Trip bar stop

What is claimed is: 1. A linkage assembly for a circuit breaker, said linkage assembly comprising: a number of linkage members, said linkage members operatively coupled to each other and each movable between a second configuration, an initial tripped configuration, a rebound configuration, and a final tripped configuration, said linkage members biased to said final tripped configuration; said number of linkage members includes a cradle latch; said cradle latch includes a cradle latch stop surface; a stop member coupled to an associated linkage member, said stop member moving with said associated linkage member, said stop member positioned to contact said cradle latch stop surface when said linkage members are in said rebound configuration; wherein contact between said stop member and said cradle latch stop surface substantially arrests the motion of said linkage members; said number of linkage members includes a trip bar latch member; said trip bar latch member movable between a rebound configuration and a final tripped configuration; said cradle latch rotatably coupled to said trip bar latch member; said trip bar latch member including a latch surface and a cam surface; and wherein, when said trip bar latch member is in one of said rebound configuration or said final tripped configuration, said trip bar latch member cam surface is disposed in the path of said trip bar latching surface. 2. The linkage assembly of claim 1 wherein: said cradle latch moves between a second configuration, an initial tripped configuration, a rebound configuration, and a final tripped configuration; and wherein, when said cradle latch is in said rebound configuration, said cradle latch stop surface is disposed in the path of said stop member, and, when said cradle latch is in said second configuration, said cradle latch stop surface is not disposed in the path of said stop member. 3. The linkage assembly of claim 1 wherein: said cradle latch is an elongated member; said stop member coupled to said cradle latch; and said stop member extends in a direction generally parallel to the longitudinal axis of said cradle latch. 4. The linkage assembly of claim 3 wherein: when said cradle latch is in said second configuration, the longitudinal axis of said cradle latch passes through said cradle latch member; when said cradle latch is in said rebound configuration, the longitudinal axis of said cradle latch does not pass through said cradle latch; and said stop member is offset from the longitudinal axis of said cradle latch. 5. An operating mechanism for a circuit breaker, said operating mechanism comprising: a number of biasing elements; a number of linkage members, said linkage members operatively coupled to each other and each movable between a second configuration, an initial tripped configuration, a rebound configuration, and a final tripped configuration; said number of linkage members includes a cradle latch; said cradle latch includes a cradle latch stop surface; said biasing elements operatively coupled to said number of linkage members wherein said number of linkage members are biased to said final tripped configuration; a stop member coupled to an associated linkage member, said stop member moving with said associated linkage member, said stop member positioned to contact said cradle latch stop surface when said linkage members are in said rebound configuration; wherein contact between said stop member and said cradle latch stop surface substantially arrests the motion of said linkage members; said number of linkage members includes a trip bar latch member; said trip bar latch member movable between a rebound configuration and a final tripped configuration; said cradle latch rotatably coupled to said trip bar latch member; said trip bar latch member including a latch surface and a cam surface; and wherein, when said trip bar latch member is in one of said rebound configuration or said final tripped configuration, said trip bar latch member cam surface is disposed in the path of said trip bar latching surface. 6. The operating mechanism of claim 5 wherein: said cradle latch moves between a second configuration, an initial tripped configuration, a rebound configuration, and a final tripped configuration; and wherein, when said cradle latch is in said rebound configuration, said cradle latch stop surface is disposed in the path of said stop member, and, when said cradle latch is in said second configuration, said cradle latch stop surface is not disposed in the path of said stop member. 7. The operating mechanism of claim 5 wherein: said cradle latch is an elongated member; said stop member coupled to said cradle latch; and said stop member extends in a direction generally parallel to the longitudinal axis of said cradle latch. 8. The operating mechanism of claim 7 wherein: when said cradle latch is in said second configuration, the longitudinal axis of said cradle latch passes through said cradle latch; when said cradle latch is in said rebound configuration, the longitudinal axis of said cradle latch does not pass through said cradle latch; and said stop member is offset from the longitudinal axis of said cradle latch. 9. A circuit breaker comprising: a housing assembly; a trip unit assembly disposed in said housing assembly, said trip unit assembly including a trip bar; said trip bar including a latching surface; an operating mechanism disposed in said housing assembly, said operating mechanism including a number of biasing elements and a number of linkage members; said linkage members operatively coupled to each other and each movable between a second configuration, an initial tripped configuration, a rebound configuration, and a final tripped configuration; said number of linkage members includes a cradle latch; said cradle latch includes a cradle latch stop surface; said biasing elements operatively coupled to said number of linkage members wherein said number of linkage members are biased to said final tripped configuration; said trip bar structured to move between an open, final tripped configuration and a closed, second configuration, said trip bar operatively coupled to said operating mechanism; a stop member coupled to an associated linkage member, said stop member moving with said associated linkage member, said stop member positioned to contact said cradle latch stop surface when said linkage members are in said rebound configuration; wherein contact between said stop member and said cradle latch stop surface substantially arrests the motion of said linkage members; said number of linkage members includes a trip bar latch member; said trip bar latch member movable between a rebound configuration and a final tripped configuration; said stop member coupled to said cradle latch; said cradle latch rotatably coupled to said trip bar latch member; said trip bar latch member including a latch surface and a cam surface; and wherein when said trip bar latch member is in one of said rebound configuration or said final tripped configuration, said trip bar latch member cam surface is disposed in the path of said trip bar latching surface. 10. The circuit breaker of claim 9 wherein: said cradle latch moves between a second configuration, an initial tripped configuration, a rebound configuration, and a final tripped configuration; and wherein, when said cradle latch is in said rebound configuration, said cradle latch stop surface is disposed in the path of said stop member, and, when said cradle latch is in said second configuration, said cradle latch stop surface is not disposed in the path of said stop member. 11. The circui