Switch system with high temperature operating plunger

What is claimed is: 1. A switch system, comprising: a snap action switch configured to move, with snap-action, from a first switch position to a second switch position; a housing, wherein the snap action switch is disposed within the housing; and a heated actuator contacting an operating plunger and configured to selectively supply an actuating force to, and remove the actuating force from, the operating plunger, wherein the heated actuator is separate from the housing, wherein the operating plunger extends between the heated actuator and the housing, wherein the operating plunger extends into the housing through an opening in the housing and is disposed adjacent to the snap action switch within the housing, wherein the operating plunger is configured to selectively receive the actuating force, and upon receipt of the actuating force, to retain the snap action switch in the first switch position, wherein the operating plunger is further configured, upon removal of the actuating force, to allow the switch to move from the first switch position to the second switch position; and wherein the operating plunger comprises a dielectric material having a thermal conductivity of less than or equal to 23 W/m-k and a dielectric strength of less than or equal to 15 kV/mm per ASTM-D149. 2. The switch system of claim 1 , wherein the dielectric material comprises a ceramic. 3. The switch system of claim 1 , wherein the dielectric material comprises thermoset phenolic. 4. The switch system of claim 1 , wherein: the first switch position is an open position; and the second switch position is a closed position. 5. The switch system of claim 1 , wherein: the operating plunger comprises an alignment feature; and the heated actuator, when supplying the actuating force to the operating plunger, mates with the alignment feature. 6. The switch system of claim 1 , wherein the plunger is configured to provide thermal protection for the snap action switch from the heated actuator. 7. The switch system of claim 1 , wherein the switch comprises: a preload spring; and an electrically conductive leaf spring coupled to the preload spring and configured, responsive to movement of the plunger to snap between the first switch position and the second switch position. 8. The switch system of claim 7 , further comprising: a normally-open contact disposed to be electrically connected to the leaf spring when the heated actuator is supplying the actuating force to the plunger; a normally-closed contact spaced apart from the normally-open contact and disposed to be electrically connected to the leaf spring when the actuating force is removed from the plunger. 9. A switch system, comprising: a housing; a snap action switch disposed within the housing and configured to move, with snap-action, between a first switch position to a second switch position; an operating plunger extending through an opening in the housing and contacting the snap action switch, the operating plunger coupled to selectively receive an actuating force and configured, upon receipt of the actuating force, to move the snap action switch to and retain the snap action switch in the first switch position, the operating plunger further configured, upon removal of the actuating force, to allow the switch to move from the first switch position to the second switch position; and a heated actuator contacting the operating plunger and configured to selectively supply the actuating force to, and remove the actuating force from, the operating plunger, wherein the heated actuator is outside of the housing, wherein the operating plunger comprises a dielectric material having a thermal conductivity of less than or equal to 23 W/m-k and a dielectric strength of less than or equal to 15 kV/mm per ASTM-D149. 10. The switch system of claim 9 , wherein the dielectric material comprises a ceramic. 11. The switch system of claim 9 , wherein the dielectric material comprises thermoset phenolic. 12. The switch system of claim 9 , wherein: the first switch position is an open position; and the second switch position is a closed position. 13. The switch system of claim 9 , wherein: the operating plunger comprises an alignment feature; and the heated actuator, when supplying the actuating force to the operating plunger, mates with the alignment feature. 14. The switch system of claim 9 , wherein the switch comprises: a preload spring; and a leaf spring coupled to the preload spring and responsive to movement of the plunger to snap between the first switch position and the second switch position. 15. The switch system of claim 14 , further comprising: a normally-open contact disposed to be electrically connected to the leaf spring when the heated actuator is supplying the actuating force to the plunger; a normally-closed contact spaced apart from the normally-open contact and disposed to be electrically connected to the leaf spring when the actuating force is removed from the plunger. 16. A switch system, comprising: a snap action switch disposed within a housing and configured to move, with snap-action, between an open switch position to a closed switch position; an operating plunger extending through an opening in the housing and contacting the snap action switch, the operating plunger coupled to selectively receive an actuating force and configured, upon receipt of the actuating force, to move the snap action switch to and retain the snap action switch in the open switch position, the operating plunger further configured, upon removal of the actuating force, to allow the switch to move from the open switch position to the closed switch position; and a heated actuator contacting the operating plunger and configured to selectively supply the actuating force to, and remove the actuating force from, the operating plunger, wherein the operating plunger comprises a dielectric material having a thermal conductivity of less than or equal to 23 W/m-k and a dielectric strength of less than or equal to 15 kV/mm per ASTM-D149. 17. The switch system of claim 16 , wherein the dielectric material comprises a ceramic. 18. The switch system of claim 16 , wherein the dielectric material comprises a thermoset phenolic. 19. The switch system of claim 16 , wherein: the operating plunger comprises an alignment feature; and the heated actuator, when supplying the actuating force to the operating plunger, mates with the alignment feature. 20. The switch system of claim 16 , wherein the switch comprises: a preload spring; a leaf spring coupled to the preload spring and responsive to movement of the plunger to snap between the first switch position and the second switch position; a normally-open contact disposed to be electrically connected to the leaf spring when the heated actuator is supplying the actuating force to the plunger; a normally-closed contact spaced apart from the normally-open contact and disposed to be electrically connected to the leaf spring when the actuating force is removed from the plunger.