Converter for providing boost voltage for a flash discharge lamp serving as a photographic light
First Claim
1. A converter including a booster transformer having a primary coil and a switching element adapted for make and break of a primary coil current through the primary coil of said booster transformer so that voltage of a DC source supplying said primary coil current is boosted by an output from the converter, characterized in that the booster transformer has a first secondary coil having a first end, said first secondary coil generating a positive voltage at said first end in reference with zero potential every time the primary coil current flows;
- and a second secondary coil having a first end, said second secondary coil generating negative voltage at said first end also in reference with the zero potential, so that a voltage corresponding to the sum of the positive voltage generated across the first secondary coil and the negative voltage generated across the second secondary coil is output between the first ends of the first and second secondary coils, wherein, in said booster transformer, the primary coil has one end connected to a positive terminal side of the DC source and the other end connected to a negative terminal side of said DC source via a collector-emitter path of a switching transistor;
the first end of the first secondary coil is connected to a diode so as to serve as a positive voltage output end and the first secondary coil has a second end connected to the negative terminal side of the DC source; and
the second secondary coil has a second end connected to the negative terminal side of the DC source via a base-emitter path of said transistor and the first end of the second secondary coil serves as a negative voltage output end.
1 Assignment
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Accused Products
Abstract
The present invention has an object to develop a converter allowing dielectric strength of a booster transformer to be reduced by half for miniaturization and security thereof. To achieve this object, the booster transformer is provided with first and second secondary coils so that, every time a switching element is turned ON, the first secondary coil generates positive voltage in reference with the negative terminal potential of a DC source while the second secondary coil generates negative voltage also in reference with the negative terminal potential of the DC source and a sum of these positive and negative voltages is output from the converter as a composite voltage.
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Citations
4 Claims
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1. A converter including a booster transformer having a primary coil and a switching element adapted for make and break of a primary coil current through the primary coil of said booster transformer so that voltage of a DC source supplying said primary coil current is boosted by an output from the converter, characterized in that the booster transformer has a first secondary coil having a first end, said first secondary coil generating a positive voltage at said first end in reference with zero potential every time the primary coil current flows;
- and a second secondary coil having a first end, said second secondary coil generating negative voltage at said first end also in reference with the zero potential, so that a voltage corresponding to the sum of the positive voltage generated across the first secondary coil and the negative voltage generated across the second secondary coil is output between the first ends of the first and second secondary coils, wherein, in said booster transformer, the primary coil has one end connected to a positive terminal side of the DC source and the other end connected to a negative terminal side of said DC source via a collector-emitter path of a switching transistor;
the first end of the first secondary coil is connected to a diode so as to serve as a positive voltage output end and the first secondary coil has a second end connected to the negative terminal side of the DC source; and
the second secondary coil has a second end connected to the negative terminal side of the DC source via a base-emitter path of said transistor and the first end of the second secondary coil serves as a negative voltage output end. - View Dependent Claims (2)
- and a second secondary coil having a first end, said second secondary coil generating negative voltage at said first end also in reference with the zero potential, so that a voltage corresponding to the sum of the positive voltage generated across the first secondary coil and the negative voltage generated across the second secondary coil is output between the first ends of the first and second secondary coils, wherein, in said booster transformer, the primary coil has one end connected to a positive terminal side of the DC source and the other end connected to a negative terminal side of said DC source via a collector-emitter path of a switching transistor;
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3. A converter including a booster transformer having a primary coil and a switching element adapted for make and break of a primary coil current through the primary coil of said booster transformer so that voltage of a DC source supplying said primary coil current is boosted by an output from the converter, characterized in that the booster transformer has a first secondary coil having a first end, said first secondary coil generating a positive voltage at said first end in reference with zero potential every time the primary coil current flows;
- and a second secondary coil having a first end, said second secondary coil generating negative voltage at said first end also in reference with the zero potential, so that a voltage corresponding to the sum of the positive voltage generated across the first secondary coil and the negative voltage generated across the second secondary coil is output between the first ends of the first and second secondary coils, wherein the booster transformer is provided with first and second primary coils so that the current flowing through the first primary coil generates positive voltage across the first secondary coil and the current flowing through the second primary coil generates negative voltage across the second secondary coil.
- View Dependent Claims (4)
Specification