Patent ID: 6624594
Filing Date: 2003-09-23
Classification: H05B,Y02B

Abstract:
A discharge lamp lighting circuit having a DC-DC converting circuit, a DC-AC converting circuit provided at a post stage of said DC-DC converting circuit, and a start-up circuit for generating a start-up pulse for application to a discharge lamp,wherein A) said start-up circuit includes a transformer, and at a primary side circuit with the primary winding of said transformer, a first capacitor and a switch element are provided, whereby in case of said switch element being conductive, a charge stored in said first capacitor is discharged, and a high voltage pulse generated in the secondary winding of said transformer is supplied as a start-up pulse to said discharge lamp; B) said DC-DC converting circuit includes a transformer and a switch element for the output control, and a first rectifying element and a smoothing capacitor are provided at the output stage of said transformer, whereby an energy stored in said transformer is stored into said smoothing capacitor through said first rectifying element by an on/off control of said switching element; C) said DC-AC converting circuit includes a bridge circuit using a plurality of switching elements, and the output signal of said DC-DC converting circuit is output, in the form of an alternate current varying at a fixed or variable frequency, through alternating operations of said switching elements by the on/off control; D) a circuit including a second capacitor and a second rectifying element between one of the output terminals of said DC-AC converting circuit and a ground line or a line equivalent to it, and said second capacitor is charged with current flowing in the direction as defined by said second rectifying element connected to said line; E) a circuit including a third capacitor and a third rectifying element is disposed between a node between the secondary winding of said transformer and said first rectifying element and a node on a line connecting said second capacitor and said second rectifying element, and said third capacitor is charged with current flowing in the direction as defined by said third rectifying element connected to a connection line connecting said second capacitor and said second rectifying element; and F) a node between said third capacitor and said third rectifying element is connected to a voltage supply line to said first capacitor to charge said capacitor.