Spot mode operation for a discharge lamp

The invention claimed is: 1. Lighting device including a discharge lamp comprising a sealed discharge space and at least two electrodes arranged within the discharge space to produce an electrical arc, a driver circuit for delivering electrical power to said electrodes, where said driver circuit is disposed to deliver electrical power within a run-up interval after ignition of said arc by supplying an alternating current to said lamp, where during said run-up interval, the waveform of said alternating current is changed at least once to a spot-enforcing waveform, in order to change the mode of attachment of said arc to at least one of said electrodes to a spot mode. 2. Lighting device according to claim 1 , where said spot-enforcing waveform is first applied 1-100 s after ignition of said dis-charge lamp. 3. Lighting device according to claim 1 , where before applying said spot-enforcing waveform, said alternating current is applied at a run-up current level, where said spot-enforcing waveform comprises at least a cooling interval during which electrical current is supplied to said electrodes at a reduced current level below said run-up current level. 4. Lighting device according to claim 1 , where said spot-enforcing waveform comprises a cooling interval during which electrical current is supplied to said electrodes at a first current level with a first polarity such that a first electrode is operated as anode, and a spot mode interval directly after said cooling interval, during which electrical current is supplied to said electrodes at a second current level with opposite polarity such that said first electrode is operated as cathode. 5. Lighting device according to claim 4 , where an absolute value of said second current level is higher than an absolute value of said first current level. 6. Lighting device according to claim 1 , where before and after applying said spot-enforcing waveform, said current is supplied as an alternating current with a substantially constant run-up current level, where a time average current level during said spot-enforcing waveform is within +/−20% of said run-up current level. 7. Lighting device according to claim 1 , where said spot-enforcing waveform comprises at least a first interval, where a current is supplied as a first average current level and a first polarity, and a second interval directly after said first interval, where a current is supplied at a second average current level and a second polarity opposite to said first polarity, where each of said intervals have a duration longer than a period of the alternating current supplied before and after said spot-enforcing waveform. 8. Lighting device to claim 1 , where before applying said spot-enforcing waveform, said alternating current is applied at a run-up current level, and where said spot-enforcing waveform is comprises at least one interval, where a current is supplied at a first polarity, and a following interval, where a current is supplied at opposite polarity, where during at least one of said intervals an average current level is lower than said run-up current level, and where said intervals are repeated multiple times. 9. Lighting device to claim 1 , where said spot-enforcing waveform comprises at least a first interval, where a current is supplied at a first average current level and a first polarity, a second interval directly after said first interval, where a current is supplied at a second average current level different from said first average current level and with the same polarity, a third interval directly after said second interval, where a current is supplied at a third average current level and a polarity opposite to said first polarity, and a fourth interval directly after said third interval, where a current is supplied at a fourth average current level different from said third average current level and with the same polarity. 10. Lighting device according to claim 9 , where said first average current level has an absolute value that is higher than the absolute value of the second average current level, and where an absolute value of said third average current level is higher than an absolute value of said fourth average current level. 11. Lighting device according to claim 10 , where before and after said spot-enforcing waveform, said current is supplied as an alternating current with a substantially constant run-up current level, where an absolute value of said first average current level is higher than an absolute value of said run-up current level and an absolute value of said second average current level is less than an absolute value of said run-up current level, and where an absolute value of said third average current level is higher than an absolute value of said run-up current level and an absolute value of said fourth average current level is less than an absolute value of said run-up current level. 12. Lighting device according to claim 11 , where during said spot-enforcing waveform, said current is supplied as an alternating current with a commutation frequency lower than during the remaining run-up phase. 13. Lighting device according to claim 1 , where during said spot-enforcing waveform, said current is supplied as an alternating current with a commutation frequency, where an absolute value of said current is continuously modulated. 14. Lighting device according to claim 13 , where said current is continuously modulated at a modulation frequency higher than said commutation frequency. 15. Method of operating a discharge lamp comprising a sealed discharge space and at least two electrodes, the method comprising: delivering electrical power to said lamp during a run-up interval after ignition of said lamp by supplying an alternating current to said lamp, during said run-up interval, changing the waveform of said alternating current at least once to a spot-enforcing waveform in order to change the mode of attachment of said arc to said electrodes to a spot mode.