Claims
- 1. In a low-voltage landscape lighting system having a stepdown transformer, said stepdown transformer having a predetermined power rating and primary and secondary windings with said primary winding being adapted for connection to an AC supply source and said secondary winding being adapted for connection to a low-voltage outdoor power distribution cable and a plurality of lamp fixtures electrically connected to said power distribution cable, the improvement comprising:
- each lamp fixture including a low-voltage, non-thermionic, gas discharge light-producing sub-system, each sub-system comprising:
- at least one gas discharge lamp device with lamp electrodes spaced in a gaseous medium, a light transmissive envelope confining said gaseous discharge medium at a predetermined pressure between said lamp electrodes, and
- a high-frequency alternating current square wave voltage
- driver circuit,
- said high-frequency alternating current square wave voltage driver circuit including a rectifier connected to said power distribution cable said rectifier having output terminals constituting a direct current source, a solid state switch circuit connected between said direct current source and said lamp electrodes and means connecting said switch circuit to said lamp electrodes, said switch circuit being operated to generate a substantially square wave alternating current voltage at said lamp electrodes to start and operate said gas discharge lamp device such that the square wave voltage applied to said lamp electrodes reverses polarity more rapidly than the pattern of electron and ion density in the gas can shift and electrons throughout the space between said lamp electrodes are continually accelerated and will, through several cycles of said square wave alternating current voltage create ions in the envelope volume, in steady state operation.
- 2. The landscape lighting system defined in claim 1 wherein said low-voltage, high-frequency square wave voltage is in the frequency range of about 75 kHz to about 4 MHz.
- 3. The landscape lighting system defined in claim 1 wherein said low-voltage, high-frequency square wave voltage source includes means to adjust the amplitude of voltage at said lamp electrodes to vary the intensity of light produced by said lamp device.
- 4. The landscape lighting system defined in claim 1 wherein said low voltage is under 12 volts.
- 5. The landscape lighting system defined in claim 1 wherein said low voltage is under 12 volts and has a frequency in the range of about 75 kHz to about 3.5 MHz.
- 6. The landscape lighting system defined in claim 1 wherein said voltage is about 2 volts and said frequency is about 3.5 MHz.
- 7. The landscape lighting system defined in claim 1 wherein said gas discharge lamp device has a UV activated fluorescent coating on said light transmission envelope.
- 8. A method of driving a low-voltage landscape lighting system having a stepdown transformer, said stepdown transformer having a predetermined power rating and primary and secondary windings with said primary winding being adapted for connection to an AC supply source and said secondary winding being adapted for connection to a low-voltage outdoor power distribution cable and a plurality of lamp fixtures electrically connected to said power distribution cable, said method comprising:
- providing a number of low-voltage, non-thermionic, gas discharge light-producing sub-systems, each sub-system comprising at least one gas discharge lamp device with lamp electrodes spaced in a gaseous medium, a light transmissive envelope confining the gaseous discharge medium at a predetermined pressure between said spaced lamp electrodes and a fluorescent coating on said light transmission envelope, and
- providing a power supply, said power supply including a rectifier connected to said power distribution cable and constituting a direct current source, a solid state switch circuit connected between said source of direct current and said lamp electrodes and means connecting said solid state switch circuit to said lamp electrodes, said solid state switch circuit being operated to generate a high-frequency substantially square wave alternating current voltage at said lamp electrodes and
- applying said high frequency substantially square wave alternating current voltage to said lamp electrodes to start and operate said lamp such that the square wave voltage reverses polarity more rapidly than the pattern of electron and ion density in the space between said spaced electrodes can shift and electrons throughout the length of the tube are continually accelerated and will, through several cycles of said high-frequency square wave alternating voltage create ions throughout the tube's volume, in steady state operation.
- 9. The method defined in claim 8 wherein said low-voltage, high-frequency square wave voltage is under 12 volts and in the frequency range of about 75 kHz to about 4 MHz.
- 10. The method defined in claim 8 including the step of adjusting the amplitude of said low-voltage, high-frequency square wave voltage to adjust the intensity of light produced by said lamp device.
- 11. The method defined in claim 8 wherein said voltage is about 2 volts and said frequency is about 3.5 MHz.
- 12. A landscape lighting system having a plurality of fluorescent lamp fixtures,
- each fluorescent lamp fixture including a low-voltage, non-thermionic, gas discharge light-producing sub-system, each sub-system comprising:
- a fluorescent discharge lamp device with lamp electrodes spaced in a gaseous medium, and
- a source of DC power,
- a low-voltage, high-frequency alternating current square
- wave voltage driver circuit,
- said low-voltage, high-frequency alternating current square wave voltage driver circuit connected to said source of DC power, said low-voltage, high-frequency square wave driver circuit being operated to generate a substantially square wave alternating current voltage is at a frequency in the range of about 75 kHz to about 3.5 MHz and applied directly to said lamp electrodes to start and operate said gas discharge lamp device such that the square wave voltage applied to said lamp electrodes reverses polarity more rapidly than the pattern of electron and ion density in the gas can shift and electrons throughout the space between said lamp electrodes are continually accelerated and will, through several cycles of said square wave alternating current voltage create ions in the envelope volume, in steady state operation.
Parent Case Info
This application is related to U.S. application Serial No. 08/942,670 filed Oct. 2, 1997 entitled LOW-VOLTAGE NON-THERMIONIC BALLAST-FREE FLUORESCENT LIGHT SYSTEM AND METHOD which in turn was the subject of provisional application Ser. No. 60/053,796 filed Jul. 25, 1997 which are incorporated hereby reference. This application is also a continuation-in-part of my application Ser. No. 08/964,824 for LOW VOLTAGE NON-THERMIONIC BALLAST-FREE ENERGY-EFFICIENT LIGHT-PRODUCING GAS DISCHARGE SYSTEM AND METHOD filed Nov. 5, 1997 and incorporated herein by reference.
US Referenced Citations (5)
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
964824 |
Nov 1997 |
|