Shock mitigation assembly for a penetrating weapon

What is claimed is: 1. A shock mitigation assembly for an explosive weapon having an explosive charge, comprising: an electronic device having an electronic circuit that is connectable to an electro-explosive device to control detonation of the explosive charge; a weight attached to the electronic device to mitigate high frequency shock forces and to form an electronic subassembly that includes the electronic device and the weight; a housing enclosing the electronic subassembly, including the weight, within an enclosed volume; and a hyperelastic material between the housing and the electronic subassembly, where the hyperelastic material has a modulus of elasticity that maintains elastic characteristics in response to shock, temperature, or a combination of shock and temperature; where the housing includes a casing and a cover secured to the casing, the casing and the cover cooperating to define the enclosed volume, and the casing and the cover include corresponding features that mate with one another and prevent separation of the cover from the casing, and a hyperelastic material fills a gap between the cover and the casing. 2. The shock mitigation assembly as set forth in claim 1 , where the electronic device includes a circuit card assembly that includes an electronic circuit, and the weight is secured to the circuit card assembly. 3. The shock mitigation assembly as set forth in claim 1 , where a fuze, connectable to an explosive to initiate detonation in response to a signal from the electronic circuit, is mounted to the electronic device and incorporated into the electronic subassembly. 4. The shock mitigation assembly as set forth in claim 1 , where the weight is attached to the electronic device with one or more of an adhesive, a potting material, one or more screws, bolts, rivets, weld, or a combination thereof. 5. The shock mitigation assembly as set forth in claim 1 , where the corresponding features include facing threaded portions of the casing and the cover. 6. A shock mitigation assembly for an explosive weapon having an explosive charge, comprising: an electronic device having an electronic circuit that is connectable to an electro-explosive device to control detonation of the explosive charge; a weight attached to the electronic device to mitigate high frequency shock forces and to form an electronic subassembly that includes the electronic device and the weight; a housing enclosing the electronic subassembly, including the weight, within an enclosed volume; a hyperelastic material between the housing and the electronic subassembly, where the hyperelastic material has a modulus of elasticity that maintains elastic characteristics in response to shock, temperature, or a combination of shock and temperature; and a shock mitigation plate between the electronic subassembly and the cover; where the housing includes a casing and a cover secured to the casing, the casing and the cover cooperating to define the enclosed volume, and the casing and the cover include corresponding features that mate with one another and prevent separation of the cover from the casing, and a hyperelastic material fills a gap between the cover and the casing. 7. The shock mitigation assembly as set forth in claim 6 , where the shock mitigation plate includes a sheet of polyimide, epoxy fiberglass board, other shock dampening material, or combination thereof. 8. A penetrating weapon having an outer casing enclosing a primary explosive and a secondary explosive, and first and second fuzes coupled to respective ones of the primary explosive and the secondary explosive, and the shock mitigation assembly as set forth in claim 1 , where the electronic circuit is connected to the first and second fuzes to selectively control detonation of the primary and secondary explosives.