Low Power Management System
First Claim
1. An appliance, the appliance comprising:
- a plurality of system microcontrollers, wherein each of the system microcontrollers is associated with at least one appliance component; and
one or more low power management microcontrollers configured to;
monitor a state of each of the system microcontrollers of the plurality of microcontrollers;
determine that one or more of the system microcontrollers of the plurality of system microcontrollers are in an inactive state; and
send one or more command signals to place the one or more system microcontrollers in the inactive state in a lower power mode based at least in part on the determination that the system microcontroller is in the inactive state, wherein the respective system microcontroller consumes less power in the lower power mode than while in an active state.
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Accused Products
Abstract
Systems and methods for managing appliance power consumption. In one embodiment, an appliance can include a plurality of microcontrollers. Each of the microcontrollers can be associated with at least one appliance component. The appliance can further include one or more low power management microcontrollers. The low power management microcontrollers can be configured to monitor a state of each of the microcontrollers. The low power management microcontrollers can be further configured to determine that one or more of the microcontrollers of the plurality of microcontrollers are in an inactive state. The low power management microcontrollers can be configured to send one or more command signals to place the one or more microcontrollers in the inactive state in a lower power mode based at least in part on the determination that the microcontroller is in the inactive state. The respective microcontroller can consume less power in the lower power mode than while in an active state.
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Citations
20 Claims
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1. An appliance, the appliance comprising:
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a plurality of system microcontrollers, wherein each of the system microcontrollers is associated with at least one appliance component; and one or more low power management microcontrollers configured to; monitor a state of each of the system microcontrollers of the plurality of microcontrollers; determine that one or more of the system microcontrollers of the plurality of system microcontrollers are in an inactive state; and send one or more command signals to place the one or more system microcontrollers in the inactive state in a lower power mode based at least in part on the determination that the system microcontroller is in the inactive state, wherein the respective system microcontroller consumes less power in the lower power mode than while in an active state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of managing appliance power consumption, the method comprising:
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monitoring, by one or more low power management microcontrollers, a state of each of a plurality of system microcontrollers associated with an appliance; determining, by the one or more low power management microcontrollers, that one or more of the plurality of system microcontrollers are in an inactive state; and sending, by the one or more low power management microcontrollers, one or more command signals to place the one or more system microcontrollers in the inactive state in a lower power mode based at least in part on the determination that the one or more system microcontrollers is in the inactive state, wherein the lower power mode is associated with a reduced power consumption by the respective microcontroller than while in an active state. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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18. A dishwashing appliance, comprising:
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a first system microcontroller associated with a user interface; a second system microcontroller associated with one or more relays; a third system microcontroller associated with a drain pump assembly; and one or more low power management microcontrollers configured to; monitor one or more communications associated with at least one of the first system microcontroller, second system microcontroller, or third system microcontroller, wherein the one or more communications are indicative of a state of least one of the first system microcontroller, second system microcontroller, or third system microcontroller; determine that at least one of the first system microcontroller, second system microcontroller, or third system microcontroller is in an inactive state based at least in part on the one or more communications; and place the at least one system microcontroller in the inactive state in the lower power mode based at least in part on the determination that the respective system microcontroller is in the inactive state, wherein the respective system microcontroller consumes less power in the lower power mode than while in an active state. - View Dependent Claims (19, 20)
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Specification