Monitoring and responding to an abnormal condition associated with energizing of poles of a circuit breaker

What is claimed is: 1. A multi-pole circuit interrupter configured to be coupled between an AC source and an electric load, the multi-pole circuit interrupter comprising: a tie bar mechanically coupling a first handle of a first pole circuit interrupter of the multi-pole circuit interrupter to a second handle of a second pole circuit interrupter of the multi-pole circuit interrupter so that both poles turn on and off together; a trip bar mechanically coupling a first trip arm of the first pole circuit interrupter to a second trip arm of the second pole circuit interrupter so that the both poles trip off together should one of the first pole circuit interrupter or the second pole circuit interrupter trip due to an over current condition; a first switch to energize a first pole on a phase A conductor of the multi-pole circuit interrupter; a second switch to energize a second pole on a phase B conductor of the multi-pole circuit interrupter; and an electronic solid-state circuit coupled to the phase A conductor and the phase B conductor to detect a line voltage variation and control a current to a device in response to trip an energized pole among the first pole and the second pole if only one of the first pole and the second pole is energized when a user controls the tie bar to turn on or turn off the multi-pole circuit interrupter or when the trip bar fails to trip one of the first pole and the second pole. 2. The multi-pole circuit interrupter of claim 1 , wherein the electronic solid-state circuit further comprising: a line voltage detection circuit disposed on a load side of the first switch and the second switch, the line voltage detection circuit is configured to detect a change in a voltage level of the phase A conductor and a change in a voltage level of the phase B conductor. 3. The multi-pole circuit interrupter of claim 2 , wherein the line voltage detection circuit is a resistor bridge that provides an output voltage based on the voltage level of the phase A conductor and the voltage level of the phase B conductor. 4. The multi-pole circuit interrupter of claim 2 , wherein the resistor bridge includes first, second, third resistors of equal value. 5. The multi-pole circuit interrupter of claim 2 , wherein the electronic solid-state circuit further comprising: a trip solenoid disposed adjacent to the first switch and the second switch, the trip solenoid having a first terminal and a second terminal. 6. The multi-pole circuit interrupter of claim 5 , wherein the electronic solid-state circuit further comprising: a current-controlling trip circuit coupled to the first terminal of the trip solenoid, the current-controlling trip circuit to provide a trip current to energize the trip solenoid to trip the energized pole among the first pole and the second pole. 7. The multi-pole circuit interrupter of claim 6 , wherein the electronic solid-state circuit further comprising: an isolation circuit coupled between the line voltage detection circuit and the current-controlling trip circuit to isolate the line voltage detection circuit from the current-controlling trip circuit. 8. The multi-pole circuit interrupter of claim 6 , wherein the electronic solid-state circuit further comprising: a surge protection circuit coupled to the phase A conductor, the phase B conductor and the second terminal of the trip solenoid. 9. The multi-pole circuit interrupter of claim 6 , wherein the current-controlling trip circuit includes a silicon controlled rectifier (SCR) having a gate, wherein the SCR is triggered by a current going into the gate. 10. The multi-pole circuit interrupter of claim 1 , wherein the electronic solid-state circuit further comprising: at least one of a ground fault detection circuit and an arc fault detection circuit. 11. A multi-pole circuit interrupter configured to be coupled between a source and a load, the multi-pole circuit interrupter comprising: a first switch to energize a first pole on a phase A conductor of the multi-pole circuit interrupter; a second switch to energize a second pole on a phase B conductor of the multi-pole circuit interrupter; a first line voltage detection circuit disposed on a load side of the first switch and the second switch, the first line voltage detection circuit is configured to detect a change in a voltage level of the phase A conductor; a second line voltage detection circuit disposed on a load side of the first switch and the second switch, the second line voltage detection circuit is configured to detect a change in a voltage level of the phase B conductor; and a trip circuit configured to control a current to trip an energized pole among the first pole and the second pole if only one of the first pole and the second pole is energized when a user controls a tie bar to turn on or turn off the multi-pole circuit interrupter or when a trip bar fails to trip one of the first pole and the second pole. 12. The multi-pole circuit interrupter of claim 11 , wherein the trip circuit further comprising: a trip solenoid disposed adjacent to the first switch and the second switch, the trip solenoid having a first terminal and a second terminal. 13. The multi-pole circuit interrupter of claim 12 , wherein the trip circuit further comprising: a current-controlling circuit coupled to the first terminal of the trip solenoid, the current-controlling circuit to provide a trip current to energize the trip solenoid to trip the energized pole among the first pole and the second pole. 14. The multi-pole circuit interrupter of claim 13 , wherein the current-controlling circuit includes a silicon controlled rectifier (SCR) having a gate, wherein the SCR is triggered by a current going into the gate. 15. The multi-pole circuit interrupter of claim 12 , further comprising: a surge protection circuit coupled to the phase A conductor, the phase B conductor and the second terminal of the trip solenoid. 16. A method of handling an abnormal condition associated with energizing of poles of a circuit breaker, the method comprising: detecting a variation in a line voltage on a phase A conductor and a phase B conductor of a multi-pole circuit interrupter coupled between an AC source and an electric load; controlling a trip current to a solenoid disposed adjacent to a first switch configured to energize a first pole on the phase A conductor of the multi-pole circuit interrupter and a second switch configured to energize a second pole on the phase B conductor of the multi-pole circuit interrupter in response to the variation in the line voltage; and tripping an energized pole among the first pole and the second pole based on the trip current if only one of the first pole and the second pole is energized when a user controls a tie bar to turn on or turn off the multi-pole circuit interrupter or when a trip bar fails to trip one of the first pole and the second pole. 17. The method of claim 16 , wherein detecting a variation in a line voltage on a phase A conductor and a phase B conductor of a multi-pole circuit interrupter further comprising: generating an output voltage based on a voltage level of the phase A conductor and a voltage level of the phase B conductor using a resistor bridge. 18. The method of claim 16 , wherein controlling a trip current to a solenoid further comprising: tripping the energized pole among the first pole and the second pole using a silicon controlled rectifier (SCR) having a gate, wherein the SCR is triggered by a current going into the gate. 19. The method of claim 1