Controllable electrical outlet with a controlled wired output

What is claimed is: 1. An electrical outlet comprising: a first connection configured to be electrically coupled to a hot connection; a second connection configured to be electrically coupled to a downstream electrical outlet; an electrical receptacle in electrical connection with the first connection and configured to receive a plug of a plug-in electrical load; a load control circuit electrically coupled between the first and second connections to control power delivered to the downstream electrical outlet; a sense circuit electrically coupled to the load control circuit and configured to measure a magnitude of a load current conducted through the second electrical connection; a communication circuit; and a control circuit coupled to the load control circuit, the sense circuit, and the communication circuit, the control circuit configured to: receive at least one message via the communication circuit; determine that the at least one message comprises an indication to disconnect power; based at least in part on determining that the at least one message comprises the indication to disconnect power, compare the magnitude of the load current conducted through the second electrical connection, as measured by the sense circuit, to a threshold; and when the magnitude of the load current conducted through the second electrical connection is determined to be below the threshold, control the load control circuit to disconnect power from the downstream electrical outlet in response to the indication to disconnect power; and wherein when the magnitude of the load current conducted through the second electrical connection is determined to be above the threshold, the control circuit is configured not to disconnect power from the downstream electrical outlet in response to the indication to disconnect power. 2. The electrical outlet of claim 1 , further comprising at least one actuator configured to be actuated; wherein the control circuit is further coupled to the at least one actuator; and wherein the control circuit is further configured to: based at least in part on an actuation of the at least one actuator, control the load control circuit to connect power to or disconnect power from the downstream electrical outlet. 3. The electrical outlet of claim 1 , further comprising at least one actuator configured to be actuated; wherein the control circuit is further coupled to the at least one actuator; and wherein the control circuit is further configured to: based at least in part on an actuation of the at least one actuator, associate the electrical outlet with a device such that the electrical outlet is responsive to messages transmitted by the device; and wherein the received at least one message is transmitted by the device. 4. The electrical outlet of claim 3 , wherein the electrical outlet is configured to be mounted in an electrical wallbox; and wherein the at least one actuator is located on an outside of the electrical outlet such that the at least one actuator is accessible to a user when the electrical outlet is mounted in the electrical wallbox. 5. The electrical outlet of claim 1 , wherein the electrical outlet is configured to be mounted in an electrical wallbox. 6. The electrical outlet of claim 1 , wherein the load control circuit is further configured to control power delivered to the electrical receptacle. 7. The electrical outlet of claim 6 , further comprising a second electrical receptacle in electrical connection with the first connection and configured to receive a plug of a plug-in electrical load, and wherein the load control circuit is not configured to control power delivered to the second electrical receptacle. 8. An electrical outlet comprising: a connection configured to be electrically coupled to a hot connection; an electrical receptacle in electrical connection with the connection and configured to receive a plug of a plug-in electrical load; a load control circuit electrically coupled to the connection and configured to control power delivered to the electrical receptacle; a sense circuit electrically coupled to the load control circuit and configured to measure a magnitude of a load current conducted at the electrical receptacle; a communication circuit; and a control circuit coupled the load control circuit, the sense circuit, and the communication circuit, the control circuit configured to: receive at least one message via the communication circuit; determine that the at least one message comprises an indication to disconnect power; based at least in part on determining that the at least one message comprises the indication to disconnect power, compare the magnitude of the load current conducted electrical receptacle, as measured by the sense circuit, to a threshold; and when the magnitude of the load current electrical receptacle is determined to be below the threshold, control the load control circuit to disconnect power from the electrical receptacle in response to the indication to disconnect power; and wherein when the magnitude of the load current conducted electrical receptacle is determined to be above the threshold, the control circuit is configured not to disconnect power from the electrical receptacle in response to the indication to disconnect power. 9. The electrical outlet of claim 8 , further comprising at least one actuator configured to be actuated; wherein the control circuit is further coupled to the at least one actuator; and wherein the control circuit is further configured to: based at least in part on an actuation of the at least one actuator, control the load control circuit to connect power to or disconnect power from the electrical receptacle. 10. The electrical outlet of claim 8 , further comprising at least one actuator configured to be actuated; wherein the control circuit is further coupled to the at least one actuator; and wherein the control circuit is further configured to: based at least in part on an actuation of the at least one actuator, associate the electrical outlet with a device such that the electrical outlet is responsive to messages transmitted by the device; and wherein the received at least one message is transmitted by the device. 11. The electrical outlet of claim 10 , wherein the electrical outlet is configured to be mounted in an electrical wallbox; and wherein the at least one actuator is located on an outside of the electrical outlet such that the at least one actuator is accessible to a user when the electrical outlet is mounted in the electrical wallbox. 12. The electrical outlet of claim 8 , wherein the electrical outlet is configured to be mounted in an electrical wallbox. 13. The electrical outlet of claim 8 , wherein the connection comprises a first connection; wherein the electrical outlet further comprises a second connection configured to be electrically coupled to a downstream electrical outlet; and wherein the load control circuit is further configured to control power delivered to the downstream electrical outlet. 14. The electrical outlet of claim 13 , further comprising a second electrical receptacle in electrical connection with the first connection and configured to receive a plug of a plug-in electrical load, and wherein the load control circuit is not configured to control power delivered to the second electrical receptacle. 15. An electrical outlet comprising: a first connection configured to be electrically coupled to a hot connection; a second connection configured to be electrically coupled to a downstream electrical outlet; an electrical receptacle