Lamp circuit with controlled ignition pulse voltages over a wide range of ballast-to-lamp distances
First Claim
Patent Images
1. A lamp circuit for using an AC power source to ignite a gas discharge lamp having prescribed minimum and maximum ignition pulse voltages, the circuit comprising:
- first and second lamp terminals;
an ignition pulse circuit coupled to the lamp terminals and functional to provide at least the minimum ignition pulse voltage at the lamp terminals to ignite the lamp, the ignition pulse circuit including a charge circuit;
the charge circuit comprising a non-linear filter element, the non-linear filter element providing a low effective impedance to current from the AC power source and a varying low to high effective impedance to current from the ignition pulses; and
wherein the effective impedance provided by the non-linear filter element to the current from the ignition pulses decreases when the ignition pulse voltage exceeds a voltage threshold.
2 Assignments
0 Petitions
Accused Products
Abstract
A lamp ignition circuit provides a high voltage electrical pulse to ignite a gas discharge lamp. A non-linear filter element within a charge circuit regulates the voltage of the ignition pulse such that the ignition pulse remains within a prescribed voltage range over a wide variety of conduit lengths between the lamp and the lamp ignition circuit. This allows for the ballast and lamp ignition circuit to be mounted either close to the lamp or far from the lamp without modifying the ignition circuitry.
21 Citations
16 Claims
-
1. A lamp circuit for using an AC power source to ignite a gas discharge lamp having prescribed minimum and maximum ignition pulse voltages, the circuit comprising:
-
first and second lamp terminals; an ignition pulse circuit coupled to the lamp terminals and functional to provide at least the minimum ignition pulse voltage at the lamp terminals to ignite the lamp, the ignition pulse circuit including a charge circuit; the charge circuit comprising a non-linear filter element, the non-linear filter element providing a low effective impedance to current from the AC power source and a varying low to high effective impedance to current from the ignition pulses; and wherein the effective impedance provided by the non-linear filter element to the current from the ignition pulses decreases when the ignition pulse voltage exceeds a voltage threshold. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A lighting circuit comprising:
-
a. a power source; b. a ballast coupled to the power source; c. a gas discharge lamp connected to the ballast by first and second lamp terminals through a conduit, the gas discharge lamp requiring an ignition pulse voltage within a minimum and maximum ignition pulse voltage range; d. an ignition pulse circuit coupled to the power source and to the ballast, the ignition pulse circuit including a switch functional to trigger ignition pulses having a pulse magnitude within the ignition pulse voltage range, and wherein the pulse magnitude depends in part on a first load impedance presented to the pulse ignition circuit by the lamp and conduit; and e. a non-linear filter element coupled to the ignition circuit, to the power source, and to the lamp, the non-linear filter element presenting a second load impedance to the ignition pulse circuit that varies non-linearly in response to certain combinations of frequency and voltage to cause the ignition pulse voltage to be maintained within the ignition pulse voltage range. - View Dependent Claims (7, 8, 9, 10)
-
-
11. A ballast for providing power to a gas discharge lamp from an AC power source comprising:
-
a. ballast power input terminals; b. ballast power output terminals; c. an ignition pulse circuit operative to generate lamp ignition pulses at the ballast power output terminals; d. a non-linear filter element coupled to the ballast input terminals, to the ignition pulse circuit and to the ballast output terminals; e. the non-linear filter element including an inductor to present a low impedance to current from the AC power source and a high impedance to current from the ignition pulses; f. the non-linear filter element further including a voltage clamp connected in parallel with the inductor, the voltage clamp having a clamping voltage; and g. the inductor and voltage clamp being functional to cause the non-linear filter element to lower an effective load impedance across the ballast output terminals when the ignition pulse voltage exceeds the clamping voltage and to increase the effective load impedance across the ballast output terminals when the ignition pulse voltage is below the clamping voltage. - View Dependent Claims (12, 13)
-
-
14. A method of igniting a gas discharge lamp connected to a ballast over a variable conduit length, the gas discharge lamp having a prescribed voltage range for ignition, the method comprising:
-
(a) providing a lamp circuit connected to a power source; (b) generating a high voltage ignition pulse from an ignition pulse source in the lamp circuit; and (c) dividing applying the high voltage pulse between to lamp output terminals and a charge circuit, wherein the charge circuit includes a non-linear filtering element having an impedance which varies with frequency and voltage such that the impedance increases with increased frequency and the impedance decreases when a clamping voltage is exceeded regardless of the frequency. - View Dependent Claims (15, 16)
-
Specification