BALLAST FOR A GAS DISCHARGE LAMP AND A METHOD OF CONTROLLING THIS BALLAST

Abstract

A ballast that comprises a DC-DC converter, a DC-AC converter, a lighting voltage generator and a control unit. A difference in voltage between input terminals of the lighting voltage generator is generated by a voltage step-up circuit of the “self-boosting” type from a DC voltage supplied by the DC-DC converter and an auxiliary voltage source V0. The ballast makes it possible to obtain a voltage level V2 that is equal to twice a first voltage level V1 increased by the auxiliary voltage V0.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a general block diagram of the gas discharge lamp ballast according to the invention illustrating the principle of the charging of the capacitor of the self-boosting circuit by the DC to DC converter.

FIG. 2 is a general block diagram of the gas discharge lamp ballast according to the invention illustrating the principle of the generation of the voltage difference applied to the primary of the ignition transformer.

FIG. 3 is an electrical diagram of a preferred embodiment of the ballast according to the invention.

Claims

1. A ballast lamp with gas discharge of the type comprising: a DC to DC converter supplying a DC voltage at a first predetermined level V1 from a DC supply source;a DC to AC converter comprising first, second, third and fourth switching elements connected as an inverter bridge, supplied by said DC to DC converter between a first node common to said first and second switching elements and a second node common to said third and fourth switching elements, and supplying during a continuous operating phase of a discharge lamp an AC voltage between a third node common to said first and third switching elements and a fourth node common to said second and fourth switching elements;an ignition voltage generator comprising output terminals connected in series with a lamp to said third and fourth nodes of said bridge, and input terminals subjected, during the initiation of the ignition phase of said discharge lamp, to a voltage difference of a second predetermined level V2.a control unit supplying first control signals to said DC to DC converter and second control signals to said DC to AC converter according to a control input dependent on said phases;wherein said voltage difference between said input terminals of said ignition voltage generator is generated by a voltage step up circuit of the “self-boosting” type from said DC voltage of said DC to DC converter and an auxiliary voltage source of a predetermined value V0.

2. The ballast lamp with gas discharge according to claim 1, wherein said second predetermined level V2 is equal to twice said first predetermined level V1 increased by said predetermined value V0.

3. The ballast lamp with gas discharge according to claim 2, wherein said voltage step-up circuit comprises a holding diode and a self-boosting capacitor in series, a common terminal between said holding diode and said self-boosting capacitor being electrically connected to a first of said input terminals of said ignition generator, the other terminal of said self-boosting capacitor being connected to said fourth node of said bridge, and the cathode or anode of said holding diode being connected to said auxiliary voltage source respectively at the positive or negative polarity of said DC voltage.

4. The ballast lamp for a gas discharge lamp according to claim 3, wherein said ignition generator comprises an ignition capacitor between said input terminals the second of said input terminals of said ignition generator being electrically connected to said second node of said bridge.

5. The ballast lamp for a gas discharge lamp according to claim 4, wherein said ignition generator comprises an addition a spark generator and a primary winding of an ignition transformer in series between said input terminals, a secondary winding of said ignition transformer being connected in parallel to said output terminals of said ignition generator.

6. The ballast lamp for a gas discharge lamp according to claim 3, wherein said switching elements are transistors of the IGBT type whose gates are connected to said control unit.

7. The ballast lamp for a gas discharge lamp according to claim 3, wherein said auxiliary voltage is zero, said anode or said cathode being connected to earth.

8. The ballast lamp for a gas discharge lamp according to claim 3, wherein said DC to DC converter comprises a step-up transformer with a single secondary winding whose primary winding is connected in series with a switching device on said DC source, and in that said auxiliary voltage is equal to the potential of the common point between said primary winding and said switching device, said anode or said cathode being connected to said common point.

9. A method of controlling a ballast for a gas discharge lamp according to claim 3, wherein: during the initiation of said ignition phase, said second control signals simultaneously cause the opening of said first and second switching elements and the closing of said third and fourth switching elements so as to charge said self-boosting capacitor in advance to a potential difference Vb by adding said DC voltage of said first predetermined level V1 and said auxiliary voltage of said predetermined value V0 and then said second control signals simultaneously cause the opening of said first and fourth switching elements and the closing of said second and third switching elements so as to apply to said input terminals of said ignition voltage generator the sum of said potential difference Vb and of said DC voltage of the-said first predetermined level V1;during said continuous operating phase, said second control signals cause alternately the simultaneous opening or closing of said first and fourth elements and respectively the simultaneous closing or opening of said second and third elements, so as to generate between said third and fourth nodes said AC voltage.

10. The method of controlling a ballast for a gas discharge lamp according to claim 8, wherein, during said initiation phase, said first control signals cause alternately the opening and closing of said switching device so as to generate said auxiliary voltage of said predetermined value V0.

11. A motor vehicle, comprising at least one ballast according to claim 1.

12. A ballast lamp with gas discharge of the type comprising: a DC to DC converter supplying a DC voltage at a first predetermined level V1 from a DC supply source;a DC to AC converter;an ignition voltage generator; anda control unit;wherein said DC to DC converter, said DC to AC converter, said ignition voltage generator and said control unit are operatively arranged so that a voltage difference between input terminals of said ignition voltage generator is generated by a voltage step up circuit of the “self-boosting” type from said DC voltage of said DC to DC converter and an auxiliary voltage source of a predetermined value V0.

13. The ballast lamp with gas discharge according to claim 12, wherein said second predetermined level V2 is equal to twice said first predetermined level V1 increased by said predetermined value V0.

14. The ballast lamp with gas discharge according to claim 13, wherein said voltage step-up circuit comprises a holding diode and a self-boosting capacitor in series, a common terminal between said holding diode and said self-boosting capacitor being electrically connected to a first of said input terminals of said ignition generator, the other terminal of said self-boosting capacitor being connected to said fourth node of said bridge, and the cathode or anode of said holding diode being connected to said auxiliary voltage source respectively at the positive or negative polarity of said DC voltage.

15. The ballast lamp for a gas discharge lamp according to claim 14, wherein said ignition generator comprises an ignition capacitor between said first of input terminals the second of said input terminals of said ignition generator being electrically connected to said second node of said bridge.

16. The ballast lamp for a gas discharge lamp according to claim 15, wherein said ignition generator comprises an addition a spark generator and a primary winding of an ignition transformer in series between said input terminals, a secondary winding of said ignition transformer being connected in parallel to said output terminals of said ignition generator.

17. The ballast lamp for a gas discharge lamp according to claim 14, wherein said switching elements are transistors of the IGBT type whose gates are connected to said control unit.

18. The ballast lamp for a gas discharge lamp according to claim 14, wherein said auxiliary voltage is zero, said anode or said cathode being connected to earth.

19. The ballast lamp for a gas discharge lamp according to claim 14, wherein said DC to DC converter comprises a step-up transformer with a single secondary winding whose primary winding is connected in series with a switching device on said DC source, and in that said auxiliary voltage is equal to the potential of the common point between said primary winding and said switching device, said anode or said cathode being connected to said common point.

20. A motor vehicle, comprising at least one ballast according to claim 12.