Multiple fuel cell secondary interconnect bonding pads and wires

I claim: 1 . A segmented-in-series solid oxide fuel cell system comprising: a first fuel cell tube comprising: a substrate having a first and a second end and a pair of generally planar opposing major surfaces extending between said ends; a plurality of fuel cells disposed on one of said major surfaces, said fuel cells being electrically coupled in series; a first electrical conductor providing an electrical path from a fuel cell disposed on one of said major surfaces proximate the first end of said substrate to a location on the other of said major surfaces proximate the first end of said substrate; a second fuel cell tube comprising: a substrate having a first and a second end and a pair of generally planar opposing major surfaces extending between said ends; a plurality of fuel cells disposed on one of said major surfaces, said fuel cells being electrically coupled in series; a first electrical conductor providing an electrical path from a fuel cell disposed on one of said major surfaces proximate the first end of said substrate to a location on the other of said major surfaces proximate the first end of said substrate; and a plurality of secondary interconnects providing an electrical path between said first and second fuel cell tubes, said first fuel cell tube being positioned with a major surface thereof spaced from and parallel to a major surface of said second fuel cell tube, said plurality of secondary interconnects being electrically coupled to said first electrical conductor of each of said first and second fuel cell tubes. 2 . The fuel cell system of claim 1 wherein said first and second fuel cell tubes each comprise a plurality of fuel cells disposed on the other of said major surfaces, said plurality of fuel cells being electrically coupled in series and wherein said fuel cell disposed proximate said first end of said substrate is electrically coupled to said first electrical conductor of said first fuel cell tube. 3 . The fuel cell system of claim 2 wherein said first and second fuel cell tubes each comprise a second electrical conductor providing an electrical path from a fuel cell disposed on one of said major surfaces proximate the second end of said substrate to fuel cell disposed on the other major surface proximate the second end of said substrate. 4 . The fuel cell system of claim 3 , wherein said plurality of fuel cells disposed on one of said major surfaces of said first fuel cell tube are electrically coupled in parallel with said plurality of fuel cells disposed on the other of said major surfaces by said first and second electrical conductors. 5 . The fuel cell system of claim 3 further comprising: a third fuel cell tube comprising: a substrate having a first and a second ends and a pair of generally planar opposing major surfaces extending between said ends; a plurality of fuel cells disposed on one of said major surfaces, said fuel cells being electrically coupled in series; a first electrical conductor providing an electrical path from a fuel cell disposed on one of said major surfaces proximate the first end of said substrate to a location on the other of said major surfaces proximate the first end of said substrate; and a second electrical conductor providing an electrical path from a fuel cell disposed on one of said major surfaces proximate the second end of said substrate to a location on the other of said major surfaces proximate the second end of said substrate; and a plurality of secondary interconnects each providing an electrical path between said second and third fuel cell tubes, said third fuel cell tube being positioned with a major surface thereof spaced from and parallel to a major surface of said second fuel cell tube, said plurality of secondary interconnects being electrically coupled to said second electrical conductors of each of said second and third fuel cell tubes. 6 . The fuel cell system of claim 1 wherein said first electrical conductor comprises a sheet conductor. 7 . The fuel cell system of claim 6 wherein said sheet conductor comprises a conductive ink trace. 8 . The fuel cell system of claim 1 wherein each of said first electrical conductors of said first and second fuel cell tubes comprise a portion extending axially along an edge of said respective substrates separating said major surfaces thereof, and wherein a plurality of bonding pads are positioned along each of said portions, each of secondary interconnects being electrically coupled to a bonding pad on each of said portions of said first electrical conductors. 9 . The fuel cell system of claim 1 wherein said first electrical conductors each comprise a sheet conductor. 10 . A fuel cell system comprising: a plurality of fuel cell tubes, each of said tubes comprising: a first end and a second end; a first surface and a second surface, each of said first and second surfaces extending continuously between said first and second ends; a plurality of fuel cells disposed on the first and second surfaces, wherein said fuels cells disposed on said first surface are electrically coupled in series to each other by one or more primary interconnects, and said fuel cells disposed on said second surface are electrically coupled in series to each other by one or more primary interconnects; a first sheet conductor electrically coupling the fuel cell disposed on the first surface proximate the first end to the fuel cells disposed on the second surface proximate the first end; a second sheet conductor electrically coupling the fuel cells disposed on the first surface proximate the second end to the fuel cell disposed on the second surface proximate the second end, wherein said first and second sheet conductors are arranged such that the fuel cells disposed on the first surface are electrically coupled in parallel with the fuel cells disposed on the second surface; a plurality of secondary interconnects each electrically coupling a first tube of said plurality to a second tube of said plurality, wherein said each of said secondary interconnects electrically contact the first sheet conductor of said first tube proximate to the first end of said first tube and the first sheet conductor of said second tube proximate to the first end of said second tube. 11 . The fuel cell system of claim 10 , wherein a first and second tubes of said plurality are electrically coupled to one another in series. 12 . The fuel cell system of claim 10 , wherein said first and second tubes are electrically coupled to one another in parallel. 13 . The fuel cell system of claim 10 , wherein each of said secondary interconnects comprise: a first wire electrically contacting a bonding pad positioned on said first sheet conductor of said first tube; and a second wire electrically contacting a bonding pad positioned on said first sheet conductor of said second tube, wherein said first wire is bonded to said second wire. 14 . A method of connecting fuel cells in a fuel cell system comprising a plurality of tubes having a first side and a second side, said first and second sides extending between a first end and a second end, a plurality of fuel cells deposited on said first side and said second side, and a sheet conductor wherein said fuel cells deposited on said first side are electrically coupled to said fuel cells deposited on said second side by said sheet conductor, the method comprising: electrically coupling a fuel cell deposited on a first tube of said plurality to a fuel cell deposited on a second tube of said plurality using a plurality of secondary interconnects each in electrical contact with t