최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0195476 (2011-08-01) |
등록번호 | US-9036319 (2015-05-19) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 1 인용 특허 : 768 |
Circuit arrangement embodiments that use relative groupings of energy pathways that include shielding circuit arrangements that can sustain and condition electrically complementary energy confluences.
1. A method for making a conductive pathway arrangement, comprising: electrically isolating an upper pathway, a center pathway and a lower pathway from a first pathway and a second pathway;separating by a first horizontal distance a first and a second perimeter edge portion of a bottom surface area
1. A method for making a conductive pathway arrangement, comprising: electrically isolating an upper pathway, a center pathway and a lower pathway from a first pathway and a second pathway;separating by a first horizontal distance a first and a second perimeter edge portion of a bottom surface area of a superposed first pathway shielded area of a first pathway shielded area of said first pathway;separating by a second horizontal distance a first and a second perimeter edge portion of a top surface area of a superposed second pathway shielded area of a second pathway shielded area of said second pathway;electrically coupling an upper pathway shielding area that is larger in size than either said superposed first pathway shielded area or said superposed second pathway shielded area to a center pathway shielding area that is larger in size than either said superposed first pathway shielded area or said superposed second pathway shielded area;electrically coupling said center pathway shielding area to a lower pathway shielding area that is larger in size than either said superposed first pathway shielded area or said superposed second pathway shielded area; andsuperposing with one another a top surface area of said superposed first pathway shielded area, said bottom surface area of said superposed first pathway shielded area, said top surface area of said superposed second pathway shielded area and a bottom surface area of said superposed second pathway shielded area. 2. An arrangement for energy conditioning, comprising: an upper electrode comprising an upper electrode surface area that includes an upper electrode shielding area;a first electrode comprising a first electrode surface area that includes a superposed first electrode area and a non-superposed first electrode area;a center electrode comprising a center electrode surface area that includes a center electrode shielding area;a second electrode comprising a second electrode surface area that includes a superposed second electrode area and a non-superposed second electrode area;a lower electrode comprising a lower electrode surface area that includes a lower electrode shielding area;wherein said upper electrode, said center electrode and said lower electrode are electrically isolated from said first electrode and said second electrode, and wherein said first electrode and said second electrode are electrically isolated from each other;wherein the bottom of said upper electrode shielding area is electrically coupled to the top of said center electrode shielding area, and wherein the bottom of said center electrode shielding area is electrically coupled to the top of said lower electrode shielding area;wherein said superposed first electrode area and said superposed second electrode area are each smaller than said upper electrode shielding area;wherein said superposed first electrode area and said superposed second electrode area are each smaller than said center electrode shielding area;wherein said superposed first electrode area and said superposed second electrode area are each smaller than said lower electrode shielding area;wherein said superposed first electrode area is underneath said bottom of said upper electrode shielding area, and wherein said superposed first electrode area is over said top of said center electrode shielding area, and wherein said superposed second electrode area is underneath said bottom of said center electrode shielding area, and wherein said superposed second electrode area is over said top of said lower electrode shielding area;wherein said superposed first electrode area is shielded between said bottom of said upper electrode shielding area and said top of said center electrode shielding area, and wherein said superposed second electrode area is shielded between said bottom of said center electrode shielding area and said top of said lower electrode shielding area, and wherein said superposed first electrode area and said superposed second electrode area are shielded from one another by at least said center electrode shielding area;wherein said upper electrode shielding area further comprises a top superposed surface area and a bottom superposed surface area that together form a shielding, superposed upper electrode area section;wherein said center electrode shielding area further comprises a top superposed surface area and a bottom superposed surface area that together form a shielding, superposed center electrode area section;wherein said lower electrode shielding area further comprises a top superposed surface area and a bottom superposed surface area that together form a shielding, superposed lower electrode area section;wherein said superposed first electrode area further comprises a top first shielded surface area and a bottom first shielded surface area, and wherein said top first shielded surface area includes a first perimeter edge portion and a second perimeter edge portion that are parallel to one another and spaced apart from one another, and wherein said bottom first shielded surface area includes a first perimeter edge portion and a second perimeter edge portion that are parallel to one another and spaced apart from one another;wherein said superposed second electrode area further comprises a top second shielded surface area and a bottom second shielded surface area, and wherein said top second shielded surface area includes a first perimeter edge portion and a second perimeter edge portion that are parallel to one another and spaced apart from one another, and wherein said bottom second shielded surface area includes a first perimeter edge portion and a second perimeter edge portion that are parallel to one another and spaced apart from one another;wherein said first perimeter edge portion of said top first shielded surface area is longer than the distance between said first perimeter edge portion of said top first shielded surface area and said second perimeter edge portion of said top first shielded surface area;wherein said top first shielded surface area, said bottom first shielded surface area, said top second shielded surface area, and said bottom second shielded surface area are arranged superposed with one another; andwherein said shielding, superposed upper electrode area section, said top first shielded surface area, said bottom first shielded surface area, said shielding, superposed center electrode area section, said top second shielded surface area, said bottom second shielded surface area and said shielding, superposed lower electrode area section are superposed with one another. 3. The arrangement for energy conditioning of claim 2, wherein said non-superposed first electrode area comprises at least a shielded, non-superposed area; wherein said non-superposed second electrode area comprises at least a shielded, non-superposed area;wherein non-superposed first electrode area and said non-superposed second electrode area are not arranged superposed with one another; andwherein said first electrode is a first bypass electrode, and wherein said second electrode is a second bypass electrode. 4. The arrangement for energy conditioning of claim 3, wherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said upper electrode shielding area; wherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said center electrode shielding area; andwherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said lower electrode shielding area. 5. The arrangement for energy conditioning of claim 4, further comprising: an integrated circuit die;wherein said first electrode is electrically coupled to said integrated circuit die; andwherein said second electrode is electrically coupled to said integrated circuit die. 6. The arrangement for energy conditioning of claim 2, further comprising: a substrate, and wherein said substrate comprises a substrate top surface area and a substrate bottom surface area that are superposed with one another;wherein said bottom of said upper electrode shielding area is spaced a first distance from said top first shielded surface area, and wherein said bottom first shielded surface area is spaced said first distance from said top of said center electrode shielding area, and wherein said bottom of said center electrode shielding area is spaced said first distance from said top second shielded surface area; andwherein said bottom second shielded surface area is spaced said first distance from said top of said lower electrode shielding area;wherein said second perimeter edge portion of said top first shielded surface area, said second perimeter edge portion of said bottom first shielded surface area, said second perimeter edge portion of said top second shielded surface area and said second perimeter edge portion of said bottom second shielded surface area are superposed with one another; andwherein said shielding, superposed upper electrode area section, said top first shielded surface area, said bottom first shielded surface area, said shielding, superposed center electrode area section, said top second shielded surface area, said bottom second shielded surface area and said shielding, superposed lower electrode area section are all located between said substrate top surface area and said substrate bottom surface area. 7. The arrangement for energy conditioning of claim 6, further comprising: an integrated circuit die;wherein said integrated circuit die is attached to said substrate;wherein said first electrode is electrically coupled to said integrated circuit die; andwherein said second electrode is electrically coupled to said integrated circuit die. 8. The arrangement for energy conditioning of claim 7, wherein said first electrode is a first feed-through electrode, and wherein said second electrode is a second feed-through electrode. 9. The arrangement for energy conditioning of claim 2, wherein said bottom of said upper electrode shielding area is spaced a first distance from said top first shielded surface area; wherein said bottom first shielded surface area is spaced said first distance from said top of said center electrode shielding area;wherein said bottom of said center electrode shielding area is spaced said first distance from said top second shielded surface area; andwherein said bottom second shielded surface area is spaced said first distance from said top of said lower electrode shielding area. 10. An integrated circuit die comprising the arrangement for energy conditioning of claim 9. 11. The arrangement for energy conditioning of claim 9, further comprising: an integrated circuit die;wherein said first electrode is a first feed-through electrode;wherein said second electrode is a second feed-through electrode;wherein said first feed-through electrode is electrically coupled to said integrated circuit die; andwherein said second feed-through electrode is electrically coupled to said integrated circuit die. 12. The arrangement for energy conditioning of claim 2, further comprising: a support material;a first layer of said support material comprising a first layer section having a first thickness, and wherein said first layer section includes a top first section surface area and a bottom first section surface area that are superposed with one another;a second layer of said support material comprising a second layer section having said first thickness, and wherein said second layer section includes a top second section surface area and a bottom second section surface area that are superposed with one another;a third layer of said support material comprising a third layer section having said first thickness, and wherein said third layer section includes a top third section surface area and a bottom third section surface area that are superposed with one another;a fourth layer of said support material comprising a fourth layer section having said first thickness, and wherein said fourth layer section includes a top fourth section surface area and a bottom fourth section surface area that are superposed with one another;wherein said bottom superposed surface area of said shielding, superposed upper electrode area section is spaced apart from said top first shielded surface area by said first layer section;wherein said bottom first shielded surface area is spaced apart from said top superposed surface area of said shielding, superposed center electrode area section by said second layer section;wherein said bottom superposed surface area of said shielding, superposed center electrode area section is spaced apart from said top second shielded surface area by said third layer section;wherein said bottom second shielded surface area is spaced apart from said top superposed surface area of said shielding, superposed lower electrode area section by said fourth layer section; andwherein said shielding, superposed upper electrode area section, said first layer section, said top first shielded surface area, said bottom first shielded surface area, said second layer section, said shielding, superposed center electrode area section, said third layer section, said top second shielded surface area, said bottom second shielded surface area, said fourth layer section and said shielding, superposed lower electrode area section are superposed with one another. 13. The arrangement for energy conditioning of claim 12, wherein said first electrode is a first feed-through electrode, and wherein said second electrode is a second feed-through electrode. 14. The arrangement for energy conditioning of claim 13, wherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said upper electrode shielding area; wherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said center electrode shielding area; andwherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said lower electrode shielding area. 15. The arrangement for energy conditioning of claim 2, further comprising: a dielectric material;a first layer of said dielectric material comprising a first layer section having a first thickness, and wherein said first layer section includes a top first section surface area and a bottom first section surface area that are superposed with one another;a second layer of said dielectric material comprising a second layer section having said first thickness, and wherein said second layer section includes a top second section surface area and a bottom second section surface area that are superposed with one another;a third layer of said dielectric material comprising a third layer section having said first thickness, and wherein said third layer section includes a top third section surface area and a bottom third section surface area that are superposed with one another;a fourth layer of said dielectric material comprising a fourth layer section having said first thickness, and wherein said fourth layer section includes a top fourth section surface area and a bottom fourth section surface area that are superposed with one another;wherein said bottom superposed surface area of said shielding, superposed upper electrode area section is spaced apart from said top first shielded surface area by said first layer section;wherein said bottom first shielded surface area is spaced apart from said top superposed surface area of said shielding, superposed center electrode area section by said second layer section;wherein said bottom superposed surface area of said shielding, superposed center electrode area section is spaced apart from said top second shielded surface area by said third layer section;wherein said bottom second shielded surface area is spaced apart from said top superposed surface area of said shielding, superposed lower electrode area by said fourth layer section; andwherein said shielding, superposed upper electrode area section, said first layer section, said top first shielded surface area, said bottom first shielded surface area, said second layer section, said shielding, superposed center electrode area section, said third layer section, said top second shielded surface area, said bottom second shielded surface area, said fourth layer section and said shielding, superposed lower electrode area section are superposed with one another. 16. The arrangement for energy conditioning of claim 15, further comprising: a substrate, and wherein said substrate comprises a substrate top surface area and a substrate bottom surface area that are superposed with one another; andwherein said shielding, superposed upper electrode area section, said first layer section, said top first shielded surface area, said bottom first shielded surface area, said second layer section, said shielding, superposed center electrode area section, said third layer section, said top second shielded surface area, said bottom second shielded surface area, said fourth layer section and said shielding, superposed lower electrode area section are located between said substrate top surface area and said substrate bottom surface area. 17. The arrangement for energy conditioning of claim 16, further comprising: an integrated circuit die;wherein said integrated circuit die is attached to said substrate;wherein said first electrode is electrically coupled to said integrated circuit die; andwherein said second electrode is electrically coupled to said integrated circuit die. 18. The arrangement for energy conditioning of claim 17, wherein said shielding, superposed upper electrode area section, said first layer section, said top first shielded surface area, said bottom first shielded surface area, said second layer section, said shielding, superposed center electrode area section, said third layer section, said top second shielded surface area, said bottom second shielded surface area, said fourth layer section and said shielding, superposed lower electrode area section together form a three-dimensional section that is operable for energy conditioning when said integrated circuit die is energized. 19. The arrangement for energy conditioning of claim 2, wherein said bottom of said upper electrode shielding area is spaced a first distance from said top first shielded surface area; wherein said bottom first shielded surface area is spaced said first distance from said top of said center electrode shielding area;wherein said bottom of said center electrode shielding area is spaced said first distance from said top second shielded surface area; andwherein said bottom second shielded surface area is spaced said first distance from said top of said lower electrode shielding area. 20. The arrangement for energy conditioning of claim 19, further comprising: an integrated circuit die;wherein said first electrode is electrically coupled to said integrated circuit die; andwherein said second electrode is electrically coupled to said integrated circuit die. 21. The arrangement for energy conditioning of claim 20, further comprising: a substrate, and wherein said substrate comprises a substrate top surface area and a substrate bottom surface area that are superposed with one another;wherein said shielding, superposed upper electrode area section, said top first shielded surface area, said bottom first shielded surface area, said shielding, superposed center electrode area section, said top second shielded surface area, said bottom second shielded surface area and said shielding, superposed lower electrode area section are arranged between said substrate top surface area and said substrate bottom surface area; andwherein said integrated circuit die is attached to said top substrate surface area. 22. The arrangement for energy conditioning of claim 21, wherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said upper electrode shielding area; wherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said center electrode shielding area; andwherein said non-superposed first electrode area and said non-superposed second electrode area are each smaller than said lower electrode shielding area. 23. The arrangement for energy conditioning of claim 22, wherein said first electrode is operable as a first feed-through electrode when said integrated circuit die is energized; and wherein said second electrode is operable as a second feed-through electrode when said integrated circuit die is energized. 24. The arrangement for energy conditioning of claim 23, wherein said shielding, superposed upper electrode area section, said top first shielded surface area, said bottom first shielded surface area, said shielding, superposed center electrode area section, said top second shielded surface area, said bottom second shielded surface area and said shielding, superposed lower electrode area section together form a three-dimensional energy conditioning section; and wherein said three-dimensional energy conditioning section is operable for conditioning energy propagating within said three-dimensional energy conditioning section when said integrated circuit die is energized. 25. An arrangement for energy conditioning, comprising: an upper energy pathway comprising an upper pathway surface area that includes a top upper pathway surface area and a bottom upper pathway surface area, and wherein said top upper pathway surface area and said bottom upper pathway surface area are superposed with one another;a center energy pathway comprising a center pathway surface area that includes a top center pathway surface area and a bottom center pathway surface area, and wherein said top center pathway surface area and said bottom center pathway surface area are superposed with one another;a lower energy pathway comprising a lower pathway surface area that includes a top lower pathway surface area and a bottom lower pathway surface area, and wherein said top lower pathway surface area and said bottom lower pathway surface area are superposed with one another;wherein said bottom upper pathway surface area is electrically coupled to said top center pathway surface area, and wherein said bottom center pathway surface area is electrically coupled to said top lower pathway surface area;a first feed-through energy pathway comprising a first pathway surface area;a second feed-through energy pathway comprising a second pathway surface area;a third feed-through energy pathway comprising a third pathway surface area;a fourth feed-through energy pathway comprising a fourth pathway surface area;wherein said upper energy pathway, said center energy pathway and said lower energy pathway are each electrically isolated from said first feed-through energy pathway, said second feed-through energy pathway, said third feed-through energy pathway and said fourth feed-through energy pathway;wherein said first feed-through energy pathway, said second feed-through energy pathway, said third feed-through energy pathway and said fourth feed-through energy pathway are electrically isolated from each other;wherein said first pathway surface area comprises a shielded, superposed first pathway surface area, and wherein said shielded, superposed first pathway surface area is underneath said upper pathway surface area, and wherein said shielded, superposed first pathway surface area is over said center pathway surface area;wherein said second pathway surface area comprises a shielded, superposed second pathway surface area, and wherein said shielded, superposed second pathway surface area is underneath said upper pathway surface area, and wherein said shielded, superposed second pathway surface area is over said center pathway surface area;wherein said third pathway surface area comprises a shielded, superposed third pathway surface area, and wherein said shielded, superposed third pathway surface area is underneath said center pathway surface area, and wherein said shielded, superposed third pathway surface area is over said lower pathway surface area;wherein said fourth pathway surface area comprises a shielded, superposed fourth pathway surface area, and wherein said shielded, superposed fourth pathway surface area is underneath said center pathway surface area, and wherein said shielded, superposed fourth pathway surface area is over said lower pathway surface area;wherein said shielded, superposed first pathway surface area, said shielded, superposed second pathway surface area, said shielded, superposed third pathway surface area and said shielded, superposed fourth pathway surface area are each smaller than said upper pathway surface area;wherein said shielded, superposed first pathway surface area, said shielded, superposed second pathway surface area, said shielded, superposed third pathway surface area and said shielded, superposed fourth pathway surface area are each smaller than said center pathway surface area;wherein said shielded, superposed first pathway surface area, said shielded, superposed second pathway surface area, said shielded, superposed third pathway surface area and said shielded, superposed fourth pathway surface area are each smaller than said lower pathway surface area;wherein said shielded, superposed first pathway surface area and said shielded, superposed third pathway surface area are physically shielded from one another by said center pathway surface area;wherein said shielded, superposed second pathway surface area and said shielded, superposed fourth pathway surface area are physically shielded from one another by said center pathway surface area;wherein said shielded, superposed first pathway surface area and said shielded, superposed fourth pathway surface area are physically shielded from one another by said center pathway surface area;wherein said shielded, superposed first pathway surface area includes a top first area and a bottom first area, and wherein said top first area comprises a top first area first perimeter edge portion and a top first area second perimeter edge portion that are parallel to one another and spaced apart from one another, and wherein said bottom first area includes a bottom first area first perimeter edge portion and a bottom first area second perimeter edge portion that are parallel to one another and spaced apart from one another;wherein said shielded, superposed second pathway surface area includes a top second area and a bottom second area, and wherein said top second area comprises a top second area first perimeter edge portion and a top second area second perimeter edge portion that are parallel to one another and spaced apart from one another, and wherein said bottom second area includes a bottom second area first perimeter edge portion and a bottom second area second perimeter edge portion that are parallel to one another and spaced apart from one another;wherein said shielded, superposed third pathway surface area includes a top third area and a bottom third area, and wherein said top third area comprises a top third area first perimeter edge portion and a top third area second perimeter edge portion that are parallel to one another and spaced apart from one another, and wherein said bottom third area includes a bottom third area first perimeter edge portion and a bottom third area second perimeter edge portion that are parallel to one another and spaced apart from one another;wherein said shielded, superposed fourth pathway surface area includes a top fourth area and a bottom fourth area, and wherein said top fourth area comprises a top fourth area first perimeter edge portion and a top fourth area second perimeter edge portion that are parallel to one another and spaced apart from one another, and wherein said bottom fourth area includes a bottom fourth area first perimeter edge portion and a bottom fourth area second perimeter edge portion that are parallel to one another and spaced apart from one another;wherein said bottom upper pathway surface area is spaced a first distance from said top first area, and wherein said bottom first area is spaced said first distance from said top center pathway surface area, and wherein said bottom center pathway surface area is spaced said first distance from said top third area, and wherein said bottom third area is spaced said first distance from said top lower pathway surface area;wherein said top first area and said top second area are co-planar, and wherein said bottom first area and said bottom second area are co-planar;wherein said top third area and said top fourth area are co-planar, and wherein said bottom third area and said bottom fourth area are co-planar;wherein said top first area, said bottom first area, said top third area and said bottom third area are arranged superposed with one another; andwherein said top second area, said bottom second area, said top fourth area and said bottom fourth area are arranged superposed with one another. 