Patent ID: 8305000
Filing Date: 2012-11-06
Classification: H05B,Y02B

Abstract:
1. A discharge lamp lighting apparatus for lighting a discharge lamp (Ld) in which a pair of electrodes (E 1 , E 2 ) for main discharge are arranged so as to face each other, the discharge lamp lighting apparatus comprising: a power supply circuit (Ux) that supplies electric power to the discharge lamp (Ld), an inverter (Ui) that is provided in a downstream side of the power supply circuit (Ux) and that performs polarity reversals of voltage applied to the discharge lamp (Ld); a periodic driving circuit (Uj) that generates an inverter driving signal (Sj) that is a periodic signal for carrying out periodic driving of the inverter (Ui); a frequency control circuit (Uf) that generates a frequency control signal (Sf) for controlling frequency of the periodic driving circuit (Uj); a resonant circuit (Nh), which is made up of a resonance inductor (Lh) and a resonant capacitor (Ch), which is arranged in a downstream side of the inverter (Ui), and which boosts voltage supplied to the discharge lamp (Ld) at start-up time of the discharge lamp (Ld), by a boosting action accompanying a resonance phenomenon; and a synchronization degree detection unit (Un) that generates a synchronization degree signal (Sn) corresponding to a difference between frequency of the periodic driving circuit (Uj), and resonance frequency of the resonant circuit (Nh), wherein in an optimum frequency detection sequence of the discharge lamp (Ld), the frequency control circuit (Uf) performs a sweep operation in which, while the frequency control circuit (Uf) monitors the synchronization degree signal, the frequency control signal (Sf) is changed, so that frequency is changed, starting from either an upper limit frequency or a lower limit frequency of the periodic driving circuit (Uj), in a range that does not exceed the other frequency, wherein after completion of the sweep operation, the frequency control circuit (Uf) determines a value of the frequency control signal (Sf) corresponding to the resonance frequency of the resonant circuit (Nh), and inputs the value into a frequency driving circuit (Uj), wherein at least in a period of the sweep operation, the inverter (Ui) receives power supply from a sweep time power supply circuit (Uy) for supplying electric power with constant supply capability, which is limited to a range in which breakdown does not occur in the discharge lamp (Ld), and wherein the synchronization degree signal (Sn) corresponds to output voltage of the sweep time power supply circuit (Uy).