Manual service disconnect for a battery system

What is claimed is: 1. A battery system comprising: a first plurality of batteries coupled to a power conditioning unit; a second plurality of batteries coupled to the power conditioning unit; and at least one manual service disconnect (MSD) configured to: prevent a cover from being removed from the battery system; and couple the first plurality of batteries with the second plurality of batteries to provide a voltage at the power conditioning unit. 2. The battery system of claim 1 , further comprising a socket configured to engage with the at least one MSD, wherein a first electrical terminal coupled to the first plurality of batteries is arranged in the socket, and wherein a second electrical terminal coupled to the second plurality of batteries is arranged in the socket. 3. The battery system of claim 2 , wherein the at least one MSD is a single body, and wherein the MSD has a single installed position with the socket. 4. The battery system of claim 1 , further comprising a housing to which the first plurality of batteries and the second plurality of batteries are coupled, wherein the cover is configured to engage with the housing. 5. The battery system of claim 1 , wherein the at least one MDS is further configured to be removed to: allow the cover to be removed; and decouple the first plurality of batteries from the second plurality of batteries to prevent the voltage at the power conditioning unit. 6. The battery system of claim 1 , wherein when the at least one MDS is removed: a maximum voltage that occurs within the battery system is about half of the voltage provided to the power conditioning unit when the at least one MSD is installed. 7. The battery system of claim 1 , further comprising two sockets, wherein: the at least one MSD comprises two MSDs; and when the two MSDs are installed, the cover cannot rotate relative to either of the two sockets. 8. A manual service disconnect (MSD) for a battery system comprising a first plurality of batteries and a second plurality of batteries coupled to a power conditioning unit, the MSD comprising: a body comprising electrical insulation; and a conductive path, wherein: when the MSD is installed, the body prevents a cover from being removed from the battery system, and the conductive path couples the first plurality of batteries to the second plurality of batteries; and when the MSD is removed, the cover is allowed to be removed from the battery system, and the first plurality of batteries and the second plurality of batteries do not provide voltage to the power conditioning unit. 9. The MSD of claim 8 , wherein: the conductive path is configured to engage with a first electrical terminal and a second electrical terminal of a socket; the first electrical terminal is coupled to the first plurality of batteries; and the second electrical terminal is coupled to the second plurality of batteries. 10. The MSD of claim 9 , wherein the MSD has a single installed position with the socket. 11. The MSD of claim 8 , wherein the MSD is a single body. 12. The MSD of claim 8 , wherein the body prevents the cover from being removed by blocking the cover. 13. The MSD of claim 8 , wherein: when installed, a first maximum voltage occurs in the battery system; and when removed, a second maximum voltage occurs that is about half of the first maximum voltage. 14. The MSD of claim 8 , wherein the conductive path comprises a sheet of metal. 15. A method of connecting a battery system, the method comprising: coupling a first plurality of batteries to a power conditioning unit with first interconnects; coupling a second plurality of batteries to the power conditioning unit with second interconnects; installing a cover configured to cover the first plurality of batteries and the second plurality of batteries; and installing at least one manual service disconnect (MSD) to prevent the cover from being removed, and to couple the first plurality of batteries with the second plurality of batteries to provide a voltage at the power conditioning unit. 16. The method of claim 15 , further comprising: removing the at least one MSD to allow the battery cover to be removed and to decouple the first plurality of batteries from the second plurality of batteries such that the first plurality of batteries and the second plurality of batteries do not provide the voltage to the power conditioning unit. 17. The method of claim 16 , wherein: when the at least one MDS is removed, a maximum voltage that occurs within the battery system is about half of the voltage provided to the power conditioning unit when the at least one MSD is installed. 18. The method of claim 15 , wherein: installing the at least one MSD comprises engaging the at least one MSD with a socket; a first electrical terminal is coupled to the first plurality of batteries and is arranged in the socket; and a second electrical terminal is coupled to the second plurality of batteries and is arranged in the socket. 19. The method of claim 18 , wherein the at least one MSD is a single body, and wherein the MSD has a single installed position with the socket. 20. The method of claim 15 , wherein installing the cover comprises engaging the cover to a housing to which the first plurality of batteries and the second plurality of batteries are coupled.