26. The arrangement for energy conditioning of claim 25, further comprising: a substrate;a second upper energy pathway comprising a second upper pathway surface area that includes a top second upper pathway surface area and a bottom second upper pathway surface area, and wherein said top second upper pathway surface area and said bottom second upper pathway surface area are superposed with one another;a second center energy pathway comprising a second center pathway surface area that includes a top second center pathway surface area and a bottom second center pathway surface area, and wherein said top second center pathway surface area and said bottom second center pathway surface area are superposed with one another;a second lower energy pathway comprising a second lower pathway surface area that includes a top second lower pathway surface area and a bottom second lower pathway surface area, and wherein said top second lower pathway surface area and said bottom second lower pathway surface area are superposed with one another;wherein said bottom second upper pathway surface area is electrically coupled to said top second center pathway surface area, and wherein said bottom second center pathway surface area is electrically coupled to said top second lower pathway surface area;wherein said second upper energy pathway, said second center energy pathway and said second lower energy pathway are each electrically isolated from said first feed-through energy pathway, said second feed-through energy pathway, said third feed-through energy pathway and said fourth feed-through energy pathway; andwherein said lower energy pathway is electrically coupled to said second upper energy pathway. 27. The arrangement for energy conditioning of claim 26, further comprising: an integrated circuit die; andwherein said integrated circuit die is coupled to said substrate. 28. The arrangement for energy conditioning of claim 27, wherein said first feed-through energy pathway is electrically coupled to said integrated circuit die; wherein said second feed-through energy pathway is electrically coupled to said integrated circuit die;wherein said third feed-through energy pathway is electrically coupled to said integrated circuit die; andwherein said fourth feed-through energy pathway is electrically coupled to said integrated circuit die. 29. The arrangement for energy conditioning of claim 28, wherein said substrate further comprises a substrate top surface area and a substrate bottom surface area that together are superposed with one another; and wherein said top first area, said bottom first area, said top second area, said bottom second area, said top third area, said bottom third area, said top fourth area and said bottom fourth area are located between said substrate top surface area and said substrate bottom surface area. 30. The arrangement for energy conditioning of claim 29, wherein said bottom first area first perimeter edge portion is longer than the distance between said top first area first perimeter edge portion and said top first area second perimeter edge portion; wherein said bottom second area first perimeter edge portion is longer than the distance between said top second area first perimeter edge portion and said top second area second perimeter edge portion;wherein said top first area first perimeter edge portion is approximately the same length as said top first area second perimeter edge portion;wherein said bottom first area first perimeter edge portion is approximately the same length as said bottom first area second perimeter edge portion;wherein said top second area first perimeter edge portion is approximately the same length as said top second area second perimeter edge portion; andwherein said bottom second area first perimeter edge portion is approximately the same length as said bottom second area second perimeter edge portion. 31. The arrangement for energy conditioning of claim 25, wherein said top first area second perimeter edge portion, said bottom first area second perimeter edge portion, said top third area second perimeter edge portion and said bottom third area second perimeter edge portion are superposed with one another; wherein said top second area second perimeter edge portion, said bottom second area second perimeter edge portion, said top fourth area second perimeter edge portion and said bottom fourth area second perimeter edge portion are superposed with one another;wherein said bottom first area first perimeter edge portion is longer than the distance between said top first area first perimeter edge portion and said top first area second perimeter edge portion;wherein said bottom second area first perimeter edge portion is longer than the distance between said top second area first perimeter edge portion and said top second area second perimeter edge portion;wherein said top first area first perimeter edge portion is approximately the same length as said top first area second perimeter edge portion;wherein said bottom first area first perimeter edge portion is approximately the same length as said bottom first area second perimeter edge portion;wherein said top second area first perimeter edge portion is approximately the same length as said top second area second perimeter edge portion; andwherein said bottom second area first perimeter edge portion is approximately the same length as said bottom second area second perimeter edge portion. 32. An integrated circuit die comprising the arrangement for energy conditioning of claim 31. 33. The arrangement for energy conditioning of claim 31, further comprising: a substrate, and wherein said substrate includes a substrate top surface area and a substrate bottom surface area that are superposed with one another;an integrated circuit die;wherein said integrated circuit die is coupled to said substrate top surface area; andwherein said top first area, said bottom first area, said top second area, said bottom second area, said top third area, said bottom third area, said top fourth area and said bottom fourth area are located between said substrate top surface area and said substrate bottom surface area. 34. The arrangement for energy conditioning of claim 33, wherein said first feed-through energy pathway is electrically coupled to said integrated circuit die. 35. The arrangement for energy conditioning of claim 34, wherein said substrate bottom surface area of said substrate is coupled to a PC board. 36. The arrangement for energy conditioning of claim 33, wherein said first feed-through energy pathway is electrically coupled to said integrated circuit die; wherein said second feed-through energy pathway is electrically coupled to said integrated circuit die;wherein said third feed-through energy pathway is electrically coupled to said integrated circuit die; andwherein said fourth feed-through energy pathway is electrically coupled to said integrated circuit die. 37. A microprocessor package comprising the arrangement for energy conditioning of claim 36. 38. A conductor arrangement comprising: A) a first group of four conductors, wherein each conductor in the first group includes a shielded conductor bottom left edge, a shielded conductor bottom right edge and a bottom main-body conductive area, and wherein the bottom main-body conductive area of each conductor in the first group comprises (1) a left edge portion of the respective shielded conductor bottom left edge,(2) a right edge portion of the respective shielded conductor bottom right edge, and(3) a first conductive plane area, and wherein (a) the respective left edge portion and the respective right edge portion are parallel and separated from one another by a first distance as measured orthogonal therebetween, and(b) the respective left edge portion, the respective first conductive plane area and the respective right edge portion are aligned co-planar with one another such that the width of the respective first conductive plane area extends the first distance from the respective left edge portion to the respective right edge portion;B) a second group of four conductors, wherein each conductor in the second group includes a shielded conductor bottom left edge, a shielded conductor bottom right edge and a bottom main-body conductive area, and wherein the bottom main-body conductive area of each conductor in the second group comprises (1) a left edge portion of the respective shielded conductor bottom left edge,(2) a right edge portion of the respective shielded conductor bottom right edge, and(3) a second conductive plane area, and wherein (a) the respective left edge portion and the respective right edge portion are parallel and separated from one another by the first distance as measured orthogonal therebetween, and(b) the respective left edge portion, the respective second conductive plane area and the respective right edge portion are aligned co-planar with one another such that the width of the respective second conductive plane area extends the first distance from the respective left edge portion to the respective right edge portion;C) a group of shielding conductors that are conductively connected to one another, wherein the group comprises a first shielding conductor having a first shielding conductive area, a second shielding conductor having a second shielding conductive area and a third shielding conductor having a third shielding conductive area;whereina) each conductor in the first group is not a conductor in the second group,b) the group of shielding conductors is conductively isolated from the first group and the second group,c) all the first conductive plane areas in the first group are co-planar with one another,d) all the second conductive plane areas in the second group are co-planar with one another,e) all the first conductive plane areas and all the second conductive plane areas are located between the first and third shielding conductive areas,f) the first conductive plane areas, the first, second and third shielding conductive areas and the second conductive plane areas are all parallel with one another,g) the first conductive plane areas are physically shielded from the second conductive plane areas by the second shielding conductive area in position therebetween,h) the width of each first conductive plane area in the first group is equal to the width of each second conductive plane area in the second group,i) the first conductive plane area of the bottom main-body conductive area of a first conductor of the first group is in stacked superposed alignment with the second conductive plane area of the bottom main-body conductive area of a first conductor of the second group such that the left edge portion of the shielded conductor bottom left edge of the first conductor in the first group and the left edge portion of the shielded conductor bottom left edge of the first conductor in the second group are the same length,j) the first conductive plane area of the bottom main-body conductive area of a second conductor in the first group is in stacked superposed alignment with the second conductive plane area of the bottom main-body conductive area of a second conductor in the second group such that the left edge portion of the shielded conductor bottom left edge of the second conductor in the first group and the left edge portion of the shielded conductor bottom left edge of the second conductor in the second group are the same length, andk) within the first group, the right edge portion of the shielded conductor bottom right edge of the first conductor is separated from the left edge portion of the shielded conductor bottom left edge of the second conductor by a second distance as measured orthogonal therebetween. 39. The conductor arrangement of claim 38, wherein a) the first conductive plane area of the bottom main-body conductive area of a third conductor in the first group is in stacked superposed alignment with the second conductive plane area of the bottom main-body conductive area of a third conductor in the second group such that the left edge portion of the shielded conductor bottom left edge of the third conductor in the first group and the left edge portion of the shielded conductor bottom left edge of the third conductor in the second group are the same length,b) the first conductive plane area of the bottom main-body conductive area of a fourth conductor in the first group is in stacked superposed alignment with the second conductive plane area of the bottom main-body conductive area of a fourth conductor in the second group such that the left edge portion of the shielded conductor bottom left edge of the fourth conductor in the first group and the left edge portion of the shielded conductor bottom left edge of the fourth conductor in the second group are the same length,c) within the first group, the right edge portion of the shielded conductor bottom right edge of the third conductor is separated from the left edge portion of the shielded conductor bottom left edge of the fourth conductor by the second distance as measured orthogonal therebetween,d) within the first group, the second distance separating the right edge portion of the shielded conductor bottom right edge of the first conductor from the left edge portion of the shielded conductor bottom left edge of the second conductor is occupied by dielectric therebetween, ande) within the first group, the second distance separating the right edge portion of the shielded conductor bottom right edge of the third conductor from the left edge portion of the shielded conductor bottom left edge of the fourth conductor is occupied by dielectric therebetween. 40. The conductor arrangement of claim 39, wherein within the first group, the right edge portion of the shielded conductor bottom right edge of the second conductor is separated from the left edge portion of the shielded conductor bottom left edge of the third conductor by a third distance as measured orthogonal therebetween. 41. The conductor arrangement of claim 40, wherein a) one or more of the conductors in the first group is configured as an electrical data line,b) one or more of the conductors in the second group is configured as an electrical data line,c) one or more of the conductors in the first group is conductively connected to an integrated circuit die, andd) one or more of the shielding conductors in the group of shielding conductors is conductively connected to the integrated circuit die. 42. The conductor arrangement of claim 39, further comprising: A) a third group of four conductors, wherein each conductor in the third group includes a shielded conductor bottom left edge, a shielded conductor bottom right edge and a bottom main-body conductive area, and wherein the bottom main-body conductive area of each conductor in the third group comprises(1) a left edge portion of the respective shielded conductor bottom left edge,(2) a right edge portion of the respective shielded conductor bottom right edge, and(3) a third conductive plane area, and wherein (a) the respective left edge portion and the respective right edge portion are parallel and separated from one another by a fourth distance as measured orthogonal therebetween, and(b) the respective left edge portion, the respective third conductive plane area and the respective right edge portion are aligned co-planar with one another such that the width of the respective third conductive plane area extends the fourth distance from the respective left edge portion to the respective right edge portion;B) a fourth group of four conductors, wherein each conductor in the fourth group includes a shielded conductor bottom left edge, a shielded conductor bottom right edge and a bottom main-body conductive area, and wherein the bottom main-body conductive area of each conductor in the fourth group comprises(1) a left edge portion of the respective shielded conductor bottom left edge,(2) a right edge portion of the respective shielded conductor bottom right edge, and(3) a fourth conductive plane area, and wherein (a) the respective left edge portion and the respective right edge portion are parallel and separated from one another by the fourth distance as measured orthogonal therebetween, and(b) the respective left edge portion, the respective fourth conductive plane area and the respective right edge portion are aligned co-planar with one another such that the width of the respective fourth conductive plane area extends the fourth distance from the respective left edge portion to the respective right edge portion;whereina) each conductor in the third group is not a conductor in the fourth group,b) the group of shielding conductors is conductively isolated from the third group and the fourth group,c) all the third conductive plane areas in the third group are co-planar with one another,d) all the fourth conductive plane areas in the fourth group are co-planar with one another,e) all the third conductive plane areas and all the fourth conductive plane areas are all located between the shielding conductive areas of first and third shielding conductors,f) the third conductive plane areas, the fourth conductive plane areas, and the shielding conductive areas of the first, second and third shielding conductors are all parallel with one another,g) the third superposed conductive plane areas are physically shielded from the fourth conductive plane areas by the shielding conductive area of the second shielding conductor in position therebetween,h) the width of each third conductive plane area of the third group is equal to the width of each fourth conductive plane area of the fourth group,i) the third conductive plane area of the bottom main-body conductive area of a first conductor of the third group is in stacked superposed alignment with the fourth conductive plane area of the bottom main-body conductive area of a first conductor of the fourth group such that the left edge portion of the shielded conductor bottom left edge of the first conductor in the third group and the left edge portion of the shielded conductor bottom left edge of the first conductor in the fourth group are the same length, andj) the third conductive plane area of the bottom main-body conductive area of a second conductor in the third group is in stacked superposed alignment with the fourth conductive plane area of the bottom main-body conductive area of a second conductor in the fourth group such that the left edge portion of the shielded conductor bottom left edge of the second conductor in the third group and the left edge portion of the shielded conductor bottom left edge of the second conductor in the fourth group are the same length,k) the third conductive plane area of the bottom main-body conductive area of a third conductor in the third group is in stacked superposed alignment with the fourth conductive plane area of the bottom main-body conductive area of a third conductor in the fourth group such that the left edge portion of the shielded conductor bottom left edge of the third conductor in the third group and the left edge portion of the shielded conductor bottom left edge of the third conductor in the fourth group are the same length, andl) the third conductive plane area of the bottom main-body conductive area of a fourth conductor in the third group is in stacked superposed alignment with the fourth conductive plane area of the bottom main-body conductive area of a fourth conductor in the fourth group such that the left edge portion of the shielded conductor bottom left edge of the fourth conductor in the third group and the left edge portion of the shielded conductor bottom left edge of the fourth conductor in the fourth group are the same length,m) within the third group, the right edge portion of the shielded conductor bottom right edge of the first conductor is separated from the left edge portion of the shielded conductor bottom left edge of the second conductor by the second distance as measured orthogonal therebetween,n) within the third group, the right edge portion of the shielded conductor bottom right edge of the third conductor is separated from the left edge portion of the shielded conductor bottom left edge of the fourth conductor by the second distance as measured orthogonal therebetween,o) within the third group, the second distance separating the right edge portion of the shielded conductor bottom right edge of the first conductor from the left edge portion of the shielded conductor bottom left edge of the second conductor is occupied by dielectric therebetween, andp) within the third group, the second distance separating the right edge portion of the shielded conductor bottom right edge of the third conductor from the left edge portion of the shielded conductor bottom left edge of the fourth conductor is occupied by dielectric therebetween. 43. The conductor arrangement of claim 42, wherein a) within the first group, the right edge portion of the shielded conductor bottom right edge of the second conductor is separated from the left edge portion of the shielded conductor bottom left edge of the third conductor by a third distance as measured orthogonal therebetween,b) within the first group, the third distance separating the right edge portion of the shielded conductor bottom right edge of the second conductor from the left edge portion of the shielded conductor bottom left edge of the third conductor is occupied by dielectric therebetween,c) within the third group, the right edge portion of the shielded conductor bottom right edge of the second conductor is separated from the left edge portion of the shielded conductor bottom left edge of the third conductor by the third distance as measured orthogonal therebetween, andd) within the third group, the third distance separating the right edge portion of the shielded conductor bottom right edge of the second conductor from the left edge portion of the shielded conductor bottom left edge of the third conductor is occupied by dielectric therebetween. 44. The conductor arrangement of claim 43, wherein a) one or more of the conductors in the first group is configured as an electrical data line,b) one or more of the conductors in the second group is configured as an electrical data line,c) one or more of the conductors in the third group is configured as an electrical data line, andd) one or more of the conductors in the fourth group is configured as an electrical data line. 45. The conductor arrangement of claim 43, wherein a) one or more of the conductors in the first group is configured as an electrical data line,b) one or more of the conductors in the second group is configured as an electrical data line,c) one or more of the conductors in the third group is configured as an electrical data line,d) one or more of the conductors in the fourth group is configured as an electrical data line, ande) one or more of the first, second or third shielding conductive areas is configured as a shielding electrical node of a circuit that comprises at least one or more of the conductors in the first group. 46. The conductor arrangement of claim 43, wherein the conductor arrangement is partially embedded within an integrated circuit die. 47. The conductor arrangement of claim 43, wherein the conductor arrangement is partially embedded within a substrate. 48. An integrated circuit wafer comprising the conductor arrangement of claim 40. 49. An integrated circuit wafer comprising the conductor arrangement of claim 43. 50. A substrate comprising the conductor arrangement of claim 40. 51. A substrate comprising the conductor arrangement of claim 41. 52. The conductor arrangement of claim 43, further comprising: A) a substrate; andB) an integrated circuit die;whereina) the integrated circuit die is attached to the substrate,b) at least one or more of the conductors in the first group is conductively connected to the integrated circuit die,c) at least one or more of the conductors in the second group is conductively connected to the integrated circuit die,d) at least one or more of the conductors in the third group is conductively connected to the integrated circuit die, ande) at least one or more of the conductors in the fourth group is conductively connected to the integrated circuit die. 53. The conductor arrangement of claim 52, wherein a) one or more of the conductors in the first group is configured to operate as a feedthrough conductor when the integrated circuit die is energized,b) one or more of the conductors in the second group is configured to operate as a feedthrough conductor when the integrated circuit die is energized,c) one or more of the conductors in the third group is configured to operate as a feedthrough conductor when the integrated circuit die is energized, andd) one or more of the conductors in the fourth group is configured to operate as a feedthrough conductor when the integrated circuit die is energized. 54. The conductor arrangement of claim 43, further comprising: A) a substrate; andB) an integrated circuit chip;whereina) the integrated circuit chip is attached to the substrate,b) at least one or more of the shielding conductors in the group of shielding conductors is conductively connected to the integrated circuit chip,c) one or more of the conductors in the first group is conductively connected to the integrated circuit chip,d) one or more of the conductors in the second group is conductively connected to the integrated circuit chip,e) one or more of the conductors in the third group is conductively connected to the integrated circuit chip, andf) one or more of the conductors in the fourth group is conductively connected to the integrated circuit chip. 55. The conductor arrangement of claim 54, wherein a) one or more of the conductors in the first group is configured to operate as a feedthrough conductor when the conductor arrangement is energized,b) one or more of the conductors in the second group is configured to operate as a feedthrough conductor when the conductor arrangement is energized,c) one or more of the conductors in the third group is configured to operate as a feedthrough conductor when the conductor arrangement is energized, andd) one or more of the conductors in the fourth group is configured to operate as a feedthrough conductor when the conductor arrangement is energized. 