Claims
- 1. A lighting control circuit comprising:
- a triac for controlling the coupling of power supplied from a ballast to at least one of a plurality of lamps, said ballast being connected to a wall switch for receiving main power; and
- means for turning said triac on or off in response to a toggling of said wall switch, wherein said triac operates independent of any snubber network.
- 2. The invention as defined in claim 1 wherein said means for turning said triac on or off comprises a flip-flop.
- 3. The invention as defined in claim 1 wherein said means for turning said triac on or off comprises a transistor.
- 4. The invention as defined in claim 3 wherein said transistor is a metal oxide semiconductor field effect transistor.
- 5. The invention as defined in claim 1 further comprising:
- a control unit for determining which, if any, of said lamps of said plurality, are to be lit; and
- a power switch, responsive to said control unit, for coupling power to said determined lamps, wherein said power switch and said control unit are coupled to an output of said ballast.
- 6. The invention as defined in claim 5 further comprising a power supply for said control unit, and wherein said ballast is connectable to a main power source, said control unit power supply supplies sufficient power to operate said control unit for a predetermined amount of time after said ballast is disconnected from said main power source.
- 7. The invention as defined in claim 5 wherein said ballast is connectable to a main power source and wherein said control unit determines which, if any, of said lamps are lit in response to each connection of said ballast to said main power source.
- 8. The invention as defined in claim 5 wherein said control unit performs its determining in response to information external to said control unit, said information being received only via said output of said ballast.
- 9. The invention as defined in claim 5 wherein said ballast is connectable to a main power source and wherein, when said main power source is toggled off and then back on again within a predetermined amount of time, said toggling being initiated when predetermined ones of said lamps are lit as per said control unit, said control unit determines that said predetermined lamps and at least one more of said lamps are to be lit.
- 10. The invention as defined in claim 5 wherein said ballast is connectable to a main power source and wherein, when said main power source is toggled off and then back on again within a predetermined amount of time, said toggling being initiated when a predetermined ones of said lamps are lit as per said control unit, said control unit determines to turn off at least one of said predetermined ones of said predetermined lamps.
- 11. The invention as defined in claim 5 wherein said ballast is connectable to a main power source and wherein, when said main power source is toggled off and then back on again within a predetermined amount of time, said toggling being initiated when all of said lamps are lit, said control unit determines to turn 50% of said lamps off.
- 12. The invention as defined in claim 5 wherein said ballast is connectable to a main power source and wherein, when said main power source is toggled off and then back on again within a predetermined amount of time, said toggling being initiated when 50% of said lamps are lit, said control unit determines to turn all of said lamps on.
- 13. Apparatus for controlling application of alternating current (AC) power at a frequency greater than 400 Hz and a voltage greater than 240 V to a load, said AC power being derived by a generator using energy from a main power source, comprising:
- means for inhibiting the flow of said AC power in response to a control signal; and
- means for supplying said control signal to said means for inhibiting, each initiation of supplying of said control signal being only when said main power source is disconnected from said generator.
- 14. A method for controlling the application to a load of AC power at a frequency via a triac which has a commutating dv/dt rating at said frequency and an off-state dv/dt rating at said frequency, the method comprising the steps of:
- when said triac is conducting, turning said triac off only by turning said AC power off;
- applying a conduction inhibit signal to said triac prior to or substantially concurrent with turning said AC power on only when said triac had been not conducting substantially immediately prior to a latest preceding turning off of said AC power; and
- applying a conduction signal to said triac when said triac had been not conducting either substantially immediately prior to a latest preceding turning off of said AC power or when said AC power was off for more than a predetermined period of time.
- 15. A method for controlling the application to a load of AC power at a frequency via a triac which has a commutating dv/dt rating at said frequency and an off-state dv/dt rating at said frequency, the method comprising the steps of:
- when said triac is conducting, turning said triac off only by turning said AC power off;
- applying a conduction signal to said triac prior to or substantially concurrent with turning said AC power on only when said triac had been not conducting substantially immediately prior to a latest preceding turning off of said AC power; and
- applying a conduction inhibit signal to said triac when said triac had been conducting either substantially immediately prior to a latest preceding turning off of said AC power or when said AC power was off for more than a predetermined period of time.
- 16. A method for controlling the application to a load of AC power at a frequency via a triac which has a commutating dv/dt rating at said frequency and an off-state dv/dt rating at said frequency, the method comprising the steps of:
- when said triac is conducting, turning said triac off only by turning said AC power off;
- applying a conduction inhibit signal to said triac prior to or substantially concurrent with turning said AC power on only when said triac had been not conducting substantially immediately prior to a first predefined number of preceding turnings off of said AC power; and
- applying a conduction signal to said triac when said triac had been not conducting either substantially immediately prior to a second predefined number of preceding turnings off of said AC power or when said AC power was off for more than a predetermined period of time.
- 17. The invention as defined in claim 16 wherein said first predefined number is programmable.
- 18. The invention as defined in claim 16 wherein said second predefined number is programmable.
- 19. A method for controlling the application to a load of AC power at a frequency via a triac which has a commutating dv/dt rating at said frequency and an off-state dv/dt rating at said frequency, the method comprising the steps of:
- when said triac is conducting, turning said triac off only by turning said AC power off;
- applying a conduction inhibit signal to said triac prior to or substantially concurrent with turning said AC power on only when said triac had been not conducting substantially immediately prior to any of a first plurality of predefined numbers of preceding turnings off of said AC power; and
- applying a conduction signal to said triac when said triac had been not conducting either substantially immediately prior to any of a second plurality of predefined numbers of preceding turnings off of said AC power or when said AC power was off for more than a predetermined period of time.
- 20. The invention as defined in claim 19 wherein said numbers of said first plurality are selectable via programming.
- 21. The invention as defined in claim 19 wherein said numbers of said second plurality are selectable via programming.
- 22. A method for controlling the application to a load of AC power at a frequency via a triac which has a commutating dv/dt rating at said frequency and an off-state dv/dt rating at said frequency, the method comprising the steps of:
- when said triac is conducting, turning said triac off only by turning said AC power off;
- applying a conduction inhibit signal to said triac prior to or substantially concurrent with turning said AC power on only when said triac had been not conducting substantially immediately prior to any of one or more predefined numbers of preceding turnings off of said AC power; and
- applying a conduction signal to said triac when said triac had been not conducting either substantially immediately prior to a second predefined number of preceding turnings off of said AC power or when said AC power was off for more than a predetermined period of time.
- 23. A lighting control circuit comprising:
- a triac for controlling the coupling of power supplied from a ballast to at least one of a plurality of lamps, said ballast being connected to a wall switch for receiving main power; and
- means for turning said triac on or off in response to a toggling of said wall switch, wherein said power supplied to said triac has a frequency greater than 400 Hz, said triac operates independent of any snubber network, and said means for turning controls said triac to prevent commutation failure.
- 24. The invention as defined in claim 23 wherein said power supplied to said triac has a frequency greater than 15,000 Hz.
Parent Case Info
This application is a continuation of Ser. No. 08/644,476, filed May 10, 1996, abandoned.
US Referenced Citations (7)
Foreign Referenced Citations (2)
Number |
Date |
Country |
WO9425912 |
Nov 1994 |
WOX |
WO9603850 |
Feb 1996 |
WOX |
Continuations (1)
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Number |
Date |
Country |
Parent |
644476 |
May 1996 |
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