Reconfigurable vehicular battery enclosure components

What is claimed is: 1 . A modular automotive battery pack assembly comprising: a tray defining a mounting surface thereon to accept a plurality of prismatic batteries such that an elongate dimension defined by said mounting surface is possessive of a substantially constant cross section therealong; and a plurality of components cooperative with said tray such that upon at least one of direct or indirect attachment therebetween, a modular enclosure is defined about a substantial entirety of said batteries, said components comprising: a plurality of upstanding walls disposed about a substantial periphery of said tray; a plurality of brackets disposed along a portion of said mounting surface such that said brackets substantially fit within a volume defined by said walls and said tray, at least one of said brackets in cooperation with said tray such that attachment therebetween is invariant regardless of where along said elongate dimension said cooperation occurs; and a top cover disposed over said volume. 2 . The assembly of claim 1 , wherein said tray mounting surface defines a substantially planar profile along at least a majority of its length. 3 . The assembly of claim 1 , further comprising at least one support disposed against a lower surface of said tray. 4 . The assembly of claim 3 , wherein said at least one support comprises a plurality of supports spaced along said elongate dimension, each of said plurality of supports extending from one lateral edge of said tray to a substantially opposing lateral edge. 5 . The assembly of claim 1 , wherein at least one of said components defines a slidably mountable cooperation with said tray. 6 . The assembly of claim 1 , wherein at least one of said walls defines a plurality of apertures therein. 7 . The assembly of claim 1 , wherein said brackets comprise electrical equipment containment within said enclosure. 8 . The assembly of claim 7 , wherein said brackets are selected from the group consisting of a battery disconnect module bracket, a battery system monitor bracket and a manual service disconnect bracket. 9 . The assembly of claim 8 , wherein at least one of said manual service disconnect bracket and said battery system monitor bracket is configured such that it is rotatably mountable to said tray in more than one orientation. 10 . The assembly of claim 1 , wherein a stacking axis of at least a portion of said batteries is substantially parallel to an elongate dimension of said tray. 11 . The assembly of claim 1 , wherein a stacking axis of at least a portion of said batteries is substantially parallel to a widthwise dimension of said tray. 12 . The assembly of claim 1 , wherein a stacking axis of at least a portion of said batteries is substantially parallel to an elongate dimension of said tray while a stacking axis of at least another portion of said batteries is substantially parallel to a widthwise dimension of said tray. 13 . An automotive battery pack assembly comprising: a plurality of prismatic batteries aligned along a stacking axis; a plurality of modular components comprising: a tray defining a mounting surface thereon to accept said batteries, said mounting surface defining an elongate dimension and a widthwise dimension, said mounting surface defining a substantially a constant cross section along said elongate dimension; and a plurality of components cooperative with said tray such that upon at least one of direct or indirect attachment therebetween, a modular enclosure is defined about a substantial entirety of said batteries, said components comprising a plurality of upstanding walls disposed about a substantial periphery of said tray, a top cover disposed over said walls, and a plurality of brackets disposed along a portion of said mounting surface such that said brackets are in cooperation with said tray such that attachment therebetween is invariant regardless of where along said elongate dimension said cooperation occurs. 14 . The assembly of claim 13 , wherein said batteries are arranged in modules such that a number of at least of said brackets is the same as a corresponding number of said modules. 15 . The assembly of claim 13 , wherein said brackets are slidably movable along said elongate dimension of said mounting surface. 16 . The assembly of claim 13 , wherein a stacking axis of at least a portion of said batteries is substantially parallel to an elongate dimension of said tray while a stacking axis of at least another portion of said batteries is substantially parallel to a widthwise dimension of said tray. 17 . The assembly of claim 13 , further comprising a plurality of electrical equipment units contained within said enclosure, each of said units secured to a corresponding one of said brackets. 18 . A method of assembling an automotive battery pack, said method comprising: placing a plurality of prismatic batteries on a support surface such that said batteries are aligned along a stacking axis, said mounting surface defining a substantially constant cross section along said elongate dimension; and placing a plurality of components cooperative with said support surface such that upon at least one of direct or indirect attachment therebetween, a modular enclosure is defined about a substantial entirety of said batteries, at least one of said components comprising a plurality of brackets disposed along a portion of said mounting surface such that said brackets are in cooperation with said tray such that attachment therebetween is invariant regardless of where along said elongate dimension said cooperation occurs. 19 . The method of claim 18 , wherein at least one of said brackets is slidably disposed onto said support surface prior to fixed attachment therebetween. 20 . The method of claim 18 , wherein said attachment between said support surface and at least one of said components is selected from the group consisting of spot welding, laser welding, bonding, riveting, screwing or a combination thereof. 21 . The method of claim 18 , wherein all of said components are manufactured prior to said assembly by roll forming, perforation, low force flanging of a combination thereof.