56. A conductor arrangement comprising: A) a first group of at least three conductors, wherein each conductor in the first group includes a shielded conductor bottom left edge, a shielded conductor bottom right edge and a bottom main-body conductive area, and wherein the bottom main-body conductive area of each conductor in the first group comprises (1) a left edge portion of the respective shielded conductor bottom left edge,(2) a right edge portion of the respective shielded conductor bottom right edge, and(3) a first conductive plane area, and wherein (a) the respective left edge portion and the respective right edge portion are of an equal length,(b) the respective left edge portion and the respective right edge portion are parallel and separated from one another by a first distance as measured orthogonal therebetween, and(c) the respective left edge portion, the respective first conductive plane area and the respective right edge portion are aligned co-planar with one another such that the width of the respective first conductive plane area extends the first distance from the respective left edge portion to the respective right edge portion;B) a second group of at least three conductors, wherein each conductor in the second group includes a shielded conductor bottom left edge, a shielded conductor bottom right edge and a bottom main-body conductive area, and wherein the bottom main-body conductive area of each conductor in the second group comprises (1) a left edge portion of the respective shielded conductor bottom left edge,(2) a right edge portion of the respective shielded conductor bottom right edge, and(3) a second conductive plane area, and wherein (a) the respective left edge portion and the respective right edge portion are of an equal length,(b) the respective left edge portion and the respective right edge portion are parallel and separated from one another by the first distance as measured orthogonal therebetween, and(c) the respective left edge portion, the respective second conductive plane area and the respective right edge portion are aligned co-planar with one another such that the width of the respective second conductive plane area extends the first distance from the respective left edge portion to the respective right edge portion;C) a group of common conductors that are conductively connected to one another, wherein the group comprises a first common conductor having a first shielding conductive area, a second common conductor having a second shielding conductive area and a third common conductor having a third shielding conductive area;whereina) each conductor in the first group is not conductively connected to a conductor in the second group, and wherein each conductor in the first group is not conductively connected to a common conductor in the group of common conductors,b) all the first conductive plane areas and all the second conductive plane areas are located between the first, second and third shielding conductive areas,c) the first conductive plane areas, the second conductive plane areas, and the first, second and third shielding conductive areas are all parallel with one another,d) the first conductive plane areas are physically shielded from the second conductive plane areas by the second shielding conductive area in position therebetween,e) the width of each first conductive plane area in the first group is equal to the width of each second conductive plane area in the second group,f) the first conductive plane area of the bottom main-body conductive area of a first conductor of the first group is stacked and aligned symmetrically with the second conductive plane area of the bottom main-body conductive area of a first conductor of the second group,g) the first conductive plane area of the bottom main-body conductive area of a second conductor in the first group is stacked and aligned symmetrically with the second conductive plane area of the bottom main-body conductive area of a second conductor in the second group,h) the first conductive plane area of the bottom main-body conductive area of a third conductor in the first group is stacked and aligned symmetrically with the second conductive plane area of the bottom main-body conductive area of a third conductor in the second group,i) within the first group, the right edge portion of the shielded conductor bottom right edge of the first conductor is separated from the left edge portion of the shielded conductor bottom left edge of the second conductor by a second distance as measured orthogonal therebetween,j) within the first group, the right edge portion of the shielded conductor bottom right edge of the second conductor is separated from the left edge portion of the shielded conductor bottom left edge of the third conductor by the second distance as measured orthogonal therebetween,k) within the first group, the second distance separating the right edge portion of the shielded conductor bottom right edge of the first conductor from the left edge portion of the shielded conductor bottom left edge of the second conductor is occupied by dielectric therebetween, andl) within the first group, the second distance separating the right edge portion of the shielded conductor bottom right edge of the second conductor from the left edge portion of the shielded conductor bottom left edge of the third conductor is occupied by dielectric therebetween. 57. The conductor arrangement of claim 56, wherein a) one or more of the conductors in the first group is configured as an electrical data line,b) one or more of the conductors in the second group is configured as an electrical data line, andc) one or more of the common conductors of the group of common conductors is configured as a common electrical node for a circuit when the conductor arrangement is energized. 58. The conductor arrangement of claim 56, wherein the conductor arrangement is at least partially embedded within an integrated circuit die. 59. The conductor arrangement of claim 56, wherein the conductor arrangement is at least partially embedded within a substrate. 60. The conductor arrangement of claim 59, wherein a) one or more of the conductors in the first group is a feedthrough conductor,b) one or more of the conductors in the second group is a feedthrough conductor,c) one or more of the common conductors in the group of common conductors is a shielding conductor, andd) the second shielding conductive area is configured to operate as an electrically-shielding conductive area when the conductor arrangement is energized. 61. An electronic arrangement comprising: [A] a first conductive shield;[B] a second conductive shield that is spaced apart from the first conductive shield;[C] a third conductive shield that is spaced apart from both the first and second conductive shields, wherein the second conductive shield is positioned between the first and third conductive shields;[D] a first group of at least three substantially linear conductors that are positioned parallel to each other between the first and second conductive shields, and that each define a respective substantially planar bottom surface that is disposed within a first plane;[E] a second group of at least three substantially linear conductors that are positioned parallel to each other between the second and third conductive shields and that each define a respective substantially planar top surface that is disposed within a second plane that is parallel to, and offset from, the first plane, wherein: [a] the first, second, and third conductive shields are conductively connected to each other;[b] each particular conductor within the first group of conductors comprises: 1. a first side edge that is longer than the width of the particular conductor; and2. a second side edge that is longer than the width of the particular conductor;[c] each specific conductor within the second group of conductors comprises: 1. a first side edge that is longer than the width of the specific conductor; and2. a second side edge that is longer than the width of the specific conductor; and[d] each individual conductor within the first group of conductors is positioned relative to a corresponding one of the second group of conductors so that: 1. the first side edge of the individual conductor aligns with the first side edge of the corresponding one of the second group of conductors, and2. the second side edge of the individual conductor aligns with the second side edge of the corresponding one of the second group of conductors;[e] each conductor within the first group of conductors is a substantially linear segment of a larger, elongated conductor; and[f] each conductor within the second group of conductors is a substantially linear segment of a larger, elongated conductor. 62. The electronic arrangement of claim 61, wherein: [a] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[b] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane; and[c] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface. 63. The electronic arrangement of claim 61, wherein: [a] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[b] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[c] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[d] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[e] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane; and[f] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface. 64. The electronic arrangement of claim 61, wherein: [a] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[b] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[c] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[d] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[e] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[f] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface;[g] the conductors within the first group of conductors are spaced evenly apart; and[h] the conductors within the second group of conductors are spaced evenly apart. 65. The electronic arrangement of claim 61, wherein: [a] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[b] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[c] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[d] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[e] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[f] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface;[g] the conductors within the first group of conductors are spaced evenly apart;[h] the conductors within the second group of conductors are spaced evenly apart;[i] there are no conductors positioned, within the first plane, between neighboring conductors within the first group of conductors; and[j] there are no conductors positioned, within the second plane, between neighboring conductors within the second group of conductors. 66. The electronic arrangement of claim 61, wherein: [a] the first group of conductors comprises at least four conductors;[b] the second group of conductors comprises at least four conductors;[c] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[d] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[e] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[f] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[g] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[h] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface;[i] the conductors within the first group of conductors are spaced evenly apart;[j] the conductors within the second group of conductors are spaced evenly apart;[k] there are no conductors positioned, within the first plane, between neighboring conductors within the first group of conductors; and[l] there are no conductors positioned, within the second plane, between neighboring conductors within the second group of conductors. 67. The electronic arrangement of claim 61, wherein each conductor within the first group of conductors is: [a] electrically isolated from each of the other conductors within the first group of conductors; and[b] electrically isolated from each of the conductors within the second group of conductors, andeach conductor within the second group of conductors is: [a] electrically isolated from each of the other conductors within the second group of conductors; and[b] electrically isolated from each of the conductors within the first group of conductors. 68. The electronic arrangement of claim 61, wherein: [a] the first group of conductors comprises at least four conductors;[b] the second group of conductors comprises at least four conductors;[c] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[d] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[e] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[f] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[g] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[h] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface;[i] the conductors within the first group of conductors are spaced evenly apart;[j] the conductors within the second group of conductors are spaced evenly apart;[k] there are no conductors positioned, within the first plane, between neighboring conductors within the first group of conductors;[l] there are no conductors positioned, within the second plane, between neighboring conductors within the second group of conductors;[1] each conductor within the first group of conductors is: [a] electrically isolated from each of the other conductors within the first group of conductors; and[b] electrically isolated from each of the conductors within the second group of conductors, and[2] each conductor within the second group of conductors is: [c] electrically isolated from each of the other conductors within the second group of conductors; and[d] electrically isolated from each of the conductors within the first group of conductors. 69. The electronic arrangement of claim 61, wherein: [a] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[b] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[c] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[d] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[e] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[f] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface;[g] the conductors within the first group of conductors are spaced evenly apart;[h] the conductors within the second group of conductors are spaced evenly apart;[i] there are no conductors positioned, within the first plane, between neighboring conductors within the first group of conductors;[j] there are no conductors positioned, within the second plane, between neighboring conductors within the second group of conductors;[k] each conductor within the first group of conductors is: [1] electrically isolated from each of the other conductors within the first group of conductors; and[2] electrically isolated from each of the conductors within the second group of conductors, andeach conductor within the second group of conductors is: [3] electrically isolated from each of the other conductors within the second group of conductors; and[4] electrically isolated from each of the conductors within the first group of conductors,and wherein[a] the first conductive shield is positioned within a first layer of an integrated electronic component;[b] the first group of conductors is positioned within a second layer of the electronic component;[c] the second conductive shield is positioned within a third layer of the electronic component;[d] the second group of conductors is positioned within a fourth layer of the electronic component; and[e] the third conductive shield is positioned within a fifth layer of the electronic component. 70. The electronic arrangement of claim 61, wherein the second conductive shield and first and second groups of conductors are at least partially embedded within a substrate. 71. The electronic arrangement of claim 61, wherein: [a] each conductor within the first group of conductors consists of a single, continuous linear length of material;[b] each conductor within the second group of conductors consists of a single, continuous linear length of material;[c] the first group of conductors comprises at least four conductors;[d] the second group of conductors comprises at least four conductors;[e] the second conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[f] the second conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[g] a distance between the first plane and the second conductive shield's substantially planar upper surface is equal to a distance between the second plane and the second conductive shield's substantially planar lower surface;[h] the first conductive shield comprises a substantially planar lower surface that is parallel to both the first plane and the second plane;[i] the third conductive shield comprises a substantially planar upper surface that is parallel to both the first plane and the second plane;[j] the distance between the first plane and the first conductive shield's substantially planar lower surface is equal to the distance between the second plane and the third conductive shield's upper surface;[k] the conductors within the first group of conductors are spaced evenly apart;[l] the conductors within the second group of conductors are spaced evenly apart;[m] there are no conductors positioned, within the first plane, between neighboring conductors within the first group of conductors;[n] there are no conductors positioned, within the second plane, between neighboring conductors within the second group of conductors;[o] each conductor within the first group of conductors is: [a] electrically isolated from each of the other conductors within the first group of conductors; and[b] electrically isolated from each of the conductors within the second group of conductors, and[p] each conductor within the second group of conductors is: [a] electrically isolated from each of the other conductors within the second group of conductors; and[b] electrically isolated from each of the conductors within the first group of conductors. 72. A conductive arrangement comprising: [1.] a first conductor plate, a second conductor plate that is spaced apart from the first conductor plate, and a third conductor plate that is spaced apart from both the first and second conductor plates, wherein (1) the second conductor plate is positioned between the first and third conductor plates,(2) the first, second and third conductor plates are parallel to one another,(3) the first, second and third conductor plates are conductively connected to one another;[2.] a first plurality of three conductors and a second plurality of three conductors, wherein each respective conductor of the first and second pluralities comprises a respective superposed elongated conductor portion that includes: (1) a respective straight conductor edge first portion that is part of a respective first structural edge of the respective conductor, and(2) a respective straight conductor edge second portion that is part of a respective second structural edge of the respective conductor, andwherein the respective straight conductor edge first portion and the respective straight conductor edge second portion are (1) co-planar with one another, and(2) uniformly separated a first distance from one another as measured orthogonal therebetween, and(3) each longer than the first distance;wherein[A] the first, second and third conductor plates are each not conductively connected to any of the respective conductors,[B] the respective conductors of the first plurality are not respective conductors of the second plurality,[C] the respective superposed elongated conductor portions of the first plurality are (1. all grouped together in close proximity to one another, and(2. all horizontally spaced apart from one another, and(3. each located between the first and second conductor plates such that the respective straight conductor edge first portions of the first plurality are (a) all parallel to one another,(b) all co-planar with one another, and(c) each parallel to the second conductor plate,(4. all uniformly spaced apart from the first conductor plate,(5. all uniformly spaced apart from the second conductor plate, and[D] the respective superposed elongated conductor portions of the second plurality are (1. all grouped together in close proximity to one another, and(2. all horizontally spaced apart from one another, and(3. each located between the second and third conductor plates such that the respective straight conductor edge second portions of the second plurality are (a) all parallel to one another,(b) all co-planar with one another, and(c) each parallel to the second conductor plate,(4. all uniformly spaced apart from the second conductor plate,(5. all uniformly spaced apart from the third conductor plate, and[E] the second conductor plate physically shields all the respective superposed elongated conductor portions of the first plurality from all the respective superposed elongated conductor portions of the second plurality,[F] each one of the respective conductor edge straight aligned first portions is parallel to each one of the respective conductor edge straight aligned second portions,[G] the first and second pluralities each comprise a respective first conductor, a respective second conductor and a respective third conductor,[H] together, the respective superposed elongated conductor portions of the respective first conductors of the first and second pluralities are in superposed alignment,[I] together, the respective superposed elongated conductor portions of the respective second conductors of the first and second pluralities are in superposed alignment, and[J] together, the respective superposed elongated conductor portions of the respective third conductors of the first and second pluralities are in superposed alignment. 73. The conductive arrangement of claim 72, wherein [K] each respective straight conductor edge first portion defines a respective aligned left physical boundary of the respective superposed elongated conductor portion,[L] each respective straight conductor edge second portion defines a respective aligned right physical boundary of the respective superposed elongated conductor portion,[M] the lengths of the respective aligned left physical boundaries of the respective superposed elongated conductor portions of the respective first conductors are equal,[N] the lengths of the respective aligned right physical boundaries of the respective superposed elongated conductor portions of the respective first conductors are equal,[O] the lengths of the respective aligned left physical boundaries of the respective superposed elongated conductor portions of the respective second conductors are equal,[P] the lengths of the respective aligned right physical boundaries of the respective superposed elongated conductor portions of the respective second conductors are equal,[Q] the lengths of the respective aligned left physical boundaries of the respective superposed elongated conductor portions of the respective third conductors are equal,[R] the lengths of the respective aligned right physical boundaries of the respective superposed elongated conductor portions of the respective third conductors are equal,[S] the length of the respective aligned left physical boundary of the respective superposed elongated conductor portion of any of the respective conductors is always greater than the first distance, and[T] the length of the respective aligned right physical boundary of the respective superposed elongated conductor portion of any of the respective conductors is always greater than the first distance. 74. The conductive arrangement of claim 73, wherein in each of the first and second pluralities, [U] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured co-planar therebetween,[V] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another the second distance as measured co-planar therebetween,[W] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a dielectric, and[X] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the dielectric. 75. The conductive arrangement of claim 74, wherein in each of the first and second pluralities, the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries. 76. The conductive arrangement of claim 72, wherein [K] each respective straight conductor edge first portion defines a respective aligned left physical boundary of the respective superposed elongated conductor portion,[L] each respective straight conductor edge second portion defines a respective aligned right physical boundary of the respective superposed elongated conductor portion,[M] the lengths of the respective aligned left physical boundaries of the respective superposed elongated conductor portions of the respective first conductors are equal,[N] the lengths of the respective aligned right physical boundaries of the respective superposed elongated conductor portions of the respective first conductors are equal,[O] the lengths of the respective aligned left physical boundaries of the respective superposed elongated conductor portions of the respective second conductors are equal,[P] the length of the respective aligned right physical boundaries of the respective superposed elongated conductor portions of the respective second conductors are equal,[Q] the lengths of the respective aligned left physical boundaries of the respective superposed elongated conductor portions of the respective third conductors are equal,[R] the lengths of the respective aligned right physical boundaries of the respective superposed elongated conductor portions of the respective third conductors are equal,[S] the length of the respective aligned left physical boundary of the respective superposed elongated conductor portion of any of the respective conductors is always greater than the first distance, andwherein in each of the first and second pluralities,[T] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured co-planar therebetween,[U] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another a third distance as measured co-planar therebetween,[V] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a dielectric, and[W] the third distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the dielectric,[X] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries. 77. The conductive arrangement of claim 73, wherein in each of the first and second pluralities, [U] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured orthogonal therebetween,[V] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another the second distance as measured orthogonal therebetween,[W] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a material, and[X] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the material, and [Y] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries. 78. The conductive arrangement of claim 73, wherein in each of the first and second pluralities, [U] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured orthogonal therebetween,[V] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another a third distance as measured orthogonal therebetween,[W] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a material, and[X] the third distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the material, and[Y] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries. 79. The conductive arrangement of claim 72, wherein [K] each respective straight conductor edge first portion defines a respective aligned left physical boundary of the respective superposed elongated conductor portion,[L] each respective straight conductor edge second portion defines a respective aligned right physical boundary of the respective superposed elongated conductor portion,[M] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries,[N] the lengths of the respective aligned left physical boundaries are all equal to one another,[O] the lengths of the respective aligned right physical boundaries are all equal to one another,[P] the lengths of the respective aligned left physical boundaries are each always greater than the first distance,wherein in each of the first and second pluralities,[Q] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured orthogonal therebetween,[R] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another a third distance as measured orthogonal therebetween,[S] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a dielectric, and[T] the third distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the dielectric. 