Method of operating a WLAN mobile station
First Claim
1. A method of operating a wireless local area network (WLAN) mobile station, the mobile station having an application processor and a WLAN processor, the application processor and WLAN processor each having an awake and a sleep mode of operation, the sleep mode being a lower power mode than the awake mode, the method comprising:
- waking up the WLAN processor from the sleep mode to the awake mode prior to the transmission of a beacon by an access point with which the WLAN mobile station is currently associated;
receiving the beacon at the WLAN mobile station, including beacon data;
waking up the application processor from the sleep mode to the awake mode in time to receive the beacon data from the WLAN processor;
passing the beacon data to the application processor from the WLAN processor;
placing the WLAN processor in the sleep mode after passing the beacon data to the application processor; and
placing the application processor into the sleep mode after processing the beacon data;
wherein the application processor is operating in the awake mode when the WLAN processor is ready to pass the beacon data to the application processor.
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Accused Products
Abstract
A wireless local area network (WLAN) mobile station (110, 112, 114) has an application processor core (204) and a WLAN processor (202). So as to conserve energy, when the two processors are not needed, they are both placed in a minimal power consumption mode. The WLAN processor operates a WLAN radio and receives beacon transmissions from an access point (120). Upon extracting the beacon data from a received beacon signal, the WLAN processor passes the beacon data to the application processor. To ensure receipt of the beacon data, the WLAN processor remains active until the application processor acknowledges receipt of the beacon data before transitioning back to a sleep mode. To prevent keeping the WLAN processor waiting longer than necessary, the application processor wakes up ahead of the beacon receipt time, in time to allow transition to an awake mode so that it is active by the time the WLAN processor passes the beacon data.
65 Citations
7 Claims
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1. A method of operating a wireless local area network (WLAN) mobile station, the mobile station having an application processor and a WLAN processor, the application processor and WLAN processor each having an awake and a sleep mode of operation, the sleep mode being a lower power mode than the awake mode, the method comprising:
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waking up the WLAN processor from the sleep mode to the awake mode prior to the transmission of a beacon by an access point with which the WLAN mobile station is currently associated;
receiving the beacon at the WLAN mobile station, including beacon data;
waking up the application processor from the sleep mode to the awake mode in time to receive the beacon data from the WLAN processor;
passing the beacon data to the application processor from the WLAN processor;
placing the WLAN processor in the sleep mode after passing the beacon data to the application processor; and
placing the application processor into the sleep mode after processing the beacon data;
wherein the application processor is operating in the awake mode when the WLAN processor is ready to pass the beacon data to the application processor. - View Dependent Claims (2, 3, 4, 5)
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6. A wireless station for use in a wireless local area network (WLAN), comprising:
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a WLAN processor for accessing a WLAN medium, including transmitting signals to and receiving signals from an access point, and including receiving beacon signals transmitted by the access point at periodic intervals, the WLAN processor having an active mode and a sleep mode, the sleep mode requiring less operating power than the active mode an application processor operably coupled to the WLAN processor for processing data and being operable in an awake mode and a sleep mode;
wherein the WLAN processor transitions from the sleep mode to the active mode to receive a beacon signal, including beacon data, and passes the beacon data to the application processor upon receiving the beacon signal;
wherein the application processor transitions from the sleep mode to the awake mode in time to receive the beacon data from the WLAN processor, and subsequently acknowledges receipt of the beacon data to the WLAN processor; and
wherein the WLAN processor transitions from the active mode to the sleep mode upon the application processor acknowledging receipt of the beacon data. - View Dependent Claims (7)
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Specification