Arc suppression in circuit protective devices

We claim: 1. A load center, comprising: a plurality of branch breakers; at least one sensor coupled to the plurality of branch breakers, the at least one sensor configured to sense a parameter indicative of arc formation in one of the branch breakers; and a solid-state main breaker coupled to receive a trigger signal from the at least one sensor, the solid-state main breaker configured to determine whether the trigger signal satisfies a predefined arcing condition and, in response, temporarily interrupt current flow to the plurality of branch breakers and wait for a predefined event before restoring current flow to the plurality of branch breakers, wherein the predefined event comprises at least one of (i) a predefined time period substantially equal to a half cycle of a load center current or (ii) an immediately next zero-crossing of a load center voltage. 2. The load center of claim 1 , wherein the at least one sensor comprises one sensor coupled to each of the plurality of branch breakers. 3. The load center of claim 1 , wherein the at least one sensor comprises one sensor coupled to multiple ones of the plurality of branch breakers. 4. The load center of claim 1 , wherein the at least one sensor includes a voltage sensor and the parameter is voltage induced by arc formation in one of the branch breakers, and the load center further comprises a signal conditioning circuit connected to the voltage sensor. 5. The load center of claim 1 , wherein the at least one sensor includes a radio frequency sensor and the parameter is radio frequency energy generated by arc formation in one of the branch breakers. 6. A main breaker for a load center, comprising: a solid-state trip switch configured to provide current flow to a plurality of branch breakers; and a breaker controller configured to control switching of the solid-state trip switch, the breaker controller operable to receive a trigger signal resulting from a fault condition in one of the branch breakers and determine whether the trigger signal satisfies a predefined condition; wherein the breaker controller is further operable to temporarily interrupt current flow to the branch breakers and wait for a predefined event before restoring current flow to the branch breakers in response the trigger signal satisfying the predefined condition, wherein the predefined event comprises at least one of (i) a predefined time period substantially equal to a half cycle of a load center current or (ii) an immediately next zero-crossing of a load center voltage. 7. The main breaker of claim 6 , wherein the trigger signal is received from at least one sensor coupled the branch breakers and represents one of: a voltage induced by arc formation in one of the branch breakers, or radio frequency energy generated by arc formation in one of the branch breakers. 8. The main breaker of claim 6 , wherein the predefined condition is one of: a predefined logic level, or a predefined arcing condition. 9. The main breaker of claim 8 , wherein the predefined arcing condition includes the trigger signal having one or more of: a predefined waveform, shape, amplitude, and duration. 10. A method of suppressing arc formation in a load center, comprising: receiving, at a main breaker, a trigger signal resulting from a fault condition in one of a plurality of branch breakers in the load center; determining, at the main breaker, whether the trigger signal satisfies a predefined condition; temporarily interrupting, at the main breaker, current flow to the plurality of branch breakers in response to the trigger signal satisfying the predefined condition; and restoring, at the main breaker, current flow to the plurality of branch breakers after occurrence of a predefined event, wherein the predefined event comprises at least one of (i) a predefined time period substantially equal to a half cycle of a load center current or (ii) an immediately next zero-crossing of a load center voltage. 11. The method of claim 10 , further comprising coupling a sensor to each of the plurality of branch breakers or coupling at least one sensor to multiple ones of the plurality of branch breakers. 12. The method of claim 10 , wherein the predefined condition is one of: a predefined logic level, or a predefined arcing condition. 13. The method of claim 12 , wherein the predefined arcing condition includes the trigger signal having one or more of: a predefined waveform, shape, amplitude, and duration. 14. The method of claim 10 , wherein the trigger signal is received from at least one sensor coupled the branch breakers, further comprising conditioning the trigger signal at a signal conditioning circuit connected to the at least one sensor. 15. The method of claim 14 , wherein the trigger signal represents one of: a voltage induced by arc formation in one of the branch breakers, or radio frequency energy generated by arc formation in one of the branch breakers.