80. The conductive arrangement of claim 72, wherein [K] each respective straight conductor edge first portion defines a respective aligned left physical boundary of the respective superposed elongated conductor portion,[L] each respective straight conductor edge second portion defines a respective aligned right physical boundary of the respective superposed elongated conductor portion,[M] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries,[N] the lengths of the respective aligned left physical boundaries are all equal to one another,[O] the lengths of the respective aligned right physical boundaries are all equal to one another,[P] the lengths of the respective aligned left physical boundaries are each always greater than the first distance,wherein in each of the first and second pluralities,[Q] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured orthogonal therebetween,[R] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another a third distance as measured orthogonal therebetween,[S] the second distance between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a dielectric material extending completely therebetween, and[T] the third distance between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the dielectric material extending completely therebetween. 81. The conductive arrangement of claim 72, wherein [K] each respective straight conductor edge first portion defines a respective aligned left physical boundary of the respective superposed elongated conductor portion,[L] each respective straight conductor edge second portion defines a respective aligned right physical boundary of the respective superposed elongated conductor portion,[M] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries,[N] the lengths of the respective aligned left physical boundaries are each always greater than the first distance,wherein in each of the first and second pluralities,[O] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another a second distance as measured orthogonal therebetween,[P] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another the second distance as measured orthogonal therebetween,[Q] the second distance between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by a dielectric material extending completely therebetween, and[R] the second distance between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the dielectric material extending completely therebetween. 82. The conductive arrangement of claim 75, wherein the first distance is equal to the second distance. 83. The conductive arrangement of claim 77, wherein the first distance is equal to the second distance. 84. The conductive arrangement of claim 76, at least partially embedded within a microprocessor. 85. The conductive arrangement of claim 77, at least partially embedded within a microprocessor. 86. The conductive arrangement of claim 78, at least partially embedded within a microprocessor. 87. The conductive arrangement of claim 79, at least partially embedded within a processor comprising one or more transistors. 88. The conductive arrangement of claim 80, at least partially embedded within a processor comprising one or more transistors. 89. The conductive arrangement of claim 81, at least partially integrated within a component that includes both silicon material and one or more transistors. 90. The conductive arrangement of claim 74, at least partially integrated within a component that includes both silicon material and one or more transistors. 91. The conductive arrangement of claim 76, at least partially integrated within a component that includes both silicon material and one or more transistors. 92. The conductive arrangement of claim 75, at least partially embedded within a substrate. 93. The conductive arrangement of claim 76, at least partially embedded within a substrate. 94. The conductive arrangement of claim 77, at least partially embedded within a substrate. 95. The conductive arrangement of claim 78, at least partially embedded within a substrate. 96. The conductive arrangement of claim 79, at least partially embedded within a substrate. 97. The conductive arrangement of claim 80, at least partially embedded within a substrate. 98. The conductive arrangement of claim 81, at least partially embedded within a substrate. 99. The conductive arrangement of claim 93, further comprising: [3.] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fifth conductor plate is positioned between the fourth and sixth conductor plates,[B] the fourth, fifth and sixth conductor plates are parallel to one another,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[4.] a first energy conductor plate and a second energy conductor plate; wherein [A] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the fifth conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[D] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates, and[E] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates. 100. The conductive arrangement of claim 94, further comprising: [3.] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fifth conductor plate is positioned between the fourth and sixth conductor plates,[B] the fourth, fifth and sixth conductor plates are parallel to one another,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[4.] a first energy conductor plate and a second energy conductor plate; wherein [A] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the fifth conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[D] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates, and[E] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates. 101. The conductive arrangement of claim 95, further comprising: [3.] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fifth conductor plate is positioned between the fourth and sixth conductor plates,[B] the fourth, fifth and sixth conductor plates are parallel to one another,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[4.] a first energy conductor plate and a second energy conductor plate; wherein [A] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the fifth conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[D] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates, and[E] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates. 102. The conductive arrangement of claim 98, further comprising: [3.] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fifth conductor plate is positioned between the fourth and sixth conductor plates,[B] the fourth, fifth and sixth conductor plates are parallel to one another,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[4.] a first energy conductor plate and a second energy conductor plate; wherein [A] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the fifth conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[D] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates, and[E] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates, and[F] one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates. 103. The conductive arrangement of claim 99, wherein one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates. 104. The conductive arrangement of claim 100, further comprising: [5.] a processor comprising one or more transistors, and wherein [A] the processor is attached to the substrate,[B] one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates, and[C] one or more of the first and second energy conductor plates is conductively connected to the processor. 105. The conductive arrangement of claim 101, further comprising: [5.] a processor comprising one or more transistors, and wherein[A] the processor is attached to the substrate,[B] one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates, and[C] one or more of the first and second energy conductor plates is conductively connected to the processor. 106. The conductive arrangement of claim 103, wherein one or more of the first and second energy conductor plates is conductively connected to a processor comprising one or more transistors. 107. The conductive arrangement of claim 96, further comprising: [3.] a processor comprising one or more transistors, and wherein [A] the processor is attached to the substrate, and[B] one or more of the first and second energy conductor plates is conductively connected to the processor. 108. The conductive arrangement of claim 97, further comprising: [3.] a processor comprising one or more transistors, and wherein[A] the processor is attached to the substrate, and[B] one or more of the first and second energy conductor plates is conductively connected to the processor. 109. The conductive arrangement of claim 102, further comprising: [5.] a processor comprising one or more transistors, and wherein [A] the processor is attached to the substrate. 110. The conductive arrangement of claim 92, further comprising: [3.] a first energy conductor plate and a second energy conductor plate; wherein [A] the first, second and third conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the second conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second and third conductor plates,[D] the first energy conductor plate is sandwiched between the first and second conductor plates, and[E] the second energy conductor plate is sandwiched between the second and third conductor plates. 111. The conductive arrangement of claim 72, further comprising: [3.] a third plurality of three conductors and a fourth plurality of three conductors, wherein each respective conductor of the third and fourth pluralities comprises a respective superposed elongated conductor portion that includes: (1) a respective straight conductor edge first portion that is part of a respective first structural edge of the respective conductor, and(2) a respective straight conductor edge second portion that is part of a respective second structural edge of the respective conductor, andwherein the respective straight conductor edge first portion and the respective straight conductor edge second portion are (1) co-planar with one another, and(2) uniformly separated the first distance from one another as measured orthogonal therebetween, and(3) each longer than the first distance;wherein[A] the second conductor plate is not conductively connected to any one of the respective conductors of the third and fourth pluralities,[B] the respective conductors of the third plurality are not respective conductors of the first, second and fourth pluralities,[C] the respective conductors of the fourth plurality are not respective conductors of the first and second pluralities,[D] the respective superposed elongated conductor portions of the third plurality are (1. all grouped together in close proximity to one another, and(2. all horizontally spaced apart from one another, and(3. each located between the first and second conductor plates such that the respective straight conductor edge first portions of the third plurality are (a) all parallel to one another,(b) all co-planar with one another, and(c) each parallel to the second conductor plate,(4. all uniformly spaced apart from the first conductor plate,(5. all uniformly spaced apart from the second conductor plate, and[E] the respective superposed elongated conductor portions of the fourth plurality are (1. all grouped together in close proximity to one another, and(2. all horizontally spaced apart from one another, and(3. each located between the second and third conductor plates such that the respective straight conductor edge second portions of the fourth plurality are (a) all parallel to one another,(b) all co-planar with one another, and(c) each parallel to the second conductor plate,(4. all uniformly spaced apart from the second conductor plate,(5. all uniformly spaced apart from the third conductor plate, and[F] the second conductor plate physically shields all the respective superposed elongated conductor portions of the third plurality from all the respective superposed elongated conductor portions of the fourth plurality,[G] each one of the respective conductor edge straight aligned first portions of the third plurality is parallel to each one of the respective conductor edge straight aligned second portions of the fourth plurality,[H] the third and fourth pluralities each comprise a respective first conductor, a respective second conductor, a respective third conductor and a respective fourth conductor,[I] together, the respective superposed elongated conductor portions of the respective first conductors of the third and fourth pluralities are in superposed alignment,[J] together, the respective superposed elongated conductor portions of the respective second conductors of the third and fourth pluralities are in superposed alignment,[K] together, the respective superposed elongated conductor portions of the respective third conductors of the third and fourth pluralities are in superposed alignment. 112. The conductive arrangement of claim 111, wherein [L] each respective straight conductor edge first portion defines a respective aligned left physical boundary of the respective superposed elongated conductor portion,[M] each respective straight conductor edge second portion defines a respective aligned right physical boundary of the respective superposed elongated conductor portion,[N] the length of each one of the respective aligned left physical boundaries is equal to the length of each one of the respective aligned right physical boundaries,[O] the lengths of the respective aligned left physical boundaries are each always greater than the first distance,[P] the lengths of the respective aligned right physical boundaries are each always greater than the first distance,wherein in each of the first, second, third and fourth pluralities,[Q] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor are uniformly spaced apart from one another the second distance as measured orthogonal therebetween,[R] the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor are uniformly spaced apart from one another the third distance as measured orthogonal therebetween,[S] the second distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective first conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective second conductor is occupied only by the dielectric, and[T] the third distance extending directly between the respective aligned right physical boundary of the respective superposed elongated conductor portion of the respective second conductor and the respective aligned left physical boundary of the respective superposed elongated conductor portion of the respective third conductor is occupied only by the dielectric. 113. The conductive arrangement of claim 112, at least partially embedded within a substrate. 114. The conductive arrangement of claim 113, further comprising a processor comprising one or more transistors, wherein the processor is attached to the substrate. 115. The conductive arrangement of claim 114, further comprising: [4.] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fifth conductor plate is positioned between the fourth and sixth conductor plates,[B] the fourth, fifth and sixth conductor plates are parallel to one another,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[5.] a first energy conductor plate and a second energy conductor plate; wherein [A] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the fifth conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[D] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates, and[E] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates, and[F] one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates. 116. The conductive arrangement of claim 114, further comprising: [4.] a first energy conductor plate and a second energy conductor plate; wherein [A] the first, second and third conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the second conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second and third conductor plates,[D] the first energy conductor plate is sandwiched between the first and second conductor plates, and[E] the second energy conductor plate is sandwiched between the second and third conductor plates. 117. The conductive arrangement of claim 115, wherein [G] two or more of the respective conductors of the first plurality are conductively connected to the processor,[H] two or more of the respective conductors of the second plurality are conductively connected to the processor,[I] two or more of the respective conductors of the third plurality are conductively connected to the processor,[J] two or more of the respective conductors of the fourth plurality are conductively connected to the processor, and[K] one or more of the first, second and third conductor plates is conductively connected to the processor. 118. The conductive arrangement of claim 116, wherein [F] two or more of the respective conductors of the first plurality are conductively connected to the processor,[G] two or more of the respective conductors of the second plurality are conductively connected to the processor,[H] two or more of the respective conductors of the third plurality are conductively connected to the processor,[I] two or more of the respective conductors of the fourth plurality are conductively connected to the processor, and[J] one or more of the first, second and third conductor plates is conductively connected to the processor. 119. A transmission line conductor arrangement comprising: 1.] a first conductor plate, a second conductor plate that is spaced apart from the first conductor plate, and a third conductor plate that is spaced apart from both the first and second conductor plates, and wherein [a] the second conductor plate is positioned between the first and third conductor plates,[b] the first, second and third conductor plates are parallel to one another, and[c] the first, second and third conductor plates are conductively connected to one another;2.] a first group of transmission line conductors and a second group of transmission line conductors, and wherein each respective transmission line conductor of the first group and each respective transmission line conductor of the second group comprises a respective superposed transmission line portion that is elongated and straight; wherein[A] the first and second group of transmission line conductors total six respective transmission line conductors, and wherein none of the conductor plates are conductively connected to any of the respective transmission line conductors,[B] the respective superposed transmission line portions of the first group are all 1) located between the first and second conductor plates,2) uniformly spaced apart from the first conductor plate by only a dielectric therebetween,3) uniformly spaced apart from the second conductor plate by only the dielectric therebetween, and4) arranged in close proximity to one another such that (a) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(b) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor, and(c) only the dielectric and the respective superposed transmission line portion of the respective second transmission line conductor occupies the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor,[C] the respective superposed transmission line portions of the second group are all 1) located between the second and third conductor plates,2) uniformly spaced apart from the second conductor plate by only the dielectric therebetween,3) uniformly spaced apart from the third conductor plate by only the dielectric therebetween, and4) arranged in close proximity to one another such that (a) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(b) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor, and(c) only the dielectric and the respective superposed transmission line portion of the respective second conductor occupies the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor,[D] the second conductor plate physically shields all the respective superposed transmission line portions of the first group from all the respective superposed transmission line portions of the second group,[E] the individual respective superposed transmission line portions of the respective first transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective first transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective first transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[F] the individual respective superposed transmission line portions of the respective second transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective second transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective second transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[G] the individual respective superposed transmission line portions of the respective third transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective third transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective third transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another. 120. A transmission line conductor arrangement comprising: 1.] a substrate;2.] a first conductor plate, a second conductor plate that is spaced apart from the first conductor plate, and a third conductor plate that is spaced apart from both the first and second conductor plates, and wherein [a] the second conductor plate is positioned between the first and third conductor plates,[b] the first, second and third conductor plates are parallel to one another, and[c] the first, second and third conductor plates are conductively connected to one another;3.] a first group of four transmission line conductors and a second group of four transmission line conductors, and wherein each respective transmission line conductor of the first group and each respective transmission line conductor of the second group comprises a respective superposed transmission line portion that is elongated and straight, and wherein the respective superposed transmission line portion is arranged and positioned within the substrate;wherein[A] the first and second group of transmission line conductors total eight respective transmission line conductors, and wherein none of the conductor plates are conductively connected to any of the respective transmission line conductors,[B] the respective superposed transmission line portions of the first group are all [a] located between the first and second conductor plates,[b] uniformly spaced apart from the first conductor plate by only a dielectric therebetween,[c] uniformly spaced apart from the second conductor plate by only the dielectric therebetween, and[d] arranged in close proximity to one another such that (a.) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(b.) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor,(c.) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective third transmission line conductor and the respective superposed transmission line portion of a respective fourth transmission line conductor, and(d.) only the dielectric and the respective superposed transmission line portions of the respective second and third transmission line conductors occupy the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor,[C] the respective superposed transmission line portions of the second group are all 1) located between the second and third conductor plates,2) uniformly spaced apart from the second conductor plate by only the dielectric therebetween,3) uniformly spaced apart from the third conductor plate by only the dielectric therebetween, and4) arranged in close proximity to one another such that (a) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(b) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor,(c) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective third transmission line conductor and the respective superposed transmission line portion of a respective fourth transmission line conductor, and(d) only the dielectric and the respective superposed transmission line portions of the respective second and third conductors occupy the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor,[D] the second conductor plate physically shields all the respective superposed transmission line portions of the first group from all the respective superposed transmission line portions of the second group,[E] the individual respective superposed transmission line portions of the respective first transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective first transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective first transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[F] the individual respective superposed transmission line portions of the respective second transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective second transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective second transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[G] the individual respective superposed transmission line portions of the respective third transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective third transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective third transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[H] the individual respective superposed transmission line portions of the respective fourth transmission line conductors of the first and second groups are together stacked in superposition such that a. the two respective fourth transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another, andb. the two respective fourth transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another. 121. The transmission line conductor arrangement of claim 119, wherein [H] in the first group, all of the respective superposed transmission line portions are arranged in a first direction orientation relative to one another,[I] in the second group, all of the respective superposed transmission line portions are arranged in the first direction orientation relative to one another, and[J] all of the respective superposed transmission line portions of the first and second groups are in parallel longitudinal alignment relative to one another. 122. The transmission line conductor arrangement of claim 121, wherein [K] in the first group, (a) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective second transmission line conductor is a first distance,(b) the shortest distance between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor is a second distance, and(c) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor is a third distance,[L] in the second group, (a) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective second transmission line conductor is the first distance,(b) the shortest distance between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor is the second distance, and(c) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor is the third distance. 123. The transmission line conductor arrangement of claim 122, wherein the first and second distances are equal. 124. The transmission line conductor arrangement of claim 122, wherein the first and second distances are not equal. 