Circuit breaker with advanced health diagnostics

What is claimed is: 1. A circuit interrupter structured to be electrically connected between a power source and a load, the circuit interrupter comprising: a pair of separable contacts comprising a stationary contact and a movable contact disposed between the power source and the load; a trip unit configured to detect trip conditions; a mechanical trip mechanism, the mechanical trip mechanism comprising: a D-shaft structured to be actuated by the trip unit; an operating mechanism structured to be actuated by the D-shaft; and a pole shaft structured to be actuated by the operating mechanism and to move the movable contact between a closed position and an open position; and a diagnostic system for monitoring the performance of the mechanical trip mechanism, the diagnostic system comprising: a D-shaft sensor structured to track a position of the D-shaft; a pole shaft sensor structured to track a position of the pole shaft; and a microprocessor in electrical communication with the D-shaft sensor and the pole shaft sensor, wherein, for each opening operation of the circuit interrupter that moves the movable contact from a closed state to an open state, the microprocessor is configured to: time stamp a first time at which the D-shaft begins moving to its open position, based on an output of the D-shaft sensor, time stamp a second time at which the pole shaft reaches its open position, based on an output of the pole shaft sensor, determine a mechanism performance time of the mechanical trip mechanism by subtracting the first time from the second time, transmit the mechanism performance time to the trip unit, and determine whether or not the circuit interrupter requires servicing based on the mechanism performance time. 2. The circuit interrupter of claim 1 , wherein the microprocessor is configured to continuously read the D-shaft sensor and the pole shaft sensor when the circuit interrupter is in service. 3. The circuit interrupter of claim 1 , wherein the microprocessor is configured to transmit the mechanism performance time to a memory of the trip unit, wherein the trip unit is configured to, upon receiving the mechanism performance time, compare the mechanism performance time to a predefined time limit, wherein the trip unit is configured to notify a user that the mechanical trip mechanism needs to be serviced if the mechanism performance time exceeds the predefined time limit. 4. The circuit interrupter of claim 3 , wherein, when the trip unit receives the mechanism performance time, the trip unit identifies the mechanism performance time as a current mechanism performance time, wherein the trip unit is configured to store past mechanism performance times associated with past opening operations, wherein the trip unit is configured to compare the current mechanism performance time with the stored past mechanism performance times in order to determine if there is a trend toward failure of the mechanical trip mechanism, wherein the trip unit is configured to notify the user that service of the mechanical trip mechanism is recommended if the trip unit determines that the trend toward failure is present. 5. The circuit interrupter of claim 1 , further comprising: a manual open mechanism operably connected to the mechanical trip mechanism and structured to enable a user to manually initiate an opening operation, wherein the trip unit comprises a test trip command structured to be actuated by a user in order to simulate a trip condition that initiates an opening operation, wherein the diagnostic system is configured to determine the mechanism performance time regardless of whether a given opening operation is initiated due to detection of an actual trip condition by the trip unit, due to actuation of the test trip command, or due to actuation of the manual open mechanism. 6. The circuit interrupter of claim 1 , wherein the diagnostic system further comprises: a D-shaft metal target positioned such that movement of the D-shaft causes a change in a signal output by the D-shaft metal target; and a pole shaft metal target positioned such that movement of the pole shaft causes corresponding movement of the pole shaft metal target, wherein the D-shaft sensor is an inductive sensor, and wherein the D-shaft sensor is positioned such that the change in the signal output by the D-shaft metal target alters an electromagnetic field of the D-shaft sensor and causes the D-shaft sensor to produce a D-shaft position output, and wherein the pole shaft sensor is an inductive sensor, and wherein the pole shaft sensor is positioned such that movement of the pole shaft metal target alters an electromagnetic field of the pole shaft sensor and causes the pole shaft sensor to produce a pole shaft position output. 7. The circuit interrupter of claim 1 , wherein the diagnostic system is structured to determine the mechanism performance time regardless of whether or not current is flowing through the circuit interrupter. 8. A method of monitoring performance of a mechanical trip mechanism during opening operations of a circuit interrupter, the method comprising: positioning a D-shaft sensor to track a position of a D-shaft of the mechanical trip mechanism; positioning a pole shaft sensor to track a position of a pole shaft of the mechanical trip mechanism; time stamping, with a microprocessor, a first time at which the D-shaft begins moving from its closed position to its open position; time stamping, with the microprocessor, a second time at which the pole shaft reaches its open position; determining, with the microprocessor, a mechanism performance time of the mechanical trip mechanism by subtracting the first time from the second time; and determining, with a trip unit of the circuit interrupter, whether or not the circuit interrupter requires servicing based on the mechanism performance time, wherein the D-shaft is configured to be actuated by the trip unit upon detection of a trip condition by the trip unit, wherein an operating mechanism of the mechanical trip mechanism is configured to be actuated by the D-shaft, wherein the pole shaft is configured to be actuated by the operating mechanism, wherein the pole shaft is configured to open separable contacts of the circuit interrupter, and wherein the separable contacts are structured to be closed when the D-shaft is in its closed position and structured to be open when the pole shaft is in its open position. 9. The method of claim 8 , further comprising: continuously reading the D-shaft sensor and the pole shaft sensor with the microprocessor when the circuit interrupter is in service. 10. The method of claim 8 , further comprising: transmitting the mechanism performance time to the trip unit; comparing, using the trip unit, the mechanism performance time to a predefined time limit; and notifying a user that the mechanical trip mechanism needs to be serviced if the mechanism performance time exceeds the predefined time limit. 11. The method of claim 10 , further comprising: identifying, with the trip unit, the received mechanism performance time as a current mechanism performance time; storing past mechanism performance times associated with past opening operations in a data log; comparing the current mechanism performance time with the stored past mechanism performance times in order to determine if there is a trend toward failure of the mechanical trip mechanism; and notifying the user that service of the mechanical trip mechanism is recommended if the trip unit determines that the trend toward failure is present. 12. The method of claim 8 , wherein the D-shaft is further