Magnetic latching actuator

What is claimed is: 1. An actuator assembly comprising: a first actuator including a first annular latching plate, a first annular stator, a first winding wound on the first stator, a first plunger slidably positioned in a central opening within the first stator and an opening spring positioned between the first plunger and the stator, wherein current flow in one direction through the first winding causes the first plunger to seat against the first latching plate; and a second actuator coupled to and axially aligned with the first actuator, the second actuator including a second annular latching plate, a second annular stator, a second winding wound on the second stator, a second plunger slidably positioned in an opening within the second stator, a first sleeve positioned within a first channel in the second plunger and extending from a back portion of the second plunger through an opening in the first latching plate and being rigidly secured to the first plunger, and a tolerance spring wrapped around the first sleeve and being positioned in the first channel between the back portion of the second plunger and a first flange feature of the first sleeve positioned at an opposite end of the first sleeve from the back portion of the second plunger, wherein current flow in one direction through the second winding causes the second plunger to seat against the second latching plate and cause the tolerance spring to compress between the back portion of the second plunger and the first flange to provide additional latching force of the first plunger against the first latching plate. 2. The actuator assembly according to claim 1 wherein the first actuator includes a second sleeve positioned within a second channel in the first plunger and a compliance spring wrapped around the second sleeve and being positioned in the second channel between a back portion of the first plunger and a second flange feature of the second sleeve at an opposite end of the second sleeve from the back portion of the first plunger, wherein when the first plunger seats against the first latching plate the compliance spring compresses between the back portion of the first plunger and the second flange. 3. The actuator assembly according to claim 2 further comprising a drive rod rigidly secured to the second sleeve and extending through the first sleeve, an opening in the second plunger and an opening in the second latch plate. 4. The actuator assembly according to claim 3 wherein the drive rod is coupled to a switch. 5. The actuator assembly according to claim 4 wherein the switch is a vacuum interrupter. 6. The actuator assembly according to claim 1 wherein the first actuator includes a plurality of semi-annular permanent magnets positioned between the first latching plate and the first stator and the second actuator includes a plurality of semi-annular permanent magnets positioned between the second latching plate and the second stator. 7. An actuator assembly comprising: a first actuator including a first magnetically actuated plunger and a first latching plate, the first plunger operable to be magnetically latched to the first latching plate; and a second actuator coupled to and axially aligned with the first actuator, the second actuator including a second magnetically actuated plunger, a second latching plate, a sleeve positioned within and extending from the second plunger and being rigidly secured to the first plunger, and a tolerance spring wrapped around the sleeve, the second plunger operable to be magnetically latched to the second latching plate, wherein latching of the second plunger causes the tolerance spring to compress and provide additional latching force of the first plunger to the first latching plate. 8. The actuator assembly according to claim 7 wherein the sleeve extends through a central opening in the first latching plate. 9. The actuator assembly according to claim 7 wherein the tolerance spring compresses between a back portion of the second plunger and a front flange on the sleeve. 10. The actuator assembly according to claim 7 further comprising a drive rod rigidly secured to the first plunger and extending through the sleeve, an opening in the second plunger and an opening in the second latch plate. 11. The actuator assembly according to claim 10 wherein the drive rod is coupled to a switch. 12. The actuator assembly according to claim 11 wherein the switch is a vacuum interrupter. 13. A switch assembly comprising: an actuator assembly including a first actuator having a first magnetically actuated plunger and a first latching plate, the first plunger operable to be magnetically latched to the first latching plate, and a second actuator coupled to and axially aligned with the first actuator, the second actuator including a second magnetically actuated plunger, a second latching plate, a sleeve positioned within and extending from the second plunger and being rigidly secured to the first plunger, and a tolerance spring wrapped around the sleeve, the second plunger operable to be magnetically latched to the second latching plate, wherein latching of the second plunger causes the tolerance spring to compress and provide additional latching force of the first plunger to the first latching plate; a switch; and a drive rod coupled to the actuator assembly and the switch, the actuator assembly moving the rod to open and close the switch. 14. The switch assembly according to claim 13 wherein the switch is a vacuum interrupter.