125. The transmission line conductor arrangement of claim 122, wherein in each of the first and second groups, the respective superposed transmission line portions of the first, second, and third transmission line conductors are arranged respectively from left to right. 126. The transmission line conductor arrangement of claim 120, wherein [I] in the first group, all of the respective superposed transmission line portions are arranged in a first direction orientation relative to one another,[J] in the second group, all of the respective superposed transmission line portions are arranged in the first direction orientation relative to one another, and[K] all of the respective superposed transmission line portions of the first and second groups are in parallel longitudinal alignment relative to one another. 127. The transmission line conductor arrangement of claim 126, wherein [L] in the first group, (a) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective second transmission line conductor is a first distance,(b) the shortest distance between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor is a second distance,(c) the shortest distance between the respective superposed transmission line portion of the respective third transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor is a third distance, and(d) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor is a fourth distance,[M] in the second group, (a) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective second transmission line conductor is the first distance,(b) the shortest distance between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor is the second distance,(c) the shortest distance between the respective superposed transmission line portion of the respective third transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor is the third distance, and(d) the shortest distance between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor is the fourth distance. 128. The transmission line conductor arrangement of claim 127, wherein the first and third distances are equal to one another. 129. The transmission line conductor arrangement of claim 127, wherein the first, second and third distances are equal to one another. 130. The transmission line conductor arrangement of claim 127, wherein in each of the first and second groups, the respective superposed transmission line portions of the first, second, third and fourth transmission line conductors are arranged respectively from left to right. 131. The transmission line conductor arrangement of claim 128, wherein in each of the first and second groups, the respective superposed transmission line portions of the first, second, third and fourth transmission line conductors are arranged respectively from left to right. 132. A conductor arrangement comprising: 1.] a substrate;2.] a shield structure that comprises three conductively connected conductor plates including: (a) an upper conductor plate,(b) a center conductor plate that is spaced apart from the upper conductor plate, and(c) a lower conductor plate that is spaced apart from both the upper and center conductor plates, wherein the upper, center and lower conductor plates are each physically parallel to one another, and wherein the center conductor plate is stacked between the upper and lower conductor plates;3.] a first group of four elongated conductors and a second group of four elongated conductors, and wherein each respective elongated conductor of the first group and each respective elongated conductor of the second group includes a respective superposed elongated straight section that is a three dimensional elongated conductor part of the respective elongated conductor; whereinA] none of the respective elongated conductors are conductively connected to any of the upper conductor plate, center conductor plate, and lower conductor plate,B] the upper, center and the lower conductor plates and all of the respective superposed elongated straight sections are located within the substrate,C] the upper, center and lower conductor plates are each larger in physical size than any one of the respective superposed elongated straight sections,D] the respective superposed elongated straight sections are each physically parallel to each one of the upper, center and lower conductor plates,E] the respective superposed elongated straight sections are physically parallel to one another,F] the respective superposed elongated straight sections are together oriented in common longitudinal alignment relative to one another,G] all of the respective superposed elongated straight sections of the first group are (1. uniformly spaced a first vertical distance apart from the upper conductor plate,(2. uniformly spaced a second vertical distance apart from the center conductor plate,(3. sandwiched between the upper and center conductor plates, and(4. located and grouped together so that (a.) relative to each other, the respective superposed elongated straight section of a respective first elongated conductor is located adjacent to the respective superposed elongated straight section of a respective second elongated conductor such that the respective superposed elongated straight section of the respective first elongated conductor and the respective superposed elongated straight section of the respective second elongated conductor are uniformly spaced apart from each other a first horizontal distance, and(b.) the respective superposed elongated straight section of the respective second elongated conductor is adjacent to the respective superposed elongated straight section of a respective third elongated conductor such that the respective superposed elongated straight section of the respective second elongated conductor and the respective superposed elongated straight section of the respective third elongated conductor are uniformly spaced apart from each other a second horizontal distance, and(c.) the respective superposed elongated straight section of the respective third elongated conductor is adjacent to the respective superposed elongated straight section of a respective fourth elongated conductor such that the respective superposed elongated straight section of the respective third elongated conductor and the respective superposed elongated straight section of the respective fourth elongated conductor are uniformly spaced apart from each other a third horizontal distance,H] all of the respective superposed elongated straight sections of the second group are (1. uniformly spaced apart a third vertical distance from the center conductor plate,(2. uniformly spaced apart a fourth vertical distance from the lower conductor plate,(3. sandwiched between the center and lower conductor plates, and(4. located and grouped together so that (a.) relative to each other, the respective superposed elongated straight section of a respective first elongated conductor is located adjacent to the respective superposed elongated straight section of a respective second elongated conductor such that the respective superposed elongated straight section of the respective first elongated conductor and the respective superposed elongated straight section of the respective second elongated conductor are uniformly spaced apart from each other the first horizontal distance, and(b.) the respective superposed elongated straight section of the respective second elongated conductor is adjacent to the respective superposed elongated straight section of a respective third elongated conductor such that the respective superposed elongated straight section of the respective second elongated conductor and the respective superposed elongated straight section of the respective third elongated conductor are uniformly spaced apart from each other the second horizontal distance, and(c.) the respective superposed elongated straight section of the respective third elongated conductor is adjacent to the respective superposed elongated straight section of a respective fourth elongated conductor such that the respective superposed elongated straight section of the respective third elongated conductor and the respective superposed elongated straight section of the respective fourth elongated conductor are uniformly spaced apart from each other the third horizontal distance,I] each one of the respective superposed elongated straight sections of the first group is shielded from each one of the respective superposed elongated straight sections of the second group by the center conductor plate located therebetween, andwherein together, in physical three-dimensional arrangement relative to each other,A] the respective superposed elongated straight sections of the respective first elongated conductors of the first and second groups are in superposition, andB] the respective superposed elongated straight sections of the respective second elongated conductors of the first and second groups are in superposition, andC] the respective superposed elongated straight sections of the respective third elongated conductors of the first and second groups are in superposition, andD] the respective superposed elongated straight sections of the respective fourth elongated conductors of the first and second groups are in superposition. 133. The conductor arrangement of claim 132, wherein each one of the respective elongated conductors is a respective data line conductor. 134. The conductor arrangement of claim 132, wherein each one of the respective elongated conductors is a respective transmission line conductor. 135. The conductor arrangement of claim 132, wherein each one of the respective elongated conductors is a respective bypass conductor. 136. The conductor arrangement of claim 132, wherein the second vertical distance is equal to the third vertical distance. 137. The conductor arrangement of claim 132, wherein the first horizontal distance is equal to the third horizontal distance. 138. The conductor arrangement of claim 132, wherein the first, second and third horizontal distances are equal to one another. 139. The transmission line conductor arrangement of claim 119, further comprising: 3.] a third group of transmission line conductors and a fourth group of transmission line conductors, wherein each respective transmission line conductor of the third group and each respective transmission line conductor of the fourth group comprises a respective superposed transmission line portion that is elongated and straight; wherein[A] the first, second, third and fourth group of transmission line conductors total twelve respective transmission line conductors, and wherein none of the first, second and third conductor plates are conductively connected to any of the respective transmission line conductors of the third and fourth groups,[B] the respective superposed transmission line portions of the third group are all 5) located between the first and second conductor plates,6) uniformly spaced apart from the first conductor plate by only the dielectric therebetween,7) uniformly spaced apart from the second conductor plate by only the dielectric therebetween, and8) arranged in close proximity to one another such that (d) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(e) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor, and(f) only the dielectric and the respective superposed transmission line portion of the respective second transmission line conductor occupies the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor,[C] the respective superposed transmission line portions of the fourth group are all 5) located between the second and third conductor plates,6) uniformly spaced apart from the second conductor plate by only the dielectric therebetween,7) uniformly spaced apart from the third conductor plate by only the dielectric therebetween, and8) arranged in close proximity to one another such that (d) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(e) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor, and(f) only the dielectric and the respective superposed transmission line portion of the respective second conductor occupies the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective third transmission line conductor,[D] the second conductor plate physically shields all the respective superposed transmission line portions of the third group from all the respective superposed transmission line portions of the fourth group,[E] the individual respective superposed transmission line portions of the respective first transmission line conductors of the third and fourth groups are together stacked in superposition such that a. the two respective first transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective first transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[F] the individual respective superposed transmission line portions of the respective second transmission line conductors of the third and fourth groups are together stacked in superposition such that a. the two respective second transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective second transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[G] the individual respective superposed transmission line portions of the respective third transmission line conductors of the third and fourth groups are together stacked in superposition such that a. the two respective third transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another, andb. the two respective third transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another. 140. The transmission line conductor arrangement of claim 139, wherein [H] in the first group, all of the respective superposed transmission line portions are arranged in a first direction orientation relative to one another,[I] in the second group, all of the respective superposed transmission line portions are arranged in the first direction orientation relative to one another,[J] in the third group, all of the respective superposed transmission line portions are arranged in a second direction orientation relative to one another,[K] in the fourth group, all of the respective superposed transmission line portions are arranged in the second direction orientation relative to one another,[L] all of the respective superposed transmission line portions of the first and second groups are in parallel longitudinal alignment relative to one another, and[M] all of the respective superposed transmission line portions of the third and fourth groups are in parallel longitudinal alignment relative to one another. 141. The transmission line conductor arrangement of claim 140, wherein the first direction orientation is the same as the second direction orientation. 142. The transmission line conductor arrangement of claim 140, wherein the first direction orientation is not substantially the same as the second direction orientation. 143. The transmission line conductor arrangement of claim 140, wherein all of the respective transmission line portions of the first, second, third and fourth groups are each in parallel longitudinal alignment relative to one another. 144. The transmission line conductor arrangement of claim 140, at least partially embedded within a substrate. 145. The transmission line conductor arrangement of claim 144, further comprising a processor comprising one or more transistors, wherein the processor is attached to the substrate. 146. The transmission line conductor arrangement for claim 145, further comprising: [4] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fourth, fifth and sixth conductor plates are each parallel to one another,[B] the fifth conductor plate is stacked between the fourth and sixth conductor plates,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[5] a first energy conductor plate and a second energy conductor plate; wherein [A] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the fifth conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[D] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates,[E] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates, and[F] one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates. 147. The transmission line conductor arrangement of claim 146, further comprising: [4] a first energy conductor plate and a second energy conductor plate; wherein [A] the first, second and third conductor plates are each larger in size than any one of the first and second energy conductor plates,[B] the first and second energy conductor plates are each parallel to the second conductor plate,[C] the first and second energy conductor plates are not conductively connected to any of the first, second and third conductor plates,[D] the first energy conductor plate is sandwiched between the first and second conductor plates, and[E] the second energy conductor plate is sandwiched between the second and third conductor plates. 148. The transmission line conductor arrangement of claim 146, wherein [L] two or more of the respective conductors of the first group are conductively connected to the processor,[M] two or more of the respective conductors of the second group are conductively connected to the processor,[N] two or more of the respective conductors of the third group are conductively connected to the processor,[0] two or more of the respective conductors of the fourth group are conductively connected to the processor, and[P] one or more of the first, second and third conductor plates is conductively connected to the processor. 149. The transmission line conductor arrangement for claim 147, wherein [K] two or more of the respective conductors of the first group are conductively connected to the processor,[L] two or more of the respective conductors of the second group are conductively connected to the processor,[M] two or more of the respective conductors of the third group are conductively connected to the processor,[N] two or more of the respective conductors of the fourth group are conductively connected to the processor, and[O] one or more of the first, second and third conductor plates is conductively connected to the processor. 150. The transmission line conductor arrangement of claim 120, further comprising: 4.] a third group of four transmission line conductors and a fourth group of four transmission line conductors, wherein each respective transmission line conductor of the third group and each respective transmission line conductor of the fourth group comprises a respective superposed transmission line portion that is elongated and straight; wherein[H] the third and fourth groups together total eight respective transmission line conductors, and wherein none of the first, second and third conductor plates are conductively connected to any of the respective transmission line conductors of the third and fourth groups,[I] the respective superposed transmission line portions of the third group are all 9) located between the first and second conductor plates,10) uniformly spaced apart from the first conductor plate by only the dielectric therebetween,11) uniformly spaced apart from the second conductor plate by only the dielectric therebetween, and12) arranged in close proximity to one another such that (g) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(h) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor, and(i) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective third transmission line conductor and the respective superposed transmission line portion of a respective fourth transmission line conductor, and(j) only the dielectric and the respective superposed transmission line portions of the respective second and third transmission line conductors occupy the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor,[J] the respective superposed transmission line portions of the fourth group are all 9) located between the second and third conductor plates,10) uniformly spaced apart from the second conductor plate by only the dielectric therebetween,11) uniformly spaced apart from the third conductor plate by only the dielectric therebetween, and12) arranged in close proximity to one another such that (g) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of a respective first transmission line conductor and the respective superposed transmission line portion of a respective second transmission line conductor, and(h) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective second transmission line conductor and the respective superposed transmission line portion of a respective third transmission line conductor,(i) only the dielectric occupies the space that is directly between the respective superposed transmission line portion of the respective third transmission line conductor and the respective superposed transmission line portion of a respective fourth transmission line conductor, and(j) only the dielectric and the respective superposed transmission line portions of the respective second and third conductors occupy the space directly between the respective superposed transmission line portion of the respective first transmission line conductor and the respective superposed transmission line portion of the respective fourth transmission line conductor,[K] the second conductor plate physically shields all the respective superposed transmission line portions of the third group from all the respective superposed transmission line portions of the fourth group,[L] the individual respective superposed transmission line portions of the respective first transmission line conductors of the third and fourth groups are together stacked in superposition such that a. the two respective first transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective first transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[M] the individual respective superposed transmission line portions of the respective second transmission line conductors of the third and fourth groups are together stacked in superposition such that a. the two respective second transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective second transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[N] the individual respective superposed transmission line portions of the respective third transmission line conductors of the third and fourth groups are together stacked in superposition such that a. the two respective third transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another,b. the two respective third transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another,[O] the individual respective superposed transmission line portions of the respective fourth transmission line conductors of the third and fourth groups are together stacked in superposition such thata. the two respective fourth transmission line conductors' respective superposed transmission line portions are equal sized structures relative to one another, andb. the two respective fourth transmission line conductors' respective superposed transmission line portions are equal shaped structures relative to one another. 151. The transmission line conductor arrangement of claim 150, wherein [N] in the first group, all of the respective superposed transmission line portions are arranged in a first direction orientation relative to one another,[O] in the second group, all of the respective superposed transmission line portions are arranged in the first direction orientation relative to one another,[P] in the third group, all of the respective superposed transmission line portions are arranged in a second direction orientation relative to one another,[Q] in the fourth group, all of the respective superposed transmission line portions are arranged in the second direction orientation relative to one another,[R] all of the respective superposed transmission line portions of the first and second groups are in parallel longitudinal alignment relative to one another, and[S] all of the respective superposed transmission line portions of the third and fourth groups are in parallel longitudinal alignment relative to one another. 152. The transmission line conductor arrangement of claim 151, wherein the first direction orientation is the same as the second direction orientation. 153. The transmission line conductor arrangement of claim 151, wherein the first direction orientation is not substantially the same as the second direction orientation. 154. The transmission line conductor arrangement of claim 151, wherein all of the respective transmission line portions of the first, second, third and fourth groups are each in parallel longitudinal alignment relative to one another. 155. The transmission line conductor arrangement of claim 151, further comprising a processor comprising one or more transistors, and wherein the processor is attached to the substrate. 156. The transmission line conductor arrangement for claim 155, further comprising: [6] a fourth conductor plate, a fifth conductor plate that is spaced apart from the fourth conductor plate, and a sixth conductor plate that is spaced apart from both the fourth and fifth conductor plates, wherein [A] the fourth, fifth and sixth conductor plates are each parallel to one another;[B] the fifth conductor plate is stacked between the fourth and sixth conductor plates,[C] the fourth, fifth and sixth conductor plates are conductively connected to one another;[7] a first energy conductor plate and a second energy conductor plate; wherein [G] the fourth, fifth and sixth conductor plates are each larger in size than any one of the first and second energy conductor plates,[H] the first and second energy conductor plates are each parallel to the fifth conductor plate,[I] the first and second energy conductor plates are not conductively connected to any of the first, second, third, fourth, fifth and sixth conductor plates,[J] the first energy conductor plate is sandwiched between the fourth and fifth conductor plates,[K] the second energy conductor plate is sandwiched between the fifth and sixth conductor plates, and[L] one or more of the fourth, fifth and sixth conductor plates is conductively connected to one or more of the first, second and third conductor plates. 157. The transmission line conductor arrangement of claim 151, further comprising: [5] a first energy conductor plate and a second energy conductor plate; wherein [F] the first, second and third conductor plates are each larger in size than any one of the first and second energy conductor plates,[G] the first and second energy conductor plates are each parallel to the second conductor plate,[H] the first and second energy conductor plates are not conductively connected to any of the first, second and third conductor plates,[I] the first energy conductor plate is sandwiched between the first and second conductor plates, and[J] the second energy conductor plate is sandwiched between the second and third conductor plates. 158. The transmission line conductor arrangement of claim 155, wherein [Q] two or more of the respective conductors of the first group are conductively connected to the processor,[R] two or more of the respective conductors of the second group are conductively connected to the processor,[S] two or more of the respective conductors of the third group are conductively connected to the processor,[T] two or more of the respective conductors of the fourth group are conductively connected to the processor, and[U] one or more of the first, second and third conductor plates is conductively connected to the processor. 159. The transmission line conductor arrangement for claim 156, wherein [P] two or more of the respective conductors of the first group are conductively connected to the processor,[Q] two or more of the respective conductors of the second group are conductively connected to the processor,[R] two or more of the respective conductors of the third group are conductively connected to the processor,[S] two or more of the respective conductors of the fourth group are conductively connected to the processor, and[T] one or more of the first, second and third conductor plates is conductively connected to the processor. 