Surge protection device

What is claimed is: 1. A circuit protection device comprising: a housing defining a chamber; a metal oxide varistor stack including at least three metal oxide varistors disposed within a single epoxy coating, the epoxy coated metal oxide varistors disposed within the chamber; a first conductive spring physically connected at a first end to a first input terminal of the metal oxide varistor stack by a first thermal disconnect and at a second end to a first input line, the first input terminal extending through the single epoxy coating and disposed so that the first conductive spring is in direct electrical contact with two of the at least three metal oxide varistors, wherein the first conductive spring is biased away from the first input terminal of the metal oxide varistor stack; a second conductive spring physically connected at a first end to a second input terminal of the metal oxide varistor stack by a second thermal disconnect and at a second end to a second input line, the second input terminal extending through the single epoxy coating and disposed so that the second conductive spring is in direct electrical contact with two of the at least three metal oxide varistors, wherein the second conductive spring is biased away from the second input terminal of the metal oxide varistor stack; and a rigid, electrically insulating member connecting the first conductive spring to the second conductive spring and limiting relative movement therebetween wherein when an overvoltage condition occurs, heat generated by the metal oxide varistor stack melts at least one of the first or second thermal disconnects to allow the corresponding first or second conductive springs to be displaced away from the first or second input terminals of the metal oxide varistor stack to define an open circuit. 2. The circuit protection device of claim 1 , wherein the metal oxide varistor stack comprises a plurality of metal oxide varistors in an electrically parallel connection. 3. The circuit protection device of claim 1 , wherein the metal oxide varistor stack comprises a plurality of metal oxide varistors in an electrically serial connection. 4. The circuit protection device of claim 1 , wherein at least one of the first and second thermal disconnects comprises a low temperature solder fillet. 5. The circuit protection device of claim 1 , wherein the housing comprises a bottom portion and a cover. 6. The circuit protection device of claim 5 , wherein the bottom portion is covered by, and matingly fits within, the cover. 7. The circuit protection device of claim 5 , wherein the bottom portion of the housing defines a cavity on a lower side thereof for receiving the input lines. 8. The circuit protection device of claim 7 , wherein the input lines extend from the cavity, through a floor of the bottom portion of the housing, and into the chamber. 9. The circuit protection device of claim 8 , wherein the cavity in the bottom portion of the housing is filled with potting material. 10. The circuit protection device of claim 9 , wherein the potting material comprises an epoxy. 11. The circuit protection device of claim 9 , wherein the potting material comprises a thermo-setting plastic. 12. The circuit protection device of claim 9 , wherein the potting material comprises a silicone rubber gel. 13. The circuit protection device of claim 1 , further comprising a first output line electrically connected to a first output terminal of the metal oxide varistor stack and a second output line electrically connected to a second output terminal of the metal oxide varistor stack. 14. The circuit protection device of claim 1 , further comprising at least one conductive protrusion extending from the metal oxide varistor stack and electrically connected to ground. 15. The circuit protection device of claim 1 , wherein the metal oxide varistor stack is coated with epoxy.