Compact integrated battery packs for hybrid vehicles

What is claimed is: 1. A compact integrated battery pack for a hybrid vehicle, the battery pack comprising: a housing; a plurality of battery cells disposed within the housing and configured to collectively output a primary voltage for powering an electric motor of the hybrid vehicle; a direct current (DC) to DC converter circuit disposed within the housing and configured to step-down the primary voltage to a secondary voltage for powering low voltage components of the hybrid vehicle; a control circuit disposed within the housing and configured to control (i) recharging of the plurality of battery cells, (ii) output of the primary voltage, and (iii) output of the secondary voltage; and an integrated cooling system disposed within the housing and configured to cool the battery pack. 2. The battery pack of claim 1 , wherein the DC to DC converter circuit and the control circuit are both implemented on a single common circuit board disposed within the housing. 3. The battery pack of claim 1 , wherein the cooling system comprises an air cooling system disposed within the housing and configured to utilize air from inside the hybrid vehicle to cool the battery pack. 4. The battery pack of claim 3 , wherein the hybrid vehicle is a sedan or coupe and the housing is sized and shaped to define dimensions corresponding to a space (i) in a trunk of the sedan or the coupe or (ii) beneath a floor of the trunk. 5. The battery pack of claim 4 , wherein the plurality of battery cells and the control circuit are arranged in a first component layer in the housing, and wherein the DC to DC converter and the air cooling system are arranged in a second distinct component layer within the housing that is proximate and parallel to the first component layer. 6. The battery pack of claim 3 , wherein the hybrid vehicle is a pickup truck and the housing is sized and shaped to define dimensions corresponding to a space (i) behind seats in a cab of the pickup truck or (ii) under the seats in the cab. 7. The battery pack of claim 6 , wherein the plurality of battery cells, the control circuit, the DC to DC converter, and the air cooling system are each arranged in a single component layer in the housing. 8. The battery pack of claim 1 , wherein the cooling system comprises a liquid cooling system disposed within the housing and configured to utilize a liquid coolant to cool the battery pack. 9. The battery pack of claim 8 , wherein the hybrid vehicle is a sport utility vehicle and the housing is sized and shaped to define dimensions corresponding to a space underneath the sport utility vehicle. 10. The battery pack of claim 9 , wherein the plurality of battery cells, the control circuit, the DC to DC converter, and the liquid cooling system are each arranged in a single component layer in the housing. 11. The battery pack of claim 9 , further comprising: one or more seals configured to prevent moisture from entering the housing such that the battery pack is positionable underneath the hybrid vehicle in an area exposable to water; and one or more cooling lines configured to provide the liquid coolant from an outside of the housing to the liquid cooling system. 12. The battery pack of claim 1 , wherein the DC to DC converter is further configured to boost the secondary voltage or another received secondary voltage to the primary voltage or another boosted primary voltage for at least one of (i) recharging the plurality of battery cells and (ii) powering the electric motor of the hybrid vehicle. 13. A mild hybrid vehicle, comprising: an engine configured to generate drive torque at a crankshaft; a belt-driven starter generator (BSG) unit comprising (i) an electric motor configured to provide drive torque to the crankshaft to start the engine and (ii) a battery pack configured to power the BSG unit, the battery pack comprising: a housing; a plurality of battery cells fully disposed within the housing, the plurality of battery cells configured to collectively generate a primary voltage for powering the electric motor; a single circuit board fully disposed within the housing and having disposed thereon both: a direct current to direct current (DC-DC) converter circuit configured to step-down the primary voltage to a secondary voltage for powering one or more low voltage components of the mild hybrid vehicle; and a control circuit configured to control the DC-DC converter circuit and the output, from the battery pack, of the primary voltage and the secondary voltage; and an integrated cooling system fully disposed within the housing, the cooling system being configured to cool the battery pack. 14. The mild hybrid vehicle of claim 13 , wherein the vehicle does not include an alternator. 15. The mild hybrid vehicle of claim 13 , wherein the primary voltage is approximately 48 volts and the secondary voltage is approximately 12 volts.