160. A conductor arrangement comprising: 1.] a conductive structure having at least three conductively connected conductor plates that include: (d) an upper conductor plate,(e) a center conductor plate that is spaced apart from the upper conductor plate, and(f) a lower conductor plate that is spaced apart from both the upper and center conductor plates, wherein the upper, center and lower conductor plates are each parallel to one another, and wherein the center conductor plate is stacked between the upper and lower conductor plates;2.] a first group of three electrical conductors and second group of three electrical conductors, and wherein each respective electrical conductor of the first and second groups includes a respective superposed electrical conductor straight section that is elongated;whereinJ] none of the respective electrical conductors of the first and second groups are conductively connected to the conductive structure,K] the respective superposed electrical conductor straight sections of the first and second groups are each parallel to one another,L] all of the respective superposed electrical conductor straight sections of the first and second groups are oriented in common longitudinal alignment relative to one another,M] the respective superposed electrical conductor straight sections of the first group are together (5. uniformly spaced apart a first vertical distance from the upper conductor plate,(6. uniformly spaced apart a second vertical distance from the center conductor plate,(7. sandwiched between the upper and center conductor plates, andN] the respective superposed electrical conductor straight sections of the first group are located together so that (d.) relative to each other, the respective superposed electrical conductor straight section of a respective first electrical conductor is located adjacent to the respective superposed electrical conductor straight section of a respective second electrical conductor such that the respective superposed electrical conductor straight section of the respective first electrical conductor and the respective superposed electrical conductor straight section of the respective second electrical conductor are separated by a first horizontal distance, and(e.) the respective superposed electrical conductor straight section of the respective second electrical conductor is adjacent to the respective superposed electrical conductor straight section of a respective third electrical conductor such that the respective superposed electrical conductor straight section of the respective second electrical conductor and the respective superposed electrical conductor straight section of the respective third electrical conductor are separated from each other by a second horizontal distance,O] the respective superposed electrical conductor straight sections of the second group are together (1. uniformly spaced apart a third vertical distance from the center conductor plate,(2. uniformly spaced apart a fourth vertical distance from the lower conductor plate,(3. sandwiched between the center and lower conductor plates, andP] the respective superposed electrical conductor straight sections of the second group are located together so that (d.) relative to each other, the respective superposed electrical conductor straight section of a respective first electrical conductor is located adjacent to the respective superposed electrical conductor straight section of a respective second electrical conductor such that the respective superposed electrical conductor straight section of the respective first electrical conductor and the respective superposed electrical conductor straight section of the respective second electrical conductor are separated by the first horizontal distance, and(e.) the respective superposed electrical conductor straight section of the respective second electrical conductor is adjacent to the respective superposed electrical conductor straight section of a respective third electrical conductor such that the respective superposed electrical conductor straight section of the respective second electrical conductor and the respective superposed electrical conductor straight section of the respective third electrical conductor are separated from each other by the second horizontal distance,Q] all of the respective superposed electrical conductor straight sections of the first group are shielded from all of the respective superposed electrical conductor straight sections of the second group by the center conductor plate stacked therebetween, and3.] a grouping of three dimensional alignment arrangements of particular respective superposed electrical conductor straight sections of the first and second groups that includes: (1) the respective first electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other, and(2) the respective second electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other, and(3) the respective third electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other. 161. The conductor arrangement of claim 160, further comprising: 4.] a third group of three electrical conductors and fourth group of three electrical conductors, and wherein each respective electrical conductor of the third and fourth groups includes a respective superposed electrical conductor straight section that is elongated;whereinA] none of the respective electrical conductors are conductively connected to the conductive structure,B] the upper, center and lower conductor plates are each larger in size than any one of the respective superposed electrical conductor straight sections,C] none of the respective electrical conductors of the third and fourth groups are conductively connected to any one of the respective electrical conductors of the first and second groups,D] the respective superposed electrical conductor straight sections of the third and fourth groups are each parallel to one another,E] all of the respective superposed electrical conductor straight sections of the third and fourth groups are oriented in common longitudinal alignment relative to one another,F] the respective superposed electrical conductor straight sections of the third group are together (1. uniformly spaced apart a fifth vertical distance from the upper conductor plate,(2. uniformly spaced apart a sixth vertical distance from the center conductor plate,(3. sandwiched between the upper and center conductor plates, andG] the respective superposed electrical conductor straight sections of the third group are located together so that (1. relative to each other, the respective superposed electrical conductor straight section of a respective first electrical conductor is located adjacent to the respective superposed electrical conductor straight section of a respective second electrical conductor such that the respective superposed electrical conductor straight section of the respective first electrical conductor and the respective superposed electrical conductor straight section of the respective second electrical conductor are separated by a third horizontal distance, and(2. the respective superposed electrical conductor straight section of the respective second electrical conductor is adjacent to the respective superposed electrical conductor straight section of a respective third electrical conductor such that the respective superposed electrical conductor straight section of the respective second electrical conductor and the respective superposed electrical conductor straight section of the respective third electrical conductor are separated from each other by a fourth horizontal distance,H] the respective superposed electrical conductor straight sections of the fourth group are together (1. uniformly spaced apart a seventh vertical distance from the center conductor plate,(2. uniformly spaced apart an eighth vertical distance from the lower conductor plate,(3. sandwiched between the center and lower conductor plates, andI] the respective superposed electrical conductor straight sections of the fourth group are located together so that (1. relative to each other, the respective superposed electrical conductor straight section of a respective first electrical conductor is located adjacent to the respective superposed electrical conductor straight section of a respective second electrical conductor such that the respective superposed electrical conductor straight section of the respective first electrical conductor and the respective superposed electrical conductor straight section of the respective second electrical conductor are separated by the third horizontal distance, and(2. the respective superposed electrical conductor straight section of the respective second electrical conductor is adjacent to the respective superposed electrical conductor straight section of a respective third electrical conductor such that the respective superposed electrical conductor straight section of the respective second electrical conductor and the respective superposed electrical conductor straight section of the respective third electrical conductor are separated from each other by the fourth horizontal distance,J] all of the respective superposed electrical conductor straight sections of the third group are shielded from all of the respective superposed electrical conductor straight sections of the fourth group by the center conductor plate stacked therebetween,5.] a grouping of three dimensional alignment arrangements of particular respective superposed electrical conductor straight sections of the third and fourth groups that includes: (1) the respective first electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other, and(2) the respective second electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other, and(3) the respective third electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other. 162. The conductor arrangement of claim 160, further comprising: 4.] a third group of three electrical conductors and fourth group of three electrical conductors, and wherein each respective electrical conductor of the third and fourth groups includes a respective superposed electrical conductor straight section that is elongated;whereinA] none of the respective electrical conductors are conductively connected to the conductive structure,B] the conductive structure is larger in size than any one of the respective superposed electrical conductor straight sections,C] none of the respective electrical conductors of the third and fourth groups are conductively connected to any one of the respective electrical conductors of the first and second groups,D] the respective superposed electrical conductor straight sections of the third and fourth groups are each parallel to one another,E] all of the respective superposed electrical conductor straight sections of the third and fourth groups are oriented in common longitudinal alignment relative to one another,F] the respective superposed electrical conductor straight sections of the third group are together (1. uniformly spaced apart the first vertical distance from the upper conductor plate,(2. uniformly spaced apart the second vertical distance from the center conductor plate,(3. sandwiched between the upper and center conductor plates, andG] the respective superposed electrical conductor straight sections of the third group are located together so that (1. relative to each other, the respective superposed electrical conductor straight section of a respective first electrical conductor is located adjacent to the respective superposed electrical conductor straight section of a respective second electrical conductor such that the respective superposed electrical conductor straight section of the respective first electrical conductor and the respective superposed electrical conductor straight section of the respective second electrical conductor are separated by the first horizontal distance, and(2. the respective superposed electrical conductor straight section of the respective second electrical conductor is adjacent to the respective superposed electrical conductor straight section of a respective third electrical conductor such that the respective superposed electrical conductor straight section of the respective second electrical conductor and the respective superposed electrical conductor straight section of the respective third electrical conductor are separated from each other by the second horizontal distance,H] the respective superposed electrical conductor straight sections of the fourth group are together (1. uniformly spaced apart the third vertical distance from the center conductor plate,(2. uniformly spaced apart the fourth vertical distance from the lower conductor plate,(3. sandwiched between the center and lower conductor plates, andI] the respective superposed electrical conductor straight sections of the fourth group are located together so that (1. relative to each other, the respective superposed electrical conductor straight section of a respective first electrical conductor is located adjacent to the respective superposed electrical conductor straight section of a respective second electrical conductor such that the respective superposed electrical conductor straight section of the respective first electrical conductor and the respective superposed electrical conductor straight section of the respective second electrical conductor are separated by the first horizontal distance, and(2. the respective superposed electrical conductor straight section of the respective second electrical conductor is adjacent to the respective superposed electrical conductor straight section of a respective third electrical conductor such that the respective superposed electrical conductor straight section of the respective second electrical conductor and the respective superposed electrical conductor straight section of the respective third electrical conductor are separated from each other by the second horizontal distance,J] all of the respective superposed electrical conductor straight sections of the third group are shielded from all of the respective superposed electrical conductor straight sections of the fourth group by the center conductor plate stacked therebetween,5.] a grouping of three dimensional alignment arrangements of particular respective superposed electrical conductor straight sections of the third and fourth groups that includes: (1) the respective first electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other, and(2) the respective second electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other, and(3) the respective third electrical conductors' respective superposed electrical conductor straight sections in superposition relative to each other. 163. The conductor arrangement of claim 160, further comprising a substrate; and wherein each one of the respective superposed electrical conductor straight sections is located within the substrate. 164. The conductor arrangement of claim 161, further comprising a substrate; and wherein each one of the respective superposed electrical conductor straight sections is located within the substrate. 165. The conductor arrangement of claim 162, further comprising a substrate; and wherein each one of the respective superposed electrical conductor straight sections is located within the substrate. 166. The conductor arrangement of claim 160, wherein each one of the respective electrical conductors is a respective data line. 167. The conductor arrangement of claim 161, wherein each one of the respective electrical conductors is a respective data line. 168. The conductor arrangement of claim 162, wherein each one of the respective electrical conductors is a respective data line. 169. The conductor arrangement of claim 163, wherein each one of the respective electrical conductors is a respective data line. 170. The conductor arrangement of claim 164, wherein each one of the respective electrical conductors is a respective data line. 171. The conductor arrangement of claim 165, wherein each one of the respective electrical conductors is a respective data line. 172. A line conductor arrangement comprising: 1.] a substrate;2.] three conductively connected shields including: (1) a first shield,(2) a second shield that is spaced apart from the first shield, and(3) a third shield that is spaced apart from both of the first and second shields, and wherein the first, second and third shields are each (a.) a conductive shield,(b.) at least partially embedded within the substrate, and(c.) stacked parallel to one another such that the second shield is located 1) below the first shield,2) above the third shield, and3) between the first and third shields;3.] a first grouping of four individual line conductor structures, and wherein the four individual line conductor structures of the first grouping are (1) each horizontally aligned in a close proximity arrangement relative to at least one of the other individual line conductor structures of the first grouping, and(2) each positioned in the close proximity arrangement within the space between the first and second shields;4.] a second grouping of four individual line conductor structures, and wherein the four individual line conductor structures of the second grouping are (1) each horizontally aligned in the close proximity arrangement relative to at least one of the other individual line conductor structures of the second grouping, and(2) each positioned in the close proximity arrangement within the space between the second and third shields; whereinA} the three conductively connected shields are each larger in size than any one of the individual line conductor structures,B} the three conductively connected shields are each parallel to all of the individual line conductor structures,C} the individual line conductor structures are each embedded within the substrate,D} the individual line conductor structures of the first grouping are not the individual line conductor structures of the second grouping,E} each of the individual line conductor structures of the first and second groupings is a respective elongated straight portion of a respective larger individual, elongated line conductor of the line conductor arrangement,F} each of the individual line conductor structures belongs to a different respective larger individual, elongated line conductor of the line conductor arrangement,G} none of the three conductively connected shields are conductively attached to any of the respective larger individual, elongated line conductors,H} each of the respective larger individual, elongated line conductors is at least partially embedded within the substrate such that within the substrate, the respective larger individual, elongated line conductors are each conductively isolated from one another,I} the individual line conductor structures are aligned parallel to one another such that all of the individual line conductor structures are arranged together in the same physically longitudinal structure orientation,J} each of the individual line conductor structures of the first grouping is vertically aligned to only one corresponding individual line conductor structure of the second grouping and each of the individual line conductor structures of the second grouping is vertically aligned to only one corresponding individual line conductor structure of the first grouping, such that the first and second groupings both include (1) a respective first individual line conductor structure such that both respective first individual line conductor structures of the first and second groupings are together (a.) physically shielded from one another by the second shield located therebetween, and(b.) in superposition,(2) a respective second individual line conductor structure such that both respective second individual line conductor structures of the first and second groupings are together (a.) physically shielded from one another by the second shield located therebetween, and(b.) in superposition,(3) a respective third individual line conductor structure such that both respective third individual line conductor structures of the first and second groupings are together (a.) physically shielded from one another by the second shield located therebetween, and(b.) in superposition,(4) a respective fourth individual line conductor structure such that both respective fourth individual line conductor structures of the first and second groupings are together (a.) physically shielded from one another by the second shield located therebetween; and(b.) in superposition. 173. A straight conductor arrangement comprising: 1.] a substrate;2.] three conductively connected conductive shields including: (1) a first shield,(2) a second shield that is spaced apart from the first shield, and(3) a third shield that is spaced apart from both of the first and second shields, and wherein the first, second and third shields are each (a.) at least partially embedded within the substrate, and(b.) stacked parallel to one another such that the second shield is located 1) below the first shield,2) above the third shield, and3) between the first and third shields;3.] a first grouping of four individual structurally aligned straight conductors, and wherein the four individual structurally aligned straight conductors of the first grouping are (1) each physically aligned in close proximity relative to at least one of the other individual structurally aligned straight conductors of the first grouping,(2) each physically positioned in a side by side arrangement to at least one of the other individual structurally aligned straight conductors of the first grouping within the space between the first and second shields;4.] a second grouping of four individual structurally aligned straight conductors, and wherein the four individual structurally aligned straight conductors of the second grouping are (1) each physically aligned in close proximity relative to at least one of the other individual structurally aligned straight conductors of the second grouping,(2) each physically positioned in the side by side arrangement to at least one of the other individual structurally aligned straight conductors of the second grouping within the space between the second and third shields; whereinA} the three conductively connected shields are parallel to all of the individual structurally aligned straight conductors,B} the three conductively connected shields are each larger in size than any one of the individual structurally aligned straight conductors,C} the individual structurally aligned straight conductors are embedded within the substrate,D} the individual structurally aligned straight conductors of the first grouping are not the individual structurally aligned straight conductors of the second grouping,E} each of the individual structurally aligned straight conductors of the first and second groupings is a respective individual superposed elongated conductor straight portion of a respective larger individual, elongated conductor of the straight conductor arrangement,F} each of the individual structurally aligned straight conductors of the first and second groupings belongs to a different respective larger individual, elongated conductor of the straight conductor arrangement,G} none of the three conductively connected shields are conductively attached to any of the respective larger individual, elongated conductors,H} the respective larger individual, elongated conductors are each at least partially embedded within the substrate such that within the substrate, the respective larger individual, elongated conductors are each conductively isolated from one another,I} the individual structurally aligned straight conductors are aligned parallel to one another such that all of the individual structurally aligned straight conductors are arranged together in the same physically longitudinal structure orientation,J} each of the individual structurally aligned straight conductors of the first grouping is vertically aligned to only one corresponding individual structurally aligned straight conductor of the second grouping and each of the individual structurally aligned straight conductors of the second grouping is vertically aligned to only one corresponding individual structurally aligned straight conductor of the first grouping, such that the first and second groupings both include [1] a respective first individual structurally aligned straight conductor such that both respective first individual structurally aligned straight conductors of the first and second groupings are together [a] physically shielded from one another by the second shield located therebetween, and[b] in a first superposed alignment arrangement,[2] a respective second individual structurally aligned straight conductor such that both respective second individual structurally aligned straight conductors of the first and second groupings are together [a] physically shielded from one another by the second shield located therebetween, and[b] in a second superposed alignment arrangement,[3] a respective third individual structurally aligned straight conductor such that both respective third individual structurally aligned straight conductors of the first and second groupings are together [a] physically shielded from one another by the second shield located therebetween, and[b] in a third superposed alignment arrangement,[4] a respective fourth individual structurally aligned straight conductor such that both respective fourth individual structurally aligned straight conductors of the first and second groupings are together [a] physically shielded from one another by the second shield located therebetween; and[b] in a fourth superposed alignment arrangement. 174. The straight conductor arrangement of claim 173, further comprising: 5.] a microprocessor; wherein [a] the microprocessor is attached to the substrate,[b] the microprocessor is conductively connected to each one of the respective larger individual, elongated conductors of the straight conductor arrangement,6.] a first circuit assembly that includes [a] the respective first individual structurally aligned straight conductor of the first grouping,[b] the respective second individual structurally aligned straight conductor of the first grouping, and[c] the microprocessor,7.] a second circuit assembly that includes [a] the respective third individual structurally aligned straight conductor of the first grouping,[b] the respective fourth individual structurally aligned straight conductor of the first grouping, and[c] the microprocessor,8.] a third circuit assembly that includes [a] the respective first individual structurally aligned straight conductor of the second grouping,[b] the respective second individual structurally aligned straight conductor of the second grouping, and[c] the microprocessor, and9.] a fourth circuit assembly that includes [a] the respective third individual structurally aligned straight conductor of the second grouping,[d] the respective fourth individual structurally aligned straight conductor of the second grouping, and[e] the microprocessor. 175. The straight conductor arrangement of claim 174, further comprising: 10.]a first common conductor plate;11.]a second common conductor plate that is spaced apart from the first common conductor plate; and12.]a third common conductor plate that is spaced apart from both the first and second common conductor plates;wherein [a] the second common conductor plate is positioned between the first and third common conductor plates,[b] the first, second and third common conductor plates are stacked parallel to one another, and[c] the first, second and third common conductor plates are conductively connected to one another;13.]a first plate-shaped conductor; and14.]a second plate-shaped conductor;wherein [a] the first, second and third common conductor plates are each larger in size than any one of the first and second plate-shaped conductors,[b] the first and second plate-shaped conductors are each parallel to the first, second and third common conductor plates,[c] the first and second plate-shaped conductors are each not conductively connected to any of the first, second and third common conductor plates,[d] the first and second plate-shaped conductors are each not conductively connected to any of the first, second and third shields,[e] the first plate-shaped conductor is stacked between the first and second common conductor plates,[f] the second plate-shaped conductor is stacked between the second and third common conductor plates, and[g] the first and second plate-shaped conductors and the first, second and third common conductor plates are all at least partially embedded within the substrate. 176. The straight conductor arrangement of claim 175, wherein [a] the first circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the second grouping are of the first circuit assembly,[b] the second circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the second grouping are of the second circuit assembly,[c] the third circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the first grouping are of the third circuit assembly, and[d] the fourth circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the first grouping are of the fourth circuit assembly. 177. The straight conductor arrangement of claim 174, wherein [a] the first circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the second grouping are of the first circuit assembly,[b] the second circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the second grouping are of the second circuit assembly,[c] the third circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the first grouping are of the third circuit assembly, and[d] the fourth circuit assembly is configured such that none of the four individual structurally aligned straight conductors of the first grouping are of the fourth circuit assembly. 178. The straight conductor arrangement of claim 176, wherein the first, second, third and fourth circuit assemblies are separate from one another. 179. The straight conductor arrangement of claim 177, wherein the first, second, third and fourth circuit assemblies are separate from one another. 180. The straight conductor arrangement of claim 176, wherein when the straight conductor arrangement is energized, the first, second, third and fourth circuit assemblies operate separately from one another. 181. The straight conductor arrangement of claim 177, wherein when the straight conductor arrangement is energized, the first, second, third and fourth circuit assemblies operate separately from one another. 182. The straight conductor arrangement of claim 180, wherein one or both of the first and second plate-shaped conductors is part of a fifth circuit assembly that includes at least an energy source. 183. The straight conductor arrangement of claim 180, wherein when the respective first individual structurally aligned straight conductors of the first and second groupings are both energized, portions of energy arrive simultaneously within the first superposed alignment arrangement. 184. The straight conductor arrangement of claim 183, wherein when the respective second individual structurally aligned straight conductors of the first and second groupings are both energized, portions of energy arrive simultaneously within the second superposed alignment arrangement. 185. The straight conductor arrangement of claim 181, wherein when the respective third individual structurally aligned straight conductors of the first and second groupings are both energized, portions of energy arrive simultaneously within the third superposed alignment arrangement. 186. The straight conductor arrangement of claim 185, wherein when the respective fourth individual structurally aligned straight conductors of the first and second groupings are both energized, portions of energy arrive simultaneously within the fourth superposed alignment arrangement. 187. The straight conductor arrangement of claim 181, wherein when the straight conductor arrangement is energized, any one or more of first, second and third shields are the physical location of a voltage reference for electrical signals propagating along any one or more of the first, second, third and fourth circuit assemblies. 188. The straight conductor arrangement of claim 184, wherein any one or more of the first, second and third shields are configured as a physical location for voltage reference utilized by energy propagating to or from the microprocessor when the microprocessor is energized. 189. The straight conductor arrangement of claim 188, wherein one or both of the first and second plate-shaped conductors is part of a fifth circuit assembly that includes an energy source. 190. The straight conductor arrangement of claim 177, wherein [a] the first, second, third and fourth circuit assemblies are separate from one another,[b] in the first grouping, (1) only a dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) only the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor, and(3) only the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor,[c] in the second grouping, (1) only the dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) only the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor, and(3) only the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor, andwherein (1) only the dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor of the first grouping and the second shield,(2) only the dielectric occupies the space that is directly between the second shield and the respective first individual structurally aligned straight conductor of the second grouping,(3) only the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor of the first grouping and the second shield,(4) only the dielectric occupies the space that is directly between the second shield and the respective second individual structurally aligned straight conductor of the second grouping,(5) only the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor of the first grouping and the second shield,(6) only the dielectric occupies the space that is directly between the second shield and the respective third individual structurally aligned straight conductor of the second grouping,(7) only the dielectric occupies the space that is directly between the respective fourth individual structurally aligned straight conductor of the first grouping and the second shield, and(8) only the dielectric occupies the space that is directly between the second shield and the respective fourth individual structurally aligned straight conductor of the second grouping. 191. The straight conductor arrangement of claim 176, wherein [a] the first, second, third and fourth circuit assemblies are separate from one another,[b] in the first grouping, (1) no conductor occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) no conductor occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor,(3) no conductor occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor,(4) a dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(5) the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor, and(6) the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor,[c] in the second grouping, (1) no conductor occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) no conductor occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor,(3) no conductor occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor,(4) the dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(5) the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor,(6) the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor, andwherein (1) no conductor occupies the space that is directly between the respective first individual structurally aligned straight conductor of the first grouping and the second shield,(2) no conductor occupies the space that is directly between the second shield and the respective first individual structurally aligned straight conductor of the second grouping,(3) no conductor occupies the space that is directly between the respective second individual structurally aligned straight conductor of the first grouping and the second shield,(4) no conductor occupies the space that is directly between the second shield and the respective second individual structurally aligned straight conductor of the second grouping,(5) no conductor occupies the space that is directly between the respective third individual structurally aligned straight conductor of the first grouping and the second shield,(6) no conductor occupies the space that is directly between the second shield and the respective third individual structurally aligned straight conductor of the second grouping,(7) no conductor occupies the space that is directly between the respective fourth individual structurally aligned straight conductor of the first grouping and the second shield, and(8) no conductor occupies the space that is directly between the second shield and the respective fourth individual structurally aligned straight conductor of the second grouping.(9) the dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor of the first grouping and the second shield,(10) the dielectric occupies the space that is directly between the second shield and the respective first individual structurally aligned straight conductor of the second grouping,(11) the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor of the first grouping and the second shield,(12) the dielectric occupies the space that is directly between the second shield and the respective second individual structurally aligned straight conductor of the second grouping,(13) the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor of the first grouping and the second shield,(14) the dielectric occupies the space that is directly between the second shield and the respective third individual structurally aligned straight conductor of the second grouping,(15) the dielectric occupies the space that is directly between the respective fourth individual structurally aligned straight conductor of the first grouping and the second shield, and(16) the dielectric occupies the space that is directly between the second shield and the respective fourth individual structurally aligned straight conductor of the second grouping. 192. The straight conductor arrangement of claim 176, wherein [a] the first, second, third and fourth circuit assemblies are separate from one another,[b] in the first grouping, (1) no conductor occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) no conductor occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor,(3) no conductor occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor, and[c] in the second grouping, (1) no conductor occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) no conductor occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor,(3) no conductor occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor, andwherein (1) no conductor occupies the space that is directly between the respective first individual structurally aligned straight conductor of the first grouping and the second shield,(2) no conductor occupies the space that is directly between the second shield and the respective first individual structurally aligned straight conductor of the second grouping,(3) no conductor occupies the space that is directly between the respective second individual structurally aligned straight conductor of the first grouping and the second shield,(4) no conductor occupies the space that is directly between the second shield and the respective second individual structurally aligned straight conductor of the second grouping,(5) no conductor occupies the space that is directly between the respective third individual structurally aligned straight conductor of the first grouping and the second shield,(6) no conductor occupies the space that is directly between the second shield and the respective third individual structurally aligned straight conductor of the second grouping,(7) no conductor occupies the space that is directly between the respective fourth individual structurally aligned straight conductor of the first grouping and the second shield, and(8) no conductor occupies the space that is directly between the second shield and the respective fourth individual structurally aligned straight conductor of the second grouping. 193. The straight conductor arrangement of claim 192, wherein [a] in the first grouping, (1) a dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor, and(3) the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor,[b] in the second grouping, (1) the dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor and the respective second individual structurally aligned straight conductor,(2) the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor and the respective third individual structurally aligned straight conductor, and(3) the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor and the respective fourth individual structurally aligned straight conductor, andwherein (1) the dielectric occupies the space that is directly between the respective first individual structurally aligned straight conductor of the first grouping and the second shield,(2) the dielectric occupies the space that is directly between the second shield and the respective first individual structurally aligned straight conductor of the second grouping,(3) the dielectric occupies the space that is directly between the respective second individual structurally aligned straight conductor of the first grouping and the second shield,(4) the dielectric occupies the space that is directly between the second shield and the respective second individual structurally aligned straight conductor of the second grouping,(5) the dielectric occupies the space that is directly between the respective third individual structurally aligned straight conductor of the first grouping and the second shield,(6) the dielectric occupies the space that is directly between the second shield and the respective third individual structurally aligned straight conductor of the second grouping,(7) the dielectric occupies the space that is directly between the respective fourth individual structurally aligned straight conductor of the first grouping and the second shield, and(8) the dielectric occupies the space that is directly between the second shield and the respective fourth individual structurally aligned straight conductor of the second grouping. 194. The straight conductor arrangement of claim 190, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement includes a respective first conductive end and a respective second conductive end. 195. The straight conductor arrangement of claim 191, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement includes a respective first conductive end and a respective second conductive end; and wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor. 196. The straight conductor arrangement of claim 192, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement is configured as a bypass conductor. 197. The straight conductor arrangement of claim 193, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement is configured as a feed-through conductor. 198. The straight conductor arrangement of claim 194, wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor. 199. The straight conductor arrangement of claim 198, wherein one or more of the first, second and third shields is conductively connected to the microprocessor. 200. The straight conductor arrangement of claim 195, wherein one or more of the first, second and third common conductor plates are conductively connected to one or more of the first, second and third shields; and wherein one or more of the first, second and third shields is conductively connected to the microprocessor. 201. The straight conductor arrangement of claim 193, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement includes a respective first conductive end and a respective second conductive end, wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor,wherein one or more of the first, second and third common conductor plates are conductively connected to one or more of the first, second and third shields; andwherein one or more of the first, second and third shields is conductively connected to the microprocessor. 202. The straight conductor arrangement of claim 201, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement is a respective data line conductor of the straight conductor arrangement. 203. The straight conductor arrangement of claim 202, wherein each of the respective larger individual, elongated conductors of the straight conductor arrangement is a respective signal conductor of the straight conductor arrangement. 204. The line conductor arrangement of claim 172, further comprising: 5.] a microprocessor; wherein [a] the microprocessor is attached to the substrate,[b] the microprocessor is conductively connected to each one of the respective larger individual, elongated line conductors of the line conductor arrangement,6.] a first circuit assembly that includes [a] the respective first individual line conductor structure of the first grouping,[b] the respective second individual line conductor structure of the first grouping, and[c] the microprocessor,7.] a second circuit assembly that includes [a] the respective third individual line conductor structure of the first grouping,[b] the respective fourth individual line conductor structure of the first grouping, and[c] the microprocessor,8.] a third circuit assembly that includes [a] the respective first individual line conductor structure of the second grouping,[b] the respective second individual line conductor structure of the second grouping, and[c] the microprocessor, and9.] a fourth circuit assembly that includes [a] the respective third individual line conductor structure of the second grouping,[b] the respective fourth individual line conductor structure of the second grouping, and[c] the microprocessor. 205. The line conductor arrangement of claim 204, further comprising: 10.] a first common conductor plate;11.] a second common conductor plate that is spaced apart from the first common conductor plate; and12.]a third common conductor plate that is spaced apart from both the first and second common conductor plates;wherein [a] the second common conductor plate is positioned between the first and third common conductor plates,[b] the first, second and third common conductor plates are stacked parallel to one another, and[c] the first, second and third common conductor plates are conductively connected to one another;13.]a first plate-shaped conductor; and14.]a second plate-shaped conductor;wherein [a] the first, second and third common conductor plates are each larger in size than any one of the first and second plate-shaped conductors,[b] the first and second plate-shaped conductors are each parallel to the first, second and third common conductor plates,[c] the first and second plate-shaped conductors are each not conductively connected to the first, second and third common conductor plates,[d] the first and second plate-shaped conductors are each not conductively connected to any of the three conductively connected shields,[e] the first plate-shaped conductor is stacked between the first and second common conductor plates,[f] the second plate-shaped conductor is stacked between the second and third common conductor plates, and[g] the first and second plate-shaped conductors and the first, second and third common conductor plates are all at least partially embedded within the substrate. 206. The line conductor arrangement of claim 205, wherein [a] the first circuit assembly is configured such that none of the four individual line conductor structures of the second grouping are of the first circuit assembly,[b] the second circuit assembly is configured such that none of the four individual line conductor structures of the second grouping are of the second circuit assembly,[c] the third circuit assembly is configured such that none of the four individual line conductor structures of the first grouping are of the third circuit assembly, and[d] the fourth circuit assembly is configured such that none of the four individual line conductor structures of the first grouping are of the fourth circuit assembly. 207. The line conductor arrangement of claim 204, wherein [a] the first circuit assembly is configured such that none of the four individual line conductor structures of the second grouping are of the first circuit assembly,[b] the second circuit assembly is configured such that none of the four individual line conductor structures of the second grouping are of the second circuit assembly,[c] the third circuit assembly is configured such that none of the four individual line conductor structures of the first grouping are of the third circuit assembly, and[d] the fourth circuit assembly is configured such that none of the four individual line conductor structures of the first grouping are of the fourth circuit assembly. 208. The line conductor arrangement of claim 206, wherein the first, second, third and fourth circuit assemblies are separate from one another. 209. The line conductor arrangement of claim 207, wherein the first, second, third and fourth circuit assemblies are separate from one another. 210. The line conductor arrangement of claim 207, wherein when the line conductor arrangement is energized, the first, second, third and fourth circuit assemblies operate separately from one another. 211. The line conductor arrangement of claim 206, wherein when the line conductor arrangement is energized, the first, second, third and fourth circuit assemblies operate separately from one another. 212. The line conductor arrangement of claim 211, wherein each of the individual line conductor structures is a feed-through conductor. 213. The line conductor arrangement of claim 207, wherein [a] the first, second, third and fourth circuit assemblies are separate from one another,[b] in the first grouping, (1) only a dielectric occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) only the dielectric occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure, and(3) only the dielectric occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure,[c] in the second grouping, (1) only the dielectric occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) only the dielectric occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure, and(3) only the dielectric occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure, andwherein (1) only the dielectric occupies the space that is directly between the respective first individual line conductor structure of the first grouping and the second shield,(2) only the dielectric occupies the space that is directly between the second shield and the respective first individual line conductor structure of the second grouping,(3) only the dielectric occupies the space that is directly between the respective second individual line conductor structure of the first grouping and the second shield,(4) only the dielectric occupies the space that is directly between the second shield and the respective second individual line conductor structure of the second grouping,(5) only the dielectric occupies the space that is directly between the respective third individual line conductor structure of the first grouping and the second shield,(6) only the dielectric occupies the space that is directly between the second shield and the respective third individual line conductor structure of the second grouping,(7) only the dielectric occupies the space that is directly between the respective fourth individual line conductor structure of the first grouping and the second shield, and(8) only the dielectric occupies the space that is directly between the second shield and the respective fourth individual line conductor structure of the second grouping. 214. The line conductor arrangement of claim 207, wherein [a] the first, second, third and fourth circuit assemblies are separate from one another,[b] in the first grouping, (1) no conductor occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) no conductor occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure,(3) no conductor occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure,(4) a dielectric occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(5) the dielectric occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure, and(6) the dielectric occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure,[c] in the second grouping, (1) no conductor occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) no conductor occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure,(3) no conductor occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure,(4) the dielectric occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(5) the dielectric occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure, and(6) the dielectric occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure, andwherein (1) no conductor occupies the space that is directly between the respective first individual line conductor structure of the first grouping and the second shield,(2) no conductor occupies the space that is directly between the second shield and the respective first individual line conductor structure of the second grouping,(3) no conductor occupies the space that is directly between the respective second individual line conductor structure of the first grouping and the second shield,(4) no conductor occupies the space that is directly between the second shield and the respective second individual line conductor structure of the second grouping,(5) no conductor occupies the space that is directly between the respective third individual line conductor structure of the first grouping and the second shield,(6) no conductor occupies the space that is directly between the second shield and the respective third individual line conductor structure of the second grouping,(7) no conductor occupies the space that is directly between the respective fourth individual line conductor structure of the first grouping and the second shield, and(8) no conductor occupies the space that is directly between the second shield and the respective fourth individual line conductor structure of the second grouping.(9) the dielectric occupies the space that is directly between the respective first individual line conductor structure of the first grouping and the second shield,(10) the dielectric occupies the space that is directly between the second shield and the respective first individual line conductor structure of the second grouping,(11) the dielectric occupies the space that is directly between the respective second individual line conductor structure of the first grouping and the second shield,(12) the dielectric occupies the space that is directly between the second shield and the respective second individual line conductor structure of the second grouping,(13) the dielectric occupies the space that is directly between the respective third individual line conductor structure of the first grouping and the second shield,(14) the dielectric occupies the space that is directly between the second shield and the respective third individual line conductor structure of the second grouping,(15) the dielectric occupies the space that is directly between the respective fourth individual line conductor structure of the first grouping and the second shield, and(16) the dielectric occupies the space that is directly between the second shield and the respective fourth individual line conductor structure of the second grouping. 215. The line conductor arrangement of claim 206, wherein [a] the first, second, third and fourth circuit assemblies are separate from one another,[b] in the first grouping, (1) no conductor occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) no conductor occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure,(3) no conductor occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure, and[c] in the second grouping, (1) no conductor occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) no conductor occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure,(3) no conductor occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure, andwherein (1) no conductor occupies the space that is directly between the respective first individual line conductor structure of the first grouping and the second shield,(2) no conductor occupies the space that is directly between the second shield and the respective first individual line conductor structure of the second grouping,(3) no conductor occupies the space that is directly between the respective second individual line conductor structure of the first grouping and the second shield,(4) no conductor occupies the space that is directly between the second shield and the respective second individual line conductor structure of the second grouping,(5) no conductor occupies the space that is directly between the respective third individual line conductor structure of the first grouping and the second shield,(6) no conductor occupies the space that is directly between the second shield and the respective third individual line conductor structure of the second grouping,(7) no conductor occupies the space that is directly between the respective fourth individual line conductor structure of the first grouping and the second shield, and(8) no conductor occupies the space that is directly between the second shield and the respective fourth individual line conductor structure of the second grouping. 216. The line conductor arrangement of claim 215, wherein [a] in the first grouping, (1) a dielectric occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) the dielectric occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure, and(3) the dielectric occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure,[b] in the second grouping, (1) the dielectric occupies the space that is directly between the respective first individual line conductor structure and the respective second individual line conductor structure,(2) the dielectric occupies the space that is directly between the respective second individual line conductor structure and the respective third individual line conductor structure, and(3) the dielectric occupies the space that is directly between the respective third individual line conductor structure and the respective fourth individual line conductor structure, andwherein (1) the dielectric occupies the space that is directly between the respective first individual line conductor structure of the first grouping and the second shield,(2) the dielectric occupies the space that is directly between the second shield and the respective first individual line conductor structure of the second grouping,(3) the dielectric occupies the space that is directly between the respective second individual line conductor structure of the first grouping and the second shield,(4) the dielectric occupies the space that is directly between the second shield and the respective second individual line conductor structure of the second grouping,(5) the dielectric occupies the space that is directly between the respective third individual line conductor structure of the first grouping and the second shield,(6) the dielectric occupies the space that is directly between the second shield and the respective third individual line conductor structure of the second grouping,(7) the dielectric occupies the space that is directly between the respective fourth individual line conductor structure of the first grouping and the second shield, and(8) the dielectric occupies the space that is directly between the second shield and the respective fourth individual line conductor structure of the second grouping. 217. The line conductor arrangement of claim 213, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement includes a respective first conductive end and a respective second conductive end; and wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor. 218. The line conductor arrangement of claim 214, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement includes a respective first conductive end and a respective second conductive end; and wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor. 219. The line conductor arrangement of claim 215, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement includes a respective first conductive end and a respective second conductive end; and wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor. 220. The line conductor arrangement of claim 216, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement includes a respective first conductive end and a respective second conductive end; and wherein only one of the respective first and second conductive ends is conductively connected to the microprocessor. 221. The line conductor arrangement of claim 217, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement is configured as a bypass conductor. 222. The line conductor arrangement of claim 218, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement is a respective signal conductor of the microprocessor. 223. The line conductor arrangement of claim 219, wherein each of the respective larger individual, elongated line conductors of the line conductor arrangement is a respective data line conductor of the microprocessor. 224. The line conductor arrangement of claim 222, wherein one or more of the respective larger individual, elongated line conductors of the line conductor arrangement are configured to allow energy to propagate to the microprocessor when the line conductor arrangement is energized. 225. The line conductor arrangement of claim 223, wherein one or more of the respective larger individual, elongated line conductors of the line conductor arrangement are configured to allow energy to propagate from the microprocessor when the line conductor arrangement is energized. 226. A conductor arrangement comprising: 1.] a substrate;2.] an upper conductor plate, a center conductor plate that is spaced apart from the upper conductor plate, and a lower conductor plate that is spaced apart from both the upper and center conductor plates, and wherein [d] the center conductor plate is stacked between the upper and lower conductor plates,[e] the upper, center and lower conductor plates are parallel to one another, and[f] the upper, center and lower conductor plates are conductively connected to one another;3.] a first group of four conductors that includes a respective first conductor, a respective second conductor, a respective third conductor, and a respective fourth conductor;4.] a second group of four conductors that includes a respective first conductor, a respective second conductor, a respective third conductor, and a respective fourth conductor;wherein[A] none of the upper, center and lower conductor plates are conductively connected to any of the respective conductors of the first and second groups,[B] none of the respective conductors of the first group are conductively connected to any of the respective conductors of the second group,[C] each of the respective conductors of the first group includes a respective conductor portion that is elongated and straight, and wherein each of the respective conductors of the second group includes a respective conductor portion that is elongated and straight,[D] all of the respective conductor portions of the first and second groups are parallel to one another,[E] all of the respective conductor portions of the first and second groups are located within the substrate,[F] the upper, center and the lower conductor plates are each at least partially located within the substrate,[G] all of the respective conductor portions of the first group are (1. located between the upper and center conductor plates,(2. uniformly spaced apart from the upper conductor plate by a dielectric therebetween,(3. uniformly spaced apart from the center conductor plate by the dielectric therebetween, and(4. arranged in close proximity to one another such that (a.) the dielectric occupies the space that is directly between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor, and(b.) the dielectric occupies the space that is directly between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor, and(c.) the dielectric occupies the space that is directly between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor, and(d.) the dielectric and the respective conductor portions of the respective second and third conductors occupy the space that is directly between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective fourth conductor,[H] all of the respective conductor portions of the second group are (1. located between the center and lower conductor plates,(2. uniformly spaced apart from the center conductor plate by the dielectric therebetween,(3. uniformly spaced apart from the lower conductor plate by the dielectric therebetween, and(4. arranged in close proximity to one another such that (a) the dielectric occupies the space that is directly between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor, and(b) the dielectric occupies the space that is directly between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor, and(c) the dielectric occupies the space that is directly between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor, and(d) the dielectric and the respective conductor portions of the respective second and third conductors occupy the space that is directly between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective fourth conductor,[I] the center conductor plate physically shields all the respective conductor portions of the first group from all the respective conductor portions of the second group,[J] the individual respective conductor portions of the respective first conductors of the first and second groups are together stacked in superposition such that a. the two respective first conductors' respective conductor portions are equal sized structures relative to one another,b. the two respective first conductors' respective conductor portions are equal shaped structures relative to one another,[K] the individual respective conductor portions of the respective second conductors of the first and second groups are together stacked in superposition such that a. the two respective second conductors' respective conductor portions are equal sized structures relative to one another,b. the two respective second conductors' respective conductor portions are equal shaped structures relative to one another,[L] the individual respective conductor portions of the respective third conductors of the first and second groups are together stacked in superposition such that a. the two respective third conductors' respective conductor portions are equal sized structures relative to one another,b. the two respective third conductors' respective conductor portions are equal shaped structures relative to one another,[M] the individual respective conductor portions of the respective fourth conductors of the first and second groups are together stacked in superposition such that c. the two respective fourth conductors' respective conductor portions are equal sized structures relative to one another, andd. the two respective fourth conductors' respective conductor portions are equal shaped structures relative to one another. 227. The conductor arrangement of claim 226, wherein [N] in the first group, all of the respective conductor portions are arranged in a first common longitudinal orientation relative to one another, and[O] in the second group, all of the respective conductor portions are arranged in the first common longitudinal orientation relative to one another. 228. The conductor arrangement of claim 227, wherein [P] in the first group, (e) the shortest distance between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor is a first distance,(f) the shortest distance between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor is a second distance,(g) the shortest distance between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor is a third distance, and(h) the shortest distance between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective fourth conductor is a fourth distance,[Q] in the second group, (e) the shortest distance between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor is the first distance,(f) the shortest distance between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor is the second distance,(g) the shortest distance between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor is the third distance, and(h) the shortest distance between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective fourth conductor is the fourth distance. 229. The conductor arrangement of claim 228, wherein the first and third distances are equal to one another. 230. The conductor arrangement of claim 228, wherein the first, second and third distances are equal to one another. 231. The conductor arrangement of claim 229, further comprising a microprocessor, wherein the microprocessor is attached to the substrate. 232. The conductor arrangement of claim 230, further comprising a microprocessor, wherein the microprocessor is attached to the substrate. 233. The conductor arrangement for claim 231, wherein [A. the respective conductors of the first group are each conductively connected to the microprocessor,[B. the respective conductors of the second group are each conductively connected to the microprocessor, and[C. at least one of the upper, center and lower conductor plates is conductively connected to the microprocessor. 234. The conductor arrangement for claim 233, wherein [D. the respective conductor portions of the first group are arranged such that within the first group, (1. only the dielectric is between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor,(2. only the dielectric is between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor, and(3. only the dielectric is between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor. 235. The conductor arrangement for claim 234, wherein [E. the respective conductor portions of the second group are arranged such that within the second group, (1. only the dielectric is between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor, and(2. only the dielectric is between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor, and(3. only the dielectric is between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor. 236. The conductor arrangement for claim 232, wherein [A. the respective conductor portions of the first group are arranged such that within the first group, (1. no conductor is positioned directly between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor,(2. no conductor is positioned directly between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor,(3. no conductor is positioned directly between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor, and[B. the respective conductor portions of the second group are arranged such that within the second group, (1. no conductor is positioned directly between the respective conductor portion of the respective first conductor and the respective conductor portion of the respective second conductor,(2. no conductor is positioned directly between the respective conductor portion of the respective second conductor and the respective conductor portion of the respective third conductor, and(3. no conductor is positioned directly between the respective conductor portion of the respective third conductor and the respective conductor portion of the respective fourth conductor. 237. The conductor arrangement of claim 236, wherein [C. the respective conductors of the first group are each conductively connected to the microprocessor,[D. the respective conductors of the second group are each conductively connected to the microprocessor, and[E. at least one of the upper, center and lower conductor plates is conductively connected to the microprocessor. 238. A conductive arrangement comprising: 1.] a substrate;2.] three common conductors including: [a] an upper common conductor,[b] a center common conductor that is spaced apart from the upper common conductor, and[c] a lower common conductor that is spaced apart from both the upper and center common conductors, wherein the upper, center and lower common conductors are each parallel to one another, and wherein the center common conductor is stacked between the upper and lower common conductors of the first group;3.] a first group of four elongated conductors, and wherein each respective elongated conductor of the first group includes a respective elongated section that is a three dimensional straight conductor portion of the respective elongated conductor;4.] a second group of four elongated conductors, and wherein each respective elongated conductor of the second group includes a respective elongated section that is a three dimensional straight conductor portion of the respective elongated conductor of the second group;whereinA] the upper, center and the lower common conductors are conductively connected to one another,B] none of the upper, center and the lower common conductors are conductively connected to any of the respective elongated conductors,C] the upper, center and the lower common conductors and all of the respective elongated conductors are each at least partially located within the substrate,D] the upper, center and lower common conductors are each larger in size than any one of the respective elongated sections,E] the respective elongated sections are each parallel to the upper, center and lower common conductors,F] the respective elongated sections are parallel to one another,G] all of the respective elongated sections of the first group are (1. uniformly spaced a first vertical distance apart from the upper common conductor,(2. uniformly spaced a second vertical distance apart from the center common conductor,(3. sandwiched between the upper and center common conductors, and(4. arranged such that (a) the respective elongated section of a respective first elongated conductor is located adjacent to the respective elongated section of a respective second elongated conductor so that the respective elongated section of the respective first elongated conductor and the respective elongated section of the respective second elongated conductor are spaced apart from each other a first horizontal distance, and(b) the respective elongated section of the respective second elongated conductor is adjacent to the respective elongated section of a respective third elongated conductor so that the respective elongated section of the respective second elongated conductor and the respective elongated section of the respective third elongated conductor are spaced apart from each other a second horizontal distance,(c) the respective elongated section of the respective third elongated conductor is adjacent to the respective elongated section of a respective fourth elongated conductor so that the respective elongated section of the respective third elongated conductor and the respective elongated section of the respective fourth elongated conductor are spaced apart from each other a third horizontal distance,(d) no conductor is positioned directly between the respective elongated section of the respective first elongated conductor and the respective elongated section of the respective second elongated conductor,(e) no conductor is positioned directly between the respective elongated section of the respective second elongated conductor and the respective elongated section of the respective third elongated conductor,(f) no conductor is positioned directly between the respective elongated section of the respective third elongated conductor and the respective elongated section of the respective fourth elongated conductor,H] all of the respective elongated sections of the second group are (1. uniformly spaced apart a third vertical distance from the center common conductor,(2. uniformly spaced apart a fourth vertical distance from the lower common conductor,(3. sandwiched between the center and lower common conductors, and(4. arranged such that (a) the respective elongated section of a respective first elongated conductor is located adjacent to the respective elongated section of a respective second elongated conductor so that the respective elongated section of the respective first elongated conductor and the respective elongated section of the respective second elongated conductor are spaced apart from each other the first horizontal distance,(b) the respective elongated section of the respective second elongated conductor is adjacent to the respective elongated section of a respective third elongated conductor so that the respective elongated section of the respective second elongated conductor and the respective elongated section of the respective third elongated conductor are spaced apart from each other the second horizontal distance,(c) the respective elongated section of the respective third elongated conductor is adjacent to the respective elongated section of a respective fourth elongated conductor so that the respective elongated section of the respective third elongated conductor and the respective elongated section of the respective fourth elongated conductor are spaced apart from each other the third horizontal distance,(d) no conductor is positioned directly between the respective elongated section of the respective first elongated conductor and the respective elongated section of the respective second elongated conductor,(e) no conductor is positioned directly between the respective elongated section of the respective second elongated conductor and the respective elongated section of the respective third elongated conductor, and(f) no conductor is positioned directly between the respective elongated section of the respective third elongated conductor and the respective elongated section of the respective fourth elongated conductor,I] each one of the respective elongated sections of the first group is shielded from each one of the respective elongated sections of the second group by the center common conductor located therebetween, andwhereinA] the respective elongated sections of the first and second groups are all arranged in common longitudinal orientation relative to one another such that (1. the respective elongated sections of the respective first elongated conductors of the first and second groups are of equal size and of equal shape relative to one another such that the respective elongated sections of the respective first elongated conductors of the first and second groups are stacked in superposed alignment relative to one another,(2. the respective elongated sections of the respective second elongated conductors of the first and second groups are of equal size and of equal shape relative to one another such that the respective elongated sections of the respective second elongated conductors of the first and second groups are stacked in superposed alignment relative to one another,(3. the respective elongated sections of the respective third elongated conductors of the first and second groups are of equal size and of equal shape relative to one another such that the respective elongated sections of the respective third elongated conductors of the first and second groups are stacked in superposed alignment relative to one another, and(4. the respective elongated sections of the respective fourth elongated conductors of the first and second groups are of equal size and of equal shape relative to one another such that the respective elongated sections of the respective fourth elongated conductors of the first and second groups are stacked in superposed alignment relative to one another. 239. The conductive arrangement of claim 238, wherein the second vertical distance is equal to the third vertical distance. 240. The conductive arrangement of claim 238, wherein the first horizontal distance is equal to the third horizontal distance. 241. A conductive arrangement comprising: 1.] at least three common conductors that include: (g) an upper common conductor,(h) a center common conductor that is spaced apart from the upper common conductor, and(i) a lower common conductor that is spaced apart from both the upper and center common conductors, wherein the upper, center and lower common conductors are each parallel to one another, and wherein the center common conductor is stacked between the upper and lower common conductors;2.] a first group of three conductors, and wherein each respective conductor of the first group includes a respective conductor straight portion that is an elongated three dimensional conductor section of each respective conductor of the first group;3.] a second group of three conductors, and wherein each respective conductor of the second group includes a respective conductor straight portion that is an elongated three dimensional conductor section of each respective conductor of the second group;whereinA] the upper, center and lower common conductors are conductively connected to one another,B] none of the respective conductors of the first and second groups are conductively connected to any of the upper, center and lower common conductors,C] the upper, center and lower common conductors are each larger in size than any one of the respective conductor straight portions of the respective conductors of the first and second groups,D] the respective conductor straight portions of the first and second groups are each parallel to one another,E] the upper, center and lower common conductors are each parallel to all of the respective conductor straight portions of the first and second groups,F] all of the respective conductor straight portions of the first and second groups are oriented in common longitudinal alignment relative to one another,G] the respective conductor straight portions of the first group are together (1. uniformly spaced apart a first vertical distance from the upper common conductor,(2. uniformly spaced apart a second vertical distance from the center common conductor,(3. sandwiched between the upper and center common conductors, andH] the respective conductor straight portions of the first group are located together so that within the first group, (a) the respective conductor straight portion of a respective first conductor is located adjacent to the respective conductor straight portion of a respective second conductor such that the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor are separated by a first horizontal distance, and(b) the respective conductor straight portion of the respective second conductor is adjacent to the respective conductor straight portion of a respective