Bi-stable trip unit with trip solenoid and flux transfer reset

We claim: 1. A trip unit for a circuit protective device, the trip unit comprising: a movable armature having a front side, a back side and an opening extending from the front side to the back side, the opening configured to receive a portion of a trip lever of the circuit protective device from the front side when in an ON position; a movable yoke arranged adjacent to the back side of the armature, the yoke and armature being configured to move together to different positions including a reset position and a tripped position, the reset position being a position in which the portion of the trip lever is resettable into the opening of the armature, the tripped position being a position in which the trip lever is released from the opening of the armature and is unable to be reset into the opening of the armature; a reset spring to apply a force that biases the armature toward the reset position; and a magnetic flux transfer system including a permanent magnet and one or more solenoids each with a ferromagnetic core, the magnetic flux transfer system being configured: to generate an attractive force using a solenoid from the one or more solenoids to counter the force of the reset spring and latch friction force when a tripping condition is detected, the generated attractive force together with an attractive force from the permanent magnet attracting the yoke which in turn moves the yoke together with the armature to the tripped position, to retain the yoke and armature in the tripped position using the attractive force of the permanent magnet when the generated attractive force is no longer being generated, and to generate a repulsive force using a solenoid from the one or more solenoids when a resettable condition is satisfied, the generated repulsive force together with the force of the reset spring countering the attractive force of the permanent magnet thereby releasing the yoke and armature from the tripped position and allowing the yoke and armature to move to the reset position. 2. The trip unit according to claim 1 , wherein a solenoid from the one or more solenoids is configured to produce the attractive and repulsive forces by changing a polarity of current supplied thereto under different conditions including the tripping condition and the resettable condition. 3. The trip unit according to claim 2 , wherein the ferromagnetic core of the solenoid includes a first end which faces a direction of the yoke and a second end which is in contact with or proximity to the permanent magnet. 4. The trip unit according to claim 3 , wherein, in the tripped position, the yoke is in contact with the first end of the ferromagnetic core. 5. The trip unit according to claim 1 , further comprising a trip actuator and a reset actuator, the trip actuator including a first solenoid from the one more solenoids, the reset actuator including a second solenoid from the one or more solenoids and the permanent magnet which is in contact with a ferromagnetic core of the second solenoid. 6. The trip unit according to claim 5 , wherein the first solenoid is energized to generate an attractive force, and the second solenoid is energized to generate a repulsive force. 7. The trip unit according to claim 1 , wherein the circuit protective device comprises a miniature circuit breaker. 8. A circuit protective device comprising: a trip unit according to one of claim 1 ; the trip lever; a stationary electrical contact; a blade carrying a movable electrical contact configured to move between a first position and a second position, the first position being a position in which the movable electrical contact is in contact with the stationary electrical contact to allow current to flow thereacross in an ON position, the second position being a position in which the movable electrical contact is separated from the stationary electrical contact in one of a tripped position, open position or reset position; a memory; one or more processors configured: to control the trip unit to operate to the tripped position when the tripped condition is detected thereby causing the blade to move to the second position, and to operate to the reset position from the tripped position when the resettable condition is satisfied, wherein, in the tripped position, the trip lever is released from the opening of the armature which in turn causes the movable electrical contact to separate from the stationary electrical contact, wherein, in the reset position, the trip lever is operable to an open position, which latches the portion of the trip lever into the opening. 9. A method of performing a tripping operation on a circuit protective device with a trip unit including a permanent magnet, one or more solenoids each with a ferromagnetic core, a trip lever, a reset spring, and a yoke and armature which are configured to move to different positions including a reset position and a tripped position, the reset position being a position in which the portion of the trip lever is resettable into the opening of the armature, the tripped position being a position in which the trip lever is released from the opening of the armature and is unable to be reset into the opening of the armature, the method comprising: generating an attractive force using a solenoid from the one or more solenoids to counter the force of the reset spring and latch friction force when a tripping condition is detected, the generated attractive force together with an attractive force from the permanent magnet attracting the yoke which in turn moves the yoke together with the armature to the tripped position; retaining the yoke and armature in the tripped position using the attractive force of the permanent magnet when the generated attractive force is no longer being generated, and generating a repulsive force using a solenoid from the one or more solenoids when a resettable condition is satisfied, the generated repulsive force together with the force of the reset spring countering the attractive force of the permanent magnet thereby releasing the yoke and armature from the tripped position and allowing the yoke and armature to move to the reset position. 10. The method according to claim 9 , wherein a solenoid from the one or more solenoids is configured to produce the attractive and repulsive forces by changing a polarity of current supplied thereto under different conditions including the tripping condition and the resettable condition. 11. The method according to claim 10 , wherein the ferromagnetic core of the solenoid includes a first end which faces a direction of the yolk and a second end which is in contact with or proximity to the permanent magnet. 12. The method according to claim 11 , wherein, in the tripped position, the yoke is in contact with the first end of the ferromagnetic core. 13. The method according to claim 9 , wherein the trip unit includes a trip actuator and a reset actuator, the trip actuator including a first solenoid from the one more solenoids, the reset actuator including a second solenoid from the one or more solenoids and the permanent magnet which is in contact with a ferromagnetic core of the second solenoid. 14. The method according to claim 13 , wherein the first solenoid is energized to generate an attractive force, and the second solenoid is energized to generate a repulsive force. 15. The method according to claim 9 , wherein the circuit protective device comprises a miniature circuit breaker. 16. A trip unit for a circuit protective device, the trip unit comprising: an armature and yoke movable together between different positions includi