Monitoring and recoverable protection of switching circuitry for smart-home devices

What is claimed is: 1. A smart-home device comprising: a switching circuit configured to operate in an on state and an off state, the switching circuit further configured to actuate a flow of electrical power through a load when switched to the on state; one or more processors; and a fault-protected driver chip configured to: monitor one or more electrical properties associated with the switching circuit; receive an enable signal from the one or more processors to actuate the flow of electrical power through the load; provide a drive signal to the switching circuit to cause the switching circuit to switch to the on state to actuate the flow of electrical power through the load; determine if an electrical anomaly associated with the switching circuit is present based at least in part on the monitored one or more electrical properties, wherein the electrical anomaly comprises an over-current or over-voltage anomaly; cause the switching circuit to switch to the off state if an electrical anomaly is detected; provide a fault signal to the one or more processors; determine, while the switching circuit remains in the off state, if the electrical anomaly has been corrected; and subsequent to a determination that the anomaly has been corrected, cause the switching circuit to switch to the on state. 2. The smart-home device of claim 1 , wherein the switching circuit comprises a first Field Effect Transistor (FET). 3. The smart-home device of claim 2 , wherein the monitored one or more electrical properties includes a voltage level of a node associated with a drain of the first FET. 4. The smart-home device of claim 2 , wherein the switching circuit comprises a second FET that is switched on and off with the first FET. 5. The smart-home device of claim 1 , wherein the one or more processors are further programmed to determine if the electrical anomaly is caused by an anomalous wiring condition. 6. The smart-home device of claim 5 further comprising a user interface, wherein the one or more processors are further programmed to display an error message on the user interface indicating the anomalous wiring condition. 7. The smart-home device of claim 1 , wherein the fault-protected driver chip electrically isolates the one or more processors from a line voltage associated with the load. 8. The smart-home device of claim 1 , wherein the fault-protected driver chip is powered by a differential clock signal from the one or more processors. 9. The smart-home device of claim 1 , wherein the electrical anomaly comprises a voltage level surpassing a threshold voltage that indicates excessive current in the switching circuit. 10. The smart-home device of claim 1 , wherein the one or more processors comprises a backplate microprocessor that communicates with a head unit microprocessor. 11. The smart-home device of claim 1 , wherein the smart-home device further comprises a wireless communication module configured to communicate with a cloud-based device management server. 12. A method comprising: operating a switching circuit configured to operate in an on state and an off state, the switching circuit further configured to actuate a flow of electrical power through a load when switched to the on state; monitoring, by a fault-protected driver chip, one or more electrical properties associated with the switching circuit; receiving, by the fault-protected driver chip from one or more processors, an enable signal from the one or more processors to actuate the flow of electrical power through the load; providing, by the fault-protected driver chip, a drive signal to the switching circuit to cause the switching circuit to switch to the on state to actuate the flow of electrical power through the load; determining, by the fault-protected driver chip, if an electrical anomaly associated with the switching circuit is present based at least in part on the monitored one or more electrical properties, wherein the electrical anomaly comprises an over-current or over-voltage anomaly; causing, by the fault-protected driver chip, the switching circuit to switch to the off state if an electrical anomaly is detected; providing, by the fault-protected driver chip, a fault signal to the one or more processors; determining, by the fault-protected driver chip, while the switching circuit remains in the off state, if the electrical anomaly has been corrected; and subsequent to a determination that the anomaly has been corrected, causing, by the fault-protected driver chip, the switching circuit to switch to the on state. 13. The method of claim 12 , wherein the switching circuit comprises a first Field Effect Transistor (FET). 14. The method of claim 13 , wherein the monitored one or more electrical properties includes a voltage level of a node associated with a drain of the first FET. 15. The method of claim 13 , wherein the switching circuit comprises a second FET that is switched on and off with the first FET. 16. The method of claim 12 , wherein the one or more processors are further programmed to determine if the electrical anomaly is caused by an anomalous wiring condition. 17. The method of claim 16 further comprising displaying an error message on a user interface indicating the anomalous wiring condition. 18. The method of claim 12 , wherein the fault-protected driver chip electrically isolates the one or more processors from a line voltage associated with the load. 19. The method of claim 12 , wherein the electrical anomaly comprises a voltage level surpassing a threshold voltage that indicates excessive current in the switching circuit. 20. The method of claim 12 , further comprising communicating with a cloud-based device management server.