Multi-radio wireless transceiver power conservation

What is claimed is: 1. A wireless transceiver comprising: a plurality of components coupled to one another to form transmit and receive chains of a plurality of radios, each radio supports wireless communications with associated stations on a corresponding wireless local area network (WLAN); a utilization monitoring circuit to: query a target radio of the plurality of radios to obtain information used to determine communications data for the associated stations on a communication band of the target radio, the communications data including an identity, overall traffic usage, overall airtime usage, per link traffic usage, and per link airtime usage; store the communications data of the associated stations on the communication band of the target radio; an association targeting circuit to identify, based on the communications data obtained by the utilization monitoring circuit, the target radio as an underutilized radio to handle subsequent communications for one or more of the associated stations currently associated with at least one other radio among the plurality of radios, and to initiate an association of the target radio with one of the stations that is currently associated with the at least one other radio; and a power backoff circuit to reduce power to the at least one other radio of the plurality of radios, wherein the power backoff circuit reduces the power in the at least one other radio of the plurality of radios based on the monitored communications and the initiation of the association of the target radio with the one of the stations, wherein subsequent to the reduction in power and while the power is reduced, the at least one other radio of the plurality of radios is operable to maintain a performance of at least one operation. 2. The wireless transceiver of claim 1 , the association targeting circuit to conditionally initiate the association with the target radio based on a projection that a resultant utilization metric of the target radio after the association will not exceed a maximum utilization level. 3. The wireless transceiver of claim 1 , the association targeting circuit to conditionally initiate the association with the target radio based on a projection that a resultant aggregate airtime metric of the target radio after association will not exceed a maximum airtime level. 4. The wireless transceiver of claim 1 , the association targeting circuit to conditionally initiate the association with the target radio based on a projection that a resultant aggregate traffic metric of the target radio after association will not exceed a maximum traffic level. 5. The wireless transceiver of claim 1 , the association targeting circuit to conditionally initiate the association with the target radio based on a determination that the stations currently associated with the at least one other radio include capabilities for supporting communications with the target radio. 6. The wireless transceiver of claim 1 , the power backoff circuit to terminate communications on the at least one other radio of the plurality of radios. 7. The wireless transceiver of claim 1 , wherein the power backoff circuit to reduce power to the at least one other radio of the plurality of radios comprises a power backoff circuit to reduce a number of active multiple-input multiple-output (MIMO) communication chains supporting communications on the at least one other radio of the plurality of radios. 8. The wireless transceiver of claim 1 , the association targeting circuit to identify an underutilized one of the plurality of radios when a utilization metric of the target radio exceeds a maximum utilization level, and re-associating stations from the target radio to the identified underutilized one of the plurality of radios to reduce a level of the utilization metric for the target radio below the maximum utilization level. 9. The wireless transceiver of claim 1 , wherein the association targeting circuit to transmit a transition management message to the stations currently associated with the at least one other radio, wherein the transition management message identifies the target radio for association. 10. The wireless transceiver of claim 1 , operative as one of a wireless access point (WAP) transceiver or a mesh transceiver. 11. The wireless transceiver of claim 1 , wherein the power backoff circuit reduces, without shutting off, the power in the at least one other radio of the plurality of radios based on the monitored communications and the initiation of the association of the target radio with the one of the stations. 12. The wireless transceiver of claim 1 , wherein the at least one operation maintained while the power is reduced includes maintaining a WLAN beacon. 13. A method for operating a wireless transceiver having a plurality of radios, each radio supports wireless communications with associated stations on a corresponding wireless local area network (WLAN), the method comprising: querying a target radio of the plurality of radios to obtain information used to determine communications data for the associated stations on a communication band of the target radio, the communications data including an identity, overall traffic usage, overall airtime usage, per link traffic usage, and per link airtime usage; storing the communications data of the associated stations on the communication band of the target radio; identifying, based on the communications data, the target radio as an underutilized radios as a target radio to handle subsequent communications for one or more of the associated stations currently associated with at least one other radio among the plurality of radios; conditionally associating, with the target radio, one or more of the stations currently associated with the at least one other radio, based on a projection that a resultant utilization metric of the target radio after association will not exceed a maximum utilization level; and reducing power to the at least one other radio of the plurality of radios, wherein the power backoff circuit reduces the power in the at least one other radio of the plurality of radios based on the monitored communications and the initiation of the association of the target radio with the one of the stations, wherein subsequent to the reduction in power and while the power is reduced, the at least one other radio of the plurality of radios is operable to maintain a performance of at least one operational. 14. The method for operating the wireless transceiver of claim 13 , further comprising conditionally executing the associating based on a projection that a resultant aggregate airtime metric of the target radio after association will not exceed a maximum airtime level. 15. The method for operating the wireless transceiver of claim 13 , further comprising conditionally executing the associating based on a projection that resultant aggregate traffic metric of the target radio after association will not exceed a maximum traffic level. 16. The method for operating the wireless transceiver of claim 13 , further comprising conditionally executing the associating based on a determination that the stations currently associated with the at least one other radio among the plurality of radios include capabilities for supporting communications with the target radio. 17. The method for operating the wireless transceiver of claim 13 , wherein the reducing further comprises at least one of: terminating communications on the at least one other radio among the plurality of radios; or shutting off power to the at least one other radio among the plurality of r