Manual service disconnects for battery systems

What is claimed is: 1. A manual service disconnect for opening and closing a high current fused electrical path of a battery distribution unit used to switch and control operation of components of a battery system, the manual service disconnect comprising: a disconnect header discrete from and configured to be mounted proximate to a battery distribution unit of a battery pack of the battery system, the disconnect header comprising a housing defining a receptacle isolated from an interior of the battery distribution unit, a high current terminal connector within the receptacle, a high voltage interlock (HVIL) connector within the receptacle and a low current control device terminal connector within the receptacle, the low current control device terminal connector operating at a lower current than the high current terminal connector, the high current terminal connector, the HVIL connector and the low current control device terminal connector are electrically connected to the battery distribution unit; a disconnect plug removably coupled to the disconnect header by a lever rotatable between closed and open positions for a manual connection and disconnection process for servicing the battery system, the disconnect plug having a high current fuse electrically connected to the high current terminal connector and a HVIL shunt terminal electrically connected to the HVIL connector, respectively, the disconnect plug being removed to disconnect the high current fuse and the HVIL shunt terminal from the high current terminal connector and the HVIL connector, respectively; and a low current power control device received in the receptacle, the low current power control device being electrically connected to the low current control device terminal connector, the low current power control device being exposed within the receptacle of the disconnect header of the manual service disconnect for servicing when the disconnect plug of the manual service disconnect is removed from the disconnect header without directly accessing the battery distribution unit, the low current power control device being inaccessible when the disconnect plug is coupled to the disconnect header. 2. The manual service disconnect of claim 1 , wherein a space is defined in the receptacle between the HVIL connector and the high current terminal connector, the low current power control device being positioned in the space. 3. The manual service disconnect of claim 1 , wherein the housing includes an open top, the disconnect plug being plugged into the housing to close the open top, the low current power control device being covered by the disconnect plug. 4. The manual service disconnect of claim 1 , wherein the disconnect header includes a base configured to be mounted directly to the battery pack, and wherein the high current terminal connector, the high voltage interlock connector and the low current control device terminal connector extend into the battery pack through the base. 5. The manual service disconnect of claim 1 , wherein the disconnect header includes a base having a top and a bottom, the housing extending from the top, the bottom being configured to be mounted directly to the battery pack, and wherein the high current terminal connector, the HVIL connector and the low current control device terminal connector extend from the base below the bottom. 6. The manual service disconnect of claim 1 , wherein the low current power control device is configured to be disconnected from the low current control device terminal connector and removed from the disconnect header when the disconnect plug is removed from the disconnect header and after the HVIL shunt terminal and high current fuse are disconnected from the HVIL connector and the high current terminal connector, respectively. 7. The manual service disconnect of claim 1 , wherein the high current terminal connector includes a pair of high current terminals, the high current fuse includes a pair of contacts electrically connected to the high current terminals when the disconnect plug is coupled to the disconnect header, the high current fuse defining a fused electrical path between the contacts. 8. The manual service disconnect of claim 1 , wherein the HVIL connector includes a pair of HVIL terminals, the HVIL shunt terminal creating a shunt electrical path between the HVIL terminals when the disconnect plug is coupled to the disconnect header. 9. The manual service disconnect of claim 1 , wherein the low current control device terminal connector includes a pair of low current terminals, the low current power control device comprising a serviceable fuse, the serviceable fuse electrically connecting the low current terminals when the disconnect plug is coupled to the disconnect header, the serviceable fuse defining a fused electrical path between the low current terminals. 10. The manual service disconnect of claim 1 , further comprising a second low current control device terminal connector and a second low current power control device in the disconnect header, the HVIL connector being positioned between the low current power control device and the second low current power control device. 11. The manual service disconnect of claim 10 , wherein the disconnect plug includes a HVIL shroud surrounding the HVIL shunt terminal, the HVIL shroud being positioned between the low current power control device and the second low current power control device when the disconnect plug is coupled to the disconnect header. 12. The manual service disconnect of claim 1 , wherein the low current power control device comprises a relay received in the receptacle, the relay being exposed when the disconnect plug is removed from the disconnect header, the relay being inaccessible when the disconnect plug is coupled to the disconnect header. 13. A manual service disconnect for opening and closing a high current fused electrical path of a battery distribution unit used to switch and control operation of components of a battery system, the manual service disconnect comprising: a disconnect header discrete from and configured to be mounted proximate to a battery distribution unit of a battery pack of the battery system, the disconnect header comprising a housing defining a receptacle isolated from an interior of the battery distribution unit, a high current terminal connector within the receptacle, a high voltage interlock (HVIL) connector within the receptacle and a low current control device terminal connector within the receptacle, the low current control device terminal connector operating at a lower current than the high current terminal connector, the high current terminal connector, the HVIL connector and the low current control device terminal connector are electrically connected to the battery distribution unit; a disconnect plug removably coupled to the disconnect header by a lever rotatable between closed and open positions for a manual connection and disconnection process for servicing the battery system, the disconnect plug having a high current fuse electrically connected to the high current terminal connector when the disconnect plug is coupled to the disconnect header and unmated from the high current terminal connector when the disconnect plug is removed from the disconnect header, the high current fuse forming part of a high current circuit controlling power to the battery pack, the disconnect plug having a HVIL shunt terminal electrically connected to the HVIL connector when the disconnect plug is coupled to the disconnect header and unmated from the HVIL connector when the disconnect plug is removed from the disconnect header, the HVIL shunt terminal controlling power supply