Ballast circuit with controlled strike/restart
First Claim
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1. A ballast circuit for energizing a lamp, comprising:
- an inverter circuit for providing an AC signal to the lamp, the inverter including positive and negative voltage rails, and a first switching element; and
a start up circuit including a start up capacitor coupled between the positive and negative voltage rails of the inverter and to the first switching element for charging to a voltage level sufficient to bias the first switching element to a conductive state which initiates operation of the inverter; and
a start up switching element coupled to the start up capacitor, the start up switching element having a first state which discharges the start up capacitor and a second state which allows the start up capacitor to store charge.
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Abstract
A ballast circuit for energizing a lamp includes an inverter circuit with a start up circuit which provides a repeating start up sequence until a lamp lights. The start up circuit includes a start up switching element coupled across a start up capacitor which initiates operation of the inverter. A rapid start capacitor is charged as the inverter applies a signal to the lamp and the voltage on the rapid start capacitor determines the conduction state of the start up switching element. The inverter applies an increasing strike voltage to the lamp until the lamp lights or until the lamp voltage becomes greater than a predetermined level. After the restart capacitor discharges, the start up capacitor charges to re-initiate operation of the inverter. The ballast thereby applies a strike voltage to the lamp having a relatively small duty cycle for reduced stress on the circuit components.
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Citations
20 Claims
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1. A ballast circuit for energizing a lamp, comprising:
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an inverter circuit for providing an AC signal to the lamp, the inverter including positive and negative voltage rails, and a first switching element; and
a start up circuit including a start up capacitor coupled between the positive and negative voltage rails of the inverter and to the first switching element for charging to a voltage level sufficient to bias the first switching element to a conductive state which initiates operation of the inverter; and
a start up switching element coupled to the start up capacitor, the start up switching element having a first state which discharges the start up capacitor and a second state which allows the start up capacitor to store charge. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A ballast circuit for energizing a lamp, comprising:
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an inverter circuit having first and second switching elements coupled between positive and negative rails of the inverter;
a start up capacitor having a first terminal coupled to the positive rail and a second terminal coupled to the negative rail;
a start up switching element having a first terminal coupled to the first terminal of the start up capacitor, a second terminal, and a third terminal coupled to the negative rail of the inverter;
a rapid start capacitor having a first terminal coupled to the negative rail and a second terminal coupled to the second terminal of the start up switching element; and
a diode coupled between the lamp and the rapid start capacitor. - View Dependent Claims (14, 15, 16)
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17. A method for lighting a lamp, comprising:
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(a) energizing a ballast circuit having a switching element and a start-up capacitor connected to said lamp, (b) controlling a duty cycle of said switching element to increase energy delivered to said lamp, thereby increasing a voltage applied to said lamp, (c) disabling said switching element if the voltage applied to the lamp increases above a predetermined level;
(d) waiting for a predetermined amount of time; and
(e) repeating steps (b)-(d) until the lamp begins to emit light.
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18. A method for lighting a lamp, comprising:
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(a) energizing a ballast circuit having a switching element and a start up capacitor for initiating operation of an inverter;
(b) applying a steadily increasing strike voltage to the lamp;
(c) disabling the inverter when the voltage applied to the lamp increases above a predetermined level;
(d) waiting for a predetermined amount of time; and
(e) repeating steps (b)-(d), wherein the waiting for a predetermined amount of time corresponds to a time required for a rapid start capacitor to discharge which is charged as the inverter operates.
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19. A method for lighting a lamp, comprising:
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(a) energizing a ballast circuit having a switching element and a start up capacitor for initiating operation of the inverter;
(b) applying a steadily increasing strike voltage to the lamp;
(c) disabling the inverter when the voltage applied to the lamp increases above a predetermined level;
(d) waiting for a predetermined amount of time; and
(e) repeating steps (b)-(d), wherein the waiting for the predetermined amount of time further corresponds to a voltage level on the rapid start capacitor which controls a conduction state of a switching element coupled across a start up capacitor for initiating operation of the inverter. - View Dependent Claims (20)
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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)Wong, Don
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Assistant Examiner(s)Lee, Wilson
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Application NumberUS09/173,852Time in Patent Office837 DaysField of Search315/307, 315/308, 315/244, 315/224, 315/225, 315/209.R, 315/291, 315/247US Class Current315/291CPC Class CodesH05B 41/2985 against abnormal lamp opera...H05B 41/3927 by pulse width modulation H...
