Circuit breakers with integrated safety, control, monitoring, and protection features

What is claimed is: 1. A circuit breaker comprising: an input and an output; a switch coupled between the input and the output; a sensor configured to measure current flowing from the input to the output; and a control system coupled to the sensor and the switch, wherein the control system is configured to perform operations comprising: measuring a local condition of a circuit downstream from the circuit breaker; determining that the local condition matches one of a first condition or second condition, wherein the first condition has first threshold rate of change specific for the first condition and the second condition has a second threshold rate of change specific for the second condition, and wherein the first threshold rate of change is different from the second threshold rate of change and the first condition is different from the second condition; and selecting a first trip curve that includes the first threshold rate of change as a selected threshold rate of change when the local condition matches the first condition and selecting a second trip curve that includes the second threshold rate of change when the local condition matches the second condition, wherein the first trip curve is different from the second trip curve; comparing a rate of change of the current measured by the sensor to a selected threshold rate of change of current based on the selected trip curve; determining that the rate of change of the current measured by the sensor exceeds the selected threshold rate of change of current for at least a predetermined period of time; and as a consequence of determining that the rate of change of the current measured by the sensor exceeds the selected threshold rate of change of current for at least the predetermined period of time, opening the switch, thereby disconnecting the input from the output. 2. The circuit breaker of claim 1 , comprising a communications device configured to communicate on a data communications network, wherein the communications device is coupled to the control system and the control system is configured to open and close the switch based on one or more instructions received by the communications device from the data communications network. 3. The circuit breaker of claim 1 , wherein the control system comprises a microcontroller and software, firmware, hardware, or a combination of them that in operation cause the microcontroller to perform the operations. 4. The circuit breaker of claim 1 , wherein the sensor comprises an analog di/dt sensor, and wherein the control system comprises an analog comparator coupled between the di/dt sensor and the switch. 5. The circuit breaker of claim 1 , the operations comprising: comparing a magnitude of the current measured by the sensor to a threshold magnitude of current; and as a consequence of determining that the magnitude of the current measured by the sensor matches or exceeds the threshold magnitude of current, opening the switch, thereby disconnecting the input from the output. 6. The circuit breaker of claim 1 , the operations comprising: monitoring the power consumption of the circuit downstream from the circuit breaker; and reporting monitored power consumption over a data communications network using a communications device coupled to the control system and configured to communicate on the data communications network. 7. The circuit breaker of claim 1 , the operations comprising: monitoring the power consumption of the circuit downstream from the circuit breaker; and storing monitored power consumption on a computer storage medium coupled to the control system. 8. The circuit breaker of claim 1 , wherein the circuit breaker is configured to automatically reclose the switch as a consequence of determining that a fault has been cleared. 9. The circuit breaker of claim 1 , wherein the switch comprises a semiconductor device in parallel with an energy dissipating element. 10. A method performed by a circuit breaker comprising an input and an output and a switch coupled between the input and output, the method comprising: measuring a local condition of the circuit downstream from the circuit breaker; determining that the local condition matches one of a first condition or second condition, wherein the first condition has first threshold rate of change specific for the first condition and the second condition has a second threshold rate of change specific for the second condition, and wherein the first threshold rate of change is different from the second threshold rate of change and the first condition is different from the second condition; and selecting a first trip curve that includes the first threshold rate of change as a selected threshold rate of change when the local condition matches the first condition and selecting a second trip curve that includes the second threshold rate of change when the local condition matches the second condition, wherein the first trip curve is different from the second trip curve; measuring current flowing from the input to the output; comparing a rate of change of the measured current to a selected threshold rate of change of current based on the selected trip curve; determining that the rate of change of the measured current exceeds the selected threshold rate of change of current for at least a predetermined period of time; and as a consequence of determining that the rate of change of the measured current exceeds the selected threshold rate of change of current for at least a predetermined period of time, opening the switch, thereby disconnecting the input from the output. 11. The method of claim 10 , comprising: receiving one or more instructions from a data communications network; and opening and closing the switch based on the one or more instructions. 12. The method of claim 10 , wherein the circuit breaker comprises a microcontroller and software, firmware, hardware, or a combination of them that in operation cause the microcontroller to perform the method. 13. The method of claim 10 , wherein measuring the current comprises using an analog di/dt sensor, and wherein comparing the rate of change of the current comprising using an analog comparator coupled between the di/dt sensor and the switch. 14. The method of claim 10 , comprising: comparing a magnitude of the current measured by a sensor to a threshold magnitude of current that indicates a bolted fault on the circuit downstream from the circuit breaker; and as a consequence of determining that the magnitude of the current measured by the sensor matches or exceeds the threshold magnitude of current, opening the switch, thereby disconnecting the input from the output. 15. The method of claim 10 , comprising: monitoring the power consumption of the circuit downstream from the circuit breaker; and reporting the monitored power consumption over a data communications network using a communications device coupled to a control system and configured to communicate on the data communications network. 16. The method of claim 10 , comprising: monitoring the power consumption of the circuit downstream from the circuit breaker; and storing the monitored power consumption on a computer storage medium coupled to a control system. 17. The method of claim 10 , comprising automatically reclosing the switch as a consequence of determining that a fault has been cleared. 18. The method of claim 10 , wherein the switch comprises a semiconductor device in parallel with an energy dissipating element.