Claims
- 1. A solid state appliance controller comprising:
a processor; circuitry formed on a circuit board, said circuitry defining a voltage trace in communication with a voltage source, a first state trace, and a second state trace, said first state trace in communication with said processor and said second state trace in communication with said processor, said first trace forming a first zigzag pattern and second said trace forming a second zigzag pattern, said first and second zigzag patterns configured to be in mutually opposing, mutually adjacent, and alternating mutually opposing and mutually adjacent relationship to each other; a user selection knob operative to allow a user to select an operating mode of the appliance by rotating said user selection knob; and a wiper assembly coupled to said user selection knob for rotation therewith, said wiper assembly having a voltage finger operative to be in contact with said voltage trace so as to continuously receive a voltage therefrom during rotation of said selection knob, a first finger operative to intermittently contact said first trace in accordance with said first zigzag pattern wherein contact provides said voltage to said first trace during rotation of said selection knob, and a second finger operative to intermittently contact said second trace in accordance with said second zigzag pattern wherein contact provide said voltage to said second trace during rotation of said selection knob; said processor operative to receive voltages from said first and second traces in accordance with the intermittent contact of said first and second fingers with said intermittent voltages from the first and second traces respectively defining a plurality of state changes.
- 2. The solid state appliance controller of claim 1, wherein said plurality of state changes represent rotational position of said user selection knob.
- 3. The solid state appliance controller of claim 2, wherein said first and second zigzag patterns are configured to provide four state changes during rotation of said user selection knob.
- 4. The solid state appliance controller of claim 1, wherein said processor is operative to analyze said state changes to determine relative rotational position of said user selection knob.
- 5. The solid state appliance controller of claim 1, wherein said processor is operative to analyze speed of said state changes to determine rotational speed of said user selection knob.
- 6. A controller for an appliance comprising:
a processor; a circuit pattern defining a voltage trace in communication with a voltage source, a first state trace in communication with said processor, and a second state trace in communication with said processor, said first trace forming a first zigzag pattern and second said trace forming a second zigzag pattern; and a user control input including a wiper assembly having a voltage terminal, a first state terminal, and a second state terminal, each of which are in communication with each other and adapted to be mutually rotated across said circuit pattern, said voltage terminal in continuous contact with said voltage trace during rotation so as to continuously receive a voltage therefrom, said first state terminal in intermittent contact with said first trace in accordance with said first zigzag pattern so as to provide a first intermittent voltage to said processor, and said second state terminal in intermittent contact with said second trace in accordance with second zigzag pattern so as to provide a second intermittent voltage to said processor, said first and second intermittent voltages defining a plurality of states.
- 7. The controller of claim 6, wherein changes in said plurality of states represent rotational position of said user control input.
- 8. The controller of claim 6, wherein said first and second zigzag patterns are configured to provide four state changes during rotation of said wiper assembly.
- 9. The controller of claim 6, wherein said processor is operative to analyze said state changes to determine relative rotational position of said wiper assembly.
- 10. The controller of claim 6, wherein said processor is operative to analyze speed of said state changes to determine rotational speed of said wiper assembly.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of and/or priority to U.S. provisional application serial No. 60/310,695 filed Aug. 6, 2001, entitled “Appliance Control System.”
[0002] Cross-reference is made to U.S. patent application entitled “Appliance Control System With Power Controller” by Peterson, Ser. No. 10/xxx,xxx and attorney docket number 1007-0551; U.S. patent application entitled “Appliance Control System With Hyperspin Mode” by Peterson, Ser. No. 10/xxx,xxx and attorney docket number 1007-0552;U.S. patent application serial number 10/xxx,xxx and attorney docket number 1007-0553 entitled “Appliance Control System With Auxiliary Inputs” by Peterson and Stultz; U.S. patent application entitled “Appliance Control System With Cycle Selection Detection” by Peterson and Stultz, Ser. No. 10/xxx,xxx and attorney docket number 1007-0554; U.S. patent application entitled “Appliance Control System With LED Operation Indicators” by Peterson and Stultz, Ser. No. 10/xxx,xxx and attorney docket number 1007-0555; U.S. patent application entitled “Appliance Control System With Network Accessible Programmable Memory” by Peterson, Ser. No. 10/xxx,xxx and attorney docket number 1007-0556; and U.S. patent application entitled “Appliance Control System With Knob Control Assembly” by Peterson and Stultz, Ser. No. 10/xxx,xxx and attorney docket number 1007-0557; all of which are commonly assigned and filed on even date herewith.
Provisional Applications (1)
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Number |
Date |
Country |
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60310695 |
Aug 2001 |
US |