Claims
- 1. An arrangement, comprising:a first circuit having a first end and a second end, wherein the first end is coupled to a hot lead of a source of alternating current (AC) voltage, the first circuit being operable to receive a first user command and a second user command, and to provide: (i) in the absence of a user command, a normal operating mode wherein the first end is electrically shorted to the second end; (ii) in response to the first user command, a brighten mode wherein a portion of positive-going current is prevented from flowing from the first end to the second end; and (iii) in response to the second user command, a dim mode wherein a portion of negative-going current is prevented from flowing from the first end to the second end; and a second circuit coupled to the second end of the first circuit and a neutral lead of the source of AC voltage, the second circuit having an output adapted for connection to inverter circuitry within an electronic dimming ballast operable to set an illumination level of a lamp in dependence on a dimming control signal, the second circuit being operable to provide the dimming control signal at its output in dependence on the user commands received by the first circuit.
- 2. The arrangement of claim 1, wherein the first circuit is further operable to provide an output voltage between the second end and the neutral lead of the AC voltage source, the output voltage being a substantially sinusoidal signal having a positive half-cycle and a negative half-cycle, wherein:(i) in response to the first user command, an initial portion of the positive half-cycle is truncated; and (ii) in response to the second user command, an initial portion of the negative half-cycle is truncated.
- 3. The arrangement of claim 1, wherein the first circuit is situated within an electrical switchbox in a building.
- 4. The arrangement of claim 1, wherein the second circuit is situated within the electronic dimming ballast.
- 5. The arrangement of claim 1, wherein the dimming control signal has a duty cycle that is:(i) increased in response to the first user command; and (ii) decreased in response to the second user command.
- 6. The arrangement of claim 5, wherein:the increase in the duty cycle of the dimming control signal is dependent on the duration of the first user command; and the decrease in the duty cycle of the dimming control voltage is dependent on the duration of the second user command.
- 7. The arrangement of claim 1, wherein the first circuit further comprises:a first rectifier having an anode and a cathode, wherein the anode is coupled to the first end; a second rectifier having an anode coupled to the second end and a cathode coupled to the cathode of the first rectifier; a first normally-closed switch coupled in parallel with the first rectifier; a second normally-closed switch coupled in parallel with the second rectifier; a controllable bi-directional conduction device having a first conduction terminal, a second conduction terminal, and a gate, wherein the first conduction terminal is coupled to the anode of the first rectifier, and the second conduction terminal is coupled to the anode of the second rectifier; a voltage triggered device coupled between a node and the gate terminal of the controllable bi-directional conduction device; a triggering resistor coupled between the node and the anode of the fast rectifier; and a triggering capacitor coupled between the node and the anode of the second rectifier.
- 8. The arrangement of claim 7, wherein:the controllable bi-directional conduction device is a triac; and the voltage triggered device is a diac.
- 9. The arrangement of claim 7, wherein:the first user command is generated by opening the second normally-closed switch for a limited period of time; and the second user command is generated by opening the first normally-closed switch for a limited period of time.
- 10. An arrangement, comprising:a wall-switch assembly, comprising: a first rectifier having an anode and a cathode, wherein the anode is coupled to the first end; a second rectifier having an anode coupled to the second end and a cathode coupled to the cathode of the first rectifier; a first normally-closed switch coupled in parallel with the first rectifier; a second normally-closed switch coupled in parallel with the second rectifier; a controllable bi-directional conduction device having a first conduction terminal, a second conduction terminal, and a gate, wherein the first conduction terminal is coupled to the anode of the first rectifier, and the second conduction terminal is coupled to the anode of the second rectifier; a voltage triggered device coupled between a node and the gate terminal of the controllable bi-directional conduction device; a triggering resistor coupled between the node and the anode of the first rectifier; and a triggering capacitor coupled between the node and the anode of the second rectifier; and a ballast for powering at least one gas discharge lamp at an adjustable illumination level, wherein the ballast is operable to adjust the illumination level in response to a momentary opening of at least one of: (i) the first normally-closed switch; and (ii) the second normally-closed switch.
- 11. The arrangement of claim 10, wherein the illumination level is:(i) increased in response to a momentary opening of the second normally-closed switch; and (ii) decreased in response to a momentary opening of the first normally-closed switch.
- 12. The arrangement of claim 10, wherein:the controllable bi-directional conduction device is a triac; and the voltage triggered device is a diac.
RELATED APPLICATIONS
This application is related to copending application Ser. No. 09/966,911, filed Sep. 28, 2001 and entitled “Dimming Control System for Electronic Ballasts” which is assigned to the same assignee as the present invention.
US Referenced Citations (7)