Limiter type air circuit breaker with blow open arrangement

The invention claimed is: 1. A circuit breaker, comprising: a carrier assembly configured to supply current to a circuit through a fixed contact in a first operative state, the carrier assembly comprising, a latch pin configured to move responsive to a force transferred to the latch pin as a result of a fault condition in the circuit; a cam assembly in contact with the latch pin and configured to move responsive to movement of the latch pin; and a movable contact coupled to the cam assembly and in physical contact with the fixed contact of the circuit to supply the current to the circuit in the first operative state, the movable contact configured to break the physical contact with the fixed contact of the circuit responsive to movement of the cam assembly to put the circuit breaker in a second operative state; and a mechanism configured to move the carrier assembly responsive to a signal indicative of the fault condition to put the circuit breaker in a third operative state, wherein the movable contact of the carrier assembly is configured to break the physical contact with the fixed contact of the circuit to put the circuit breaker in the second operative state responsive to movement of the latch pin and the cam assembly prior to the mechanism moving the carrier assembly to put the circuit breaker in the third operative state responsive to the signal. 2. The circuit breaker according to claim 1 , further comprising a pole coupler connecting the carrier assembly to the mechanism. 3. The circuit breaker according to claim 2 , wherein the mechanism comprises a spring configured to move the pole coupler to put the circuit breaker in the third operative state from the second operative state. 4. The circuit breaker according to claim 1 , wherein the carrier assembly further comprises a latching bracket assembly and the latch pin is configured to move along a slot in the latching bracket assembly based on the force. 5. The circuit breaker according to claim 4 , wherein the latching bracket assembly and the cam assembly are connected through a pivot pin. 6. The circuit breaker according to claim 5 , wherein the force is initially transferred to the pivot pin prior to cause movement of the latch pin. 7. The circuit breaker according to claim 1 , wherein the cam assembly is arranged in a center of a plurality of the movable contacts of the carrier assembly that correspond with a plurality of the fixed contacts of the circuit. 8. The circuit breaker according to claim 1 , wherein the latch pin is spring-loaded. 9. The circuit breaker according to claim 1 , wherein the cam assembly includes a dented portion configured to prevent bounce-back of the carrier assembly reestablishing contact with the circuit. 10. A method of developing a current limiting circuit breaker, the method comprising: arranging a carrier assembly in physical contact with a circuit, the carrier assembly supplying current to the circuit through a fixed contact in a first operative state, the arranging the carrier assembly further comprising, arranging a latch pin of the carrier assembly to move responsive to a force transferred to the latch pin as a result of a fault condition in the circuit; arranging a cam assembly of the carrier assembly to be in contact with the latch pin, the cam assembly moving responsive to movement of the latch pin; and arranging a movable contact of the carrier assembly to be coupled to the cam assembly and in physical contact with the fixed contact of the circuit in the first operative state, the movable contact breaking the physical contact with the fixed contact of the circuit responsive to movement of the cam assembly to put the circuit breaker in a second operative state; and arranging a mechanism coupled to the carrier assembly, the mechanism moving the carrier assembly responsive to a signal indicative of the fault condition to put the circuit breaker in a third operative state, wherein the movable contact breaking the physical contact with the fixed contact to put the circuit breaker in the second operative state is prior to the mechanism moving the carrier assembly to put the circuit breaker in the third operative state. 11. The method according to claim 10 , further comprising arranging the cam assembly in a center of a plurality of movable contacts of the carrier assembly, each of the plurality of movable contacts corresponding, with one of a plurality of the fixed contacts of the circuit.