-voltage contacts 107 , 108 and the primary voltage contacts 104 , 105 as well as the connecting wires of the ignition transformer 251 beneath the surface of the potting material 207 are located so that they pass through the potting material 207 enclosed and electrically isolated from their surroundings. In some embodiments, the cavity 101 essentially completely with the potting material 207 be filled so that the surface of the potting material with the first side 150 of the housing lies in one plane.

The potting material 207 may contain polyurethane or an epoxy resin in some embodiments.

The ballast electronics 200 further comprises a circuit board 212 . On the circuit board 212 can provide an electrical circuit (not shown) for providing a primary voltage for the ignition transformer 250 be trained. In addition, an electrical circuit (not shown) for providing an operating voltage for the gas discharge lamp can also be provided on the circuit board.

The circuit for providing the primary voltage can be designed to apply the primary voltage between two conductors on the circuit board 212 are trained. The two conductors may include contact pads that are on the surface of the circuit board 212 are designed and arranged such that they are connected to the primary voltage contacts 104 , 105 Can be soldered if the transformer device 250 at a predetermined location on the circuit board 212 is attached.

The transformer device 100 can like this on the circuit board 212 be appropriate that the first page 150 of the housing 100 the circuit board 212 facing and the circuit board 212 the opening of the cavity 101 covered. As the interiors of the connecting parts 109 , 110 of the high voltage connection 106 to that of the first page 150 opposite sixth side of the case 100 are open, they are also after the transformer device is attached 250 on the circuit board 212 accessible.

In embodiments in which the primary voltage contacts 104 , 105 have a front portion that is connected to the first side 150 of the housing 100 lies in one plane, as above with reference to 1a to 1c described, the conductor tracks and the contact pads on one of the transformer device 250 facing side of the circuit board 212 be formed and with a surface mounting technique with the primary voltage contacts 104 , 105 be soldered.

In embodiments in which the primary voltage contacts 104 , 105 Include pins that are substantially perpendicular to the first side 150 of the housing 100 from the housing 100 protrude, the conductor tracks and the contact pads on a side of the circuit board facing away from the transformer device 212 be trained. The circuit board can have bores in the contact pads through which the primary voltage contacts 104 , 105 can be plugged. Then the primary voltage contacts 104 , 105 be soldered to the contact pads.

In embodiments in which the housing 100 the transformer device 250 a supply voltage connection 120 can on the circuit board 212 In addition, contact pads can be formed which are designed to connect to the second supply voltage contacts 123 , 124 to be soldered. The contact pads, one of which is in 2 and with the reference number 211 is designated, can be electrically connected to the circuit for providing the primary voltage for the ignition transformer 250 and / or the circuit for providing the operating voltage for the gas discharge lamp be connected in order to supply it with current.

In the connecting parts 109 , 110 of the high voltage connection 106 plugs can be plugged in, of which 2 one shown and with the reference number 201 is designated.

The plug 201 can in the interior 111 of the connector 109 be introduced. An electrically conductive section can be inside the plug 202 be provided on the pin 115 of the high voltage contact 107 can be plugged in to make electrical contact with it. The conductive section 202 can of an insulating section 210 surrounded and with a cord 203 be connected, which can be connected to a gas discharge lamp and through which the ignition transformer 251 The high voltage generated can be fed to the gas discharge lamp. In the other connector 110 an essentially identically constructed plug can be plugged in, which is also connected to a cable that can be connected to the gas discharge lamp.

In the interior 132 of the supply voltage connection 120 can another connector 204 are introduced, which can be connected to a power source, for example a battery. The plug can comprise two electrically conductive sections which are designed for each one of the first supply voltage contacts 121 , 122 to contact. One of the electrically conductive sections is in 2 and with the reference number 205 designated. With the electrically conductive sections of the plug 204 can use electrical lines to connect the connector 204 connected to the power source, one of which is in 2 and with the reference number 206 is designated.

Claims (12)

Housing for an ignition transformer for a gas discharge lamp, comprising: a cavity which is designed to receive the ignition transformer, the cavity having an opening for inserting the ignition transformer into the housing; a primary voltage connection which has two primary voltage contacts which are arranged such that they can be soldered to a printed circuit board which is arranged parallel to a first side of the housing; a high-voltage connection located on a second side of the housing that is different from the first side, and two Has high-voltage contacts which can each be connected to a plug; wherein the primary voltage contacts and the high voltage contacts are guided through a housing wall delimiting the cavity into the cavity and can be connected to the ignition transformer. Housing after Claim 1 , wherein the opening of the cavity is on the first side of the housing. Housing after Claim 1 or 2 wherein the high-voltage connection comprises a first connection part and a second connection part, each of which has an interior space that is open on a side opposite the first side of the housing and in which part of one of the high-voltage contacts is located. Housing after Claim 3 wherein the first and the second connecting part each comprise a hollow cylinder, the axis of which extends along a direction from the first side of the housing to the side opposite the first side, and is closed on the first side by a base. Housing after Claim 4 wherein each of the high-voltage contacts has an electrically conductive pin which extends in each case along the axis of the hollow cylinder of the first and the second connection part. Housing according to one of the Claims 4 and 5 , wherein the hollow cylinders of the first and second connecting parts are circular cylinders. Housing according to one of the Claims 4 and 5 , wherein the hollow cylinders of the first and the second connection part are prisms. Housing according to one of the Claims 1 to 7th , which additionally comprises: a supply voltage connection with two first supply voltage contacts which can be connected to a plug, wherein the supply voltage connection is located on a side different from the first side of the housing, two second supply voltage contacts which are each electrically connected to one of the first supply voltage contacts and are arranged such that they can be soldered to a circuit board which is parallel to the first side of the housing. Housing according to one of the Claims 1 to 8th , the housing, with the exception of the high-voltage contacts, the primary voltage contacts and the first and second supply voltage contacts, being made of an electrically insulating material with a dielectric strength of more than 20 kV / mm and / or a tracking resistance with a CTI value of more than 600. Transformer device for a gas discharge lamp comprising: a housing according to one of the Claims 1 to 9 an ignition transformer which is located in the cavity of the housing and is electrically connected to the high-voltage contacts and the primary voltage contacts; and an electrically insulating potting material which fills a part of the cavity not occupied by the ignition transformer and envelops the ignition transformer. Ballast electronics for a gas discharge lamp with: a transformer device according to Claim 10 ; and a printed circuit board with an electrical circuit which is designed for applying a primary voltage for the ignition transformer between two conductors of the printed circuit board; wherein the transformer device is attached to the circuit board in such a way that the first side of the housing faces the circuit board and the primary voltage contacts are soldered to the two conductors of the circuit board. Ballast electronics for a gas discharge lamp according to Claim 11 , wherein an electrical circuit for providing an operating voltage for the gas discharge lamp is additionally formed on the circuit board.

Images