Ballast instant start circuit
First Claim
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1. A circuit, comprising:
- a resonant inverter circuit including at least first and second switching elements;
a first inductive element for energizing a first lamp, the first inductive element having a first terminal coupled to the first and second switching elements and a second terminal;
a second inductive element for energizing a second lamp, the second inductive element having a first terminal coupled to the first terminal of the first inductive element and second terminal, wherein the first and second inductive elements are disposed on a single bobbin;
a first capacitive element having a first terminal coupled to the second terminal of the first inductive element and a second terminal coupled to the second terminal of the second inductive element;
a first DC blocking capacitor for coupling in series with the first lamp;
a first parallel capacitor for coupling in parallel with the series coupled first lamp and first DC blocking capacitor;
a second DC blocking capacitor for coupling in series with the second lamp; and
a second parallel capacitor for coupling in parallel with the series coupled second lamp and second DC blocking capacitor;
wherein said first and second inductive elements are configured such that substantially no current flows between them as a result of their mutual inductance when said first and second lamps are operational.
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Accused Products
Abstract
An electronic circuit providing independent operation and application of instant start voltages to each of a plurality of lamps. In a first embodiment, a circuit includes inductively coupled first and second inductive elements disposed on a single bobbin. A capacitive element is coupled between the first and second inductive elements to allow the inductively coupled inductive elements to operate independently when a lamp is removed from the circuit. A steady state strike voltage is generated at the lamp terminals from which a lamp has been removed. In another embodiment, a circuit includes a first circuit path including a first inductive element coupled to a first lamp and a second circuit including a second inductive element coupled to a second lamp. The first and second inductive elements are inductively coupled to effectively cancel flux generated while the first and second lamps are energized. When one of the lamps is removed, flux is no longer canceled so that a strike voltage is generated at the lamp terminals from which the lamp was removed.
120 Citations
20 Claims
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1. A circuit, comprising:
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a resonant inverter circuit including at least first and second switching elements;
a first inductive element for energizing a first lamp, the first inductive element having a first terminal coupled to the first and second switching elements and a second terminal;
a second inductive element for energizing a second lamp, the second inductive element having a first terminal coupled to the first terminal of the first inductive element and second terminal, wherein the first and second inductive elements are disposed on a single bobbin;
a first capacitive element having a first terminal coupled to the second terminal of the first inductive element and a second terminal coupled to the second terminal of the second inductive element;
a first DC blocking capacitor for coupling in series with the first lamp;
a first parallel capacitor for coupling in parallel with the series coupled first lamp and first DC blocking capacitor;
a second DC blocking capacitor for coupling in series with the second lamp; and
a second parallel capacitor for coupling in parallel with the series coupled second lamp and second DC blocking capacitor;
wherein said first and second inductive elements are configured such that substantially no current flows between them as a result of their mutual inductance when said first and second lamps are operational. - View Dependent Claims (20)
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2. A circuit, comprising:
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a resonant inverter circuit including at least first and second switching elements;
a first inductive element for energizing a first lamp, the first inductive element having a first terminal coupled to the first and second switching elements and a second terminal;
a second inductive element for energizing a second lamp, the second inductive element having a first terminal coupled to the first and second switching elements and a second terminal, wherein the first and second inductive elements are disposed on a single bobbin;
a first capacitive element having a first terminal coupled to the second terminal of the first inductive element and a second terminal;
a second capacitive element having a first terminal coupled to the second terminal of the first capacitive element and a second terminal coupled to the second terminal of the second inductive element;
a first DC blocking capacitor for coupling in series with the first lamp;
a first parallel capacitor having a first terminal coupled to the second terminal of the first capacitive element and a second terminal for coupling to the first lamp; and
a second DC blocking capacitor for coupling in series with the second lamp, wherein said first and second inductive elements are configured such that substantially no current flows between them as a result of their mutual inductance when said first and second lamps are operational.
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3. A circuit, comprising:
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a resonant circuit for energizing a plurality of loads;
a first circuit path coupled to the resonant circuit for energizing a first one of the plurality of loads, the first circuit path being formed by a plurality of circuit elements coupled in series including a first inductive element, a first capacitive element and first terminals for connection to the first one of the plurality of loads; and
a second circuit path coupled to the resonant circuit for driving a second one of the plurality of loads, the second circuit path being formed by a plurality of circuit elements coupled in series including a second inductive element wound on a common core with said first inductive element, a second capacitive element and second terminals for connection to the second one of the plurality of loads;
wherein the first and second inductive elements are inductively coupled and configured such that substantially no current flows between them as a result of their mutual inductance when the loads are operational. - View Dependent Claims (4, 5, 6, 7, 8)
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9. A circuit, comprising:
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a resonant inverter circuit for energizing a plurality of lamps, the resonant inverter circuit including a resonant inductive element and a resonant capacitive element;
a first inductive element coupled to the resonant inverter circuit, the first inductive element being coupled to a first one of the plurality of lamps;
a first pair of lamp terminals coupled in series with the first inductive element;
a second inductive element coupled to the resonant inverter circuit, the second inductive element being coupled to a second one of the plurality of lamps;
a second pair of lamp terminals coupled in series with the second inductive element;
wherein the first and second inductive elements are inductively coupled with respective polarities such that current flow through the first inductive element tends to cancel flux generated by the second inductive element and such that substantially no induced current flow in said inductive elements results from their mutual inductance when said plurality of lamps are operational, and wherein a voltage sufficient to strike the lamp is generated at the first pair of terminals when the first lamp is removed from the circuit. - View Dependent Claims (10, 11)
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12. A resonant inverter circuit for energizing a plurality of loads, comprising:
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a first portion of the circuit comprising a resonant inductive element and a resonant capacitive element;
a first capacitor coupled to the first portion of the circuit between the resonant inductive and capacitive elements;
a first inductive element coupled to the first capacitor;
first lamp terminals coupled in series with the first inductive element;
a second inductive element coupled to the first capacitor, the second inductive element being inductively coupled with the first inductive element; and
second lamp terminals coupled in series with the second inductive element, wherein the series coupled first inductive element and first lamp terminals and the series coupled second inductive element and second lamp terminals are coupled in parallel, and said first and second inductive elements are configured such that there is substantially no current between them as a result of their mutual inductance when said loads are operational. - View Dependent Claims (13, 14, 15)
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16. A circuit for energizing a plurality of loads, comprising:
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first terminals for connection with a first one of the plurality of loads;
a first capacitive element coupled in parallel with the first terminals;
a first inductive element having a first terminal coupled to the first capacitive element and a second terminal coupled to a node;
a second inductive element having a first terminal coupled to the node and a second terminal;
a second capacitive element coupled to the second terminal of the second inductive element; and
second lamp terminals coupled in parallel with the second capacitive element, wherein said first and second inductive elements are configured such that substantially no current flows between them as a result of their mutual inductance when said plurality of loads are operational. - View Dependent Claims (17, 18, 19)
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Specification
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Current AssigneeChicago Miniature Optoelectronic Technologies, Inc.
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Original AssigneeElectro-Mag International, Inc.
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InventorsMoisin, Mihail S.
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Primary Examiner(s)Vu, David
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Assistant Examiner(s)Lee, Wilson
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Application NumberUS09/493,725Time in Patent Office480 DaysField of Search315/209.R, 315/224, 315/225, 315/244, 315/291, 315/307, 315/308, 315/312, 315/324, 315/DIG.5, 315/219US Class Current315/291CPC Class CodesH05B 41/2827 using specially adapted com...
