Electrified military vehicle

The invention claimed is: 1. A military vehicle comprising: a chassis including: a passenger capsule including a rear wall; and a rear module coupled to the passenger capsule, the rear module including: a rear subframe assembly; a left rear wheel well; a right rear wheel well; and a bed; an engine coupled to the chassis for providing mechanical power to the military vehicle; a motor/generator coupled to the engine; and an energy storage system including: a lower support coupled to the bed between the left rear wheel well and the right rear wheel well; a lower isolator mount coupled to the lower support; a battery electrically coupled to the motor/generator, the battery coupled to the lower isolation mount such that the weight of the battery is supported by the lower isolator mount, the lower support, the bed, and the rear subframe; a bracket coupled to the battery; and an upper isolator mount coupling the bracket to the rear wall of the passenger capsule. 2. The military vehicle of claim 1 , wherein the battery defines an energy storage capacity of at least 30.6 kWh with an operating characteristic of 666 V nominal voltage and a 406 kW discharge power. 3. The military vehicle of claim 1 , wherein the energy storage system includes: an inverter electrically coupled to the battery, the inverter disposed in a first stowage compartment of the rear module positioned above one of the left rear wheel well or the right rear wheel well; a DC/DC converter electrically coupled to the battery, the DC/DC converter disposed in a second stowage compartment of the rear module positioned above the other of the left rear wheel well or the right rear wheel well; and a charging port positioned at or proximate a rear of the rear module above one of the left rear wheel well or the right rear wheel well. 4. The military vehicle of claim 1 , wherein the military vehicle is operable in a silent mobility mode with the engine inactive and the energy storage system providing power to the motor/generator to operate the military vehicle, wherein the silent mobility mode includes at least one of an idle use case, a fuel economy use case, or a low speed use case, wherein the battery is sized to operate the silent mobility mode in the idle use case for at least ninety minutes, wherein the battery is sized to propel the vehicle for at least twenty miles in the fuel economy use case, and wherein the battery is sized to propel the vehicle at a predetermined speed for at least forty minutes in the low speed mode use case. 5. The military vehicle of claim 1 , wherein the motor/generator includes a front end accessory drive configured to output mechanical power to an accessory, and a second motor/generator configured to be positioned between the engine and a transmission and to output power to a tractive element. 6. The military vehicle of claim 1 , wherein the energy storage system includes a protective plate positioned to protect the battery within the bed from hostile fragments, blasts, or projectiles. 7. The military vehicle of claim 1 , wherein the energy storage system includes: a battery storage housing; a power connector supported by the battery storage housing and providing power communication between the energy storage system and the motor/generator; and a data connector supported by the battery storage housing and providing data communication between the energy storage system and the motor/generator; wherein the battery includes a plurality of batteries, each of the plurality of batteries including a plurality of cells; and wherein the battery is supported by the battery storage housing. 8. The military vehicle of claim 1 , wherein the upper isolator mount includes a single upper isolator mount generally centered with respect to the bracket. 9. The military vehicle of claim 1 , wherein the upper isolator mount provides front-to-back vibration isolation of the battery relative to the passenger capsule. 10. The military vehicle of claim 1 , wherein the upper isolator mount includes a spring damper shock system coupled between the bracket and the rear wall. 11. The military vehicle of claim 1 , wherein the lower isolator mount includes two or more lower isolator mounts comprising a vibration attenuating material. 12. The military vehicle of claim 1 , wherein the lower support includes a plurality of legs coupled to the bed to space the lower isolator mount from the bed. 13. The military vehicle of claim 1 , wherein the lower support defines a recess sized to receive the lower isolator mount. 14. The military vehicle of claim 1 , wherein the upper isolator mount and the lower isolator mount maintain the bracket in position relative to the passenger capsule and the rear module. 15. The military vehicle of claim 1 , wherein the battery is centered between the left rear wheel well and the right rear wheel well. 16. A military vehicle comprising: a chassis including: a passenger capsule including a rear wall; and a rear module coupled to the passenger capsule, the rear module including: a rear subframe assembly; a left rear wheel well; a right rear wheel well; and a bed; an engine coupled to the chassis; a motor/generator coupled to the engine; and an energy storage system including: a lower support coupled to the bed; a lower isolator mount coupled to the lower support and formed of a vibration attenuating material; a battery electrically coupled to the motor/generator, the battery coupled to the lower isolation mount such that the weight of the battery is supported by the lower isolator mount, the lower support, the bed, and the rear subframe between the left rear wheel well and the right rear wheel well; a bracket coupled to the battery; a single upper isolator mount coupling the bracket to the rear wall of the passenger capsule to provide front-to-back vibration isolation of the battery relative to the passenger capsule; and a protective plate positioned to protect the battery within the bed. 17. The military vehicle of claim 16 , wherein the energy storage system includes: an inverter electrically coupled to the battery and positioned in a first stowage compartment of the rear module; a DC/DC converter electrically coupled to the battery and positioned in a second stowage compartment of the rear module; a charge controller configured to control the flow of electrical energy into the battery using a charge profile; a battery storage housing; a power connector supported by the battery storage housing and providing power communication between the energy storage system and the motor/generator; and a data connector supported by the battery storage housing and providing data communication between the energy storage system and the motor/generator, wherein the battery is supported by the battery storage housing; and wherein the battery includes a plurality of batteries, each of the plurality of batteries including a plurality of cells. 18. The military vehicle of claim 16 , wherein the lower support includes a plurality of legs coupled to the bed to space the lower isolator mount from the bed and defines two or more recesses, wherein the lower isolator mount includes two or more lower isolator mounts received within the two or more recesses of the lower support, and wherein the upper isolator mount provides front-to-back vibration isolation of the battery relative to the passenger capsule and includes a spring damper shock system coupled between the bracket and the rear wall. 19. A military vehicle co