Control Device Having a Secondary Radio for Waking up a Primary Radio

What is claimed is: 1 . An electrical load control system controller, comprising: communications control circuitry to: cause an operatively coupled secondary radio circuit to selectively transition between an ACTIVE state and a SLEEP state; cause an operatively coupled power supply circuit to selectively transition between an ACTIVE state and a SLEEP state; and receive from the secondary radio circuit an input indicative of a reception of a radio frequency (RF) signal at a first frequency; and responsive to receipt of the input from the secondary radio circuit, generate a wake-up message indicative of a detection of the RF signal at the first frequency by the secondary radio circuit; and load control circuitry to, responsive to receipt of the wake-up message: cause an operatively coupled primary radio circuit to selectively transition to an ACTIVE state; provide a transition signal output to: cause an RF switch to transition from a FIRST state in which the RF switch couples an antenna circuit to the secondary radio circuit to a SECOND state in which the RF switch couples the antenna circuit couples to the primary radio circuit; and cause the communications control circuitry to selectively transition to a SLEEP state; receive from the primary radio circuitry a signal that includes data received via an RF signal at a second frequency. 2 . The electrical load controller of claim 1 wherein the load control circuitry to further, responsive to reception of the signal that includes the data received via the RF signal at the second frequency, the load control circuitry to further: cause the RF switch to transition from the SECOND state to the FIRST state; cause the communications control circuitry to selectively transition to the ACTIVE state; cause the primary radio circuit to selectively transition to the SLEEP state. 3 . The electrical load controller of claim 1 wherein to receive from the primary radio circuitry the signal that includes data received via the RF signal at the second frequency, the load control circuitry to further: receive from the primary radio circuitry an instruction to cause at least one adjustment to an operatively coupled electric load device. 4 . The electrical load controller of claim 3 wherein, the load control circuitry to further, responsive to completion of the at least one adjustment to the electric load device: transition the load control circuitry to the SLEEP state. 5 . The electrical load controller of claim 1 wherein to receive from the primary radio circuitry the signal that includes the data received via an RF signal at the second frequency, the load control circuitry to further: receive from the primary radio circuitry the signal that includes data received via the RF signal at the second frequency, wherein the second frequency includes the first frequency. 6 . The electrical load controller of claim 1 wherein to cause the secondary radio circuit to selectively transition between the ACTIVE state and the SLEEP state, the communications control circuitry to further: periodically cause a secondary radio circuit to selectively transition from the SLEEP state to the ACTIVE state for a first duration and from the ACTIVE state to the SLEEP state for a second duration. 7 . The electrical load controller of claim 1 wherein to receive from the secondary radio circuit the signal indicative of the reception of the signal at the first frequency, the communications control circuitry to further: receive, from the secondary radio circuit, an input indicative of the reception of the RF signal at the first frequency, the RF signal having a received signal strength (RSSI) greater than a defined threshold value at the secondary radio circuit. 8 . An electrical load control method, comprising: causing, by communications control circuitry, an operatively coupled secondary radio circuit to selectively transition between an ACTIVE state and a SLEEP state; causing, by the communications control circuitry, an operatively coupled power supply circuit to selectively transition between an ACTIVE state and a SLEEP state; and receiving, by the communications control circuitry, from the secondary radio circuit an input indicative of a reception of a radio frequency (RF) signal at a first frequency; and responsive to receipt of the input from the secondary radio circuit, generating, by the communications control circuitry, a wake-up message indicative of a detection of the RF signal at the first frequency by the secondary radio circuit; and receiving, by load control circuitry, the wake-up message, and responsive to receipt of the wake-up message: causing, by the load control circuitry, an operatively coupled primary radio circuit to selectively transition to an ACTIVE state; providing, by the load control circuitry, a transition signal output to: cause an RF switch to transition from a FIRST state in which the RF switch couples an antenna circuit to the secondary radio circuit to a SECOND state in which the RF switch couples the antenna circuit couples to the primary radio circuit; and cause the communications control circuitry to selectively transition to a SLEEP state; receiving, by the load control circuitry, from the primary radio circuitry a signal that includes data received via an RF signal at a second frequency. 9 . The electrical load control method of claim 8 , further comprising: responsive to a completed reception of the signal that includes the data received via the RF signal at the second frequency: causing, by the load control circuitry, the RF switch to transition from the SECOND state to the FIRST state; causing, by the load control circuitry, the communications control circuitry to selectively transition to the ACTIVE state; causing, by the load control circuitry, the primary radio circuit to selectively transition to the SLEEP state. 10 . The electrical load control method of claim 8 wherein receiving, from the primary radio circuitry, the signal that includes the data received via the RF signal at the second frequency, further comprises: receiving, by the load control circuitry, an instruction from the primary radio circuitry, the instruction to cause at least one adjustment to an operatively coupled electric load device. 11 . The electrical load control method of claim 10 , further comprising: responsive to completion of the at least one adjustment to the electric load device: transitioning, by the load control circuitry, the load control circuitry to the SLEEP state. 12 . The electrical load control method of claim 8 wherein receiving from the primary radio circuitry the signal that includes the data received via the RF signal at the second frequency, further comprises: receiving, by the load control circuitry, the signal from the primary radio circuitry, wherein the second frequency includes the first frequency. 13 . The electrical load control method of claim 8 wherein causing the secondary radio circuit to selectively transition between the ACTIVE state and the SLEEP state, further comprises: periodically causing, by the communications control circuitry, a secondary radio circuit to selectively transition from the SLEEP state to the ACTIVE state for a first duration and from the ACTIVE state to the SLEEP state for a second duration. 14 . The electrical load control method of claim 8 wherein receiving from the secondary radio circuit the signal indicative of the reception of the signal at the first frequency further comprises: receiving, by the communications control circuitry, an input from the secondary radio