Filament cut-back circuit
First Claim
Patent Images
1. A filament cut-back circuit, comprising:
- a filament winding;
an impedance circuit in electrical communication with said filament winding, wherein said impedance circuit operates as a short circuit in response to a reception of an alternating voltage at a preheat frequency, and wherein said impedance circuit operates as an open circuit when the alternating voltage is at an operating frequency.
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Accused Products
Abstract
A filament cut-back circuit comprises an impedance circuit coupled in series between either an AC voltage source and a primary filament winding, or a secondary filament winding and a filament. In response to an alternating voltage from the AC voltage source when coupled in series thereto or an alternating voltage from the secondary filament winding when coupled in series thereto, the impedance circuit operates as a short circuit when the alternating voltage is at a preheat frequency and operates as an open circuit when the alternating voltage is at an operating frequency.
17 Citations
31 Claims
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1. A filament cut-back circuit, comprising:
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a filament winding;
an impedance circuit in electrical communication with said filament winding, wherein said impedance circuit operates as a short circuit in response to a reception of an alternating voltage at a preheat frequency, and wherein said impedance circuit operates as an open circuit when the alternating voltage is at an operating frequency. - View Dependent Claims (2, 3, 4, 23, 24)
means for applying said alternating voltage to the impedance circuit with said preheat frequency prior to lamp ignition and with said operating frequency after ignition of the discharge lamp.
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24. The filament cut-back circuit as claimed in claim 23 wherein the filament winding comprises a transformer having a primary winding coupled to the alternating voltage applying means and a secondary winding coupled to the filament of the discharge lamp via the impedance circuit.
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5. A filament cut-back circuit comprising:
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a filament winding;
an impedance circuit in electrical communication with said filament winding, wherein said impedance circuit operates as a short circuit in response to a reception of an alternating voltage at a preheat frequency, and wherein said impedance circuit operates as an open circuit when the alternating voltage is at an operating frequency, wherein said impedance circuit includes;
a first inductor (L1);
a capacitor (C) coupled in parallel to said first inductor (L1); and
a second inductor (L2) coupled in series to the parallel coupling of said first inductor (L1) and said capacitor (C). - View Dependent Claims (6, 7, 8)
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8. The filament cut-back circuit of claim 5, wherein an inductance of said first inductor (L1) and a capacitance of said capacitor (C) is according to:
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9. A filament cut-back circuit, comprising
a filament winding; - and
an impedance circuit in electrical communication with said filament winding, said impedance circuit including a first inductor (L1), a capacitor (C) coupled in parallel to said first inductor (L1) to constitute a parallel coupling of said first inductor (L1) and said capacitor (C), and a second inductor (L2) coupled in series to the parallel coupling of said first inductor (L1) and said capacitor (C). - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
said impedance circuit is operable to receive an alternating voltage; and
said capacitor (C), said first inductor (L1) and said second inductor (L2) operate as a short circuit when the alternating voltage is at a preheat frequency.
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14. The filament cut-back circuit of claim 13, wherein a first inductance of said first inductor (L1), a capacitance of said capacitor (C), and a second inductance of said second inductor (L2) is according to:
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15. The filament cut-back circuit of claim 9, wherein:
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said impedance circuit is operable to receive an alternating voltage; and
said capacitor (C), said first inductor (L1) and said second inductor (L2) operate as an open circuit when the alternating voltage is at an operating frequency.
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16. The filament cut-back circuit of claim 15, wherein an inductance of said first inductor (L1) and a capacitance of said capacitor (C) is according to:
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17. A method of operating a filament cut-back circuit including an impedance circuit, said method comprising:
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operating the filament cut-back circuit to provide an alternating voltage at a preheat frequency;
operating the impedance circuit as a short circuit in response to the alternating voltage being at the preheat frequency;
operating the filament cut-back circuit to provide the alternating voltage at an operating frequency subsequent to the alternating voltage being at the preheat frequency; and
operating the impedance circuit as an open circuit in response to the alternating voltage being at the operating frequency. - View Dependent Claims (18)
establishing an impedance Z(w) of the impedance circuit according to;
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19. A method of operating an impedance circuit employed within a filament cut-back circuit, the impedance circuit including a capacitor (C), a first inductor (L1) and a second inductor (L2), said method comprising:
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operating the impedance circuit as a short circuit in response to reception of an alternating voltage being at a preheat frequency; and
subsequently operating the impedance circuit as an open circuit in response to the alternating voltage being at an operating frequency. - View Dependent Claims (20, 21, 22)
establishing an impedance Z(w) of the impedance circuit in according to;
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21. The method of claim 19, further comprising:
establishing a first inductance of said first inductor (L1), a capacitance of said capacitor (C), and a second inductance of said second inductor (L2) according to;
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22. The method of claim 19, further comprising:
establishing an inductance of said first inductor (L1) and a capacitance of said capacitor (C) according to;
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25. A filament cut-back circuit for operation with a discharge lamp having a filament, the filament cut-back circuit comprising:
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filament winding means, an impedance circuit electrically coupled to the filament winding means, and means for applying an alternating voltage to the impedance circuit at a preheat frequency prior to lamp ignition and at an operating frequency after ignition of the discharge lamp, wherein said impedance circuit operates as a short circuit in response to the alternating voltage at the preheat frequency, and wherein said impedance circuit operates as an open circuit when the alternating voltage is at the operating frequency. - View Dependent Claims (26, 27, 28, 29, 30, 31)
the filament winding means comprises a transformer having a primary winding coupled to the alternating voltage applying means and a secondary winding, and means for coupling the impedance circuit and discharge lamp filament in series circuit to the transformer secondary winding.
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30. The filament cut-back circuit as claimed in claim 25 wherein the impedance circuit comprises inductor means and capacitor means coupled together to form first and second resonant circuits at the preheat frequency and the operating frequency, respectively.
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31. The filament cut-back circuit as claimed in claim 25 wherein the impedance circuit comprises inductor means and capacitor means coupled together, and
the inductor means and the capacitor means have fixed values of inductance and capacitance, respectively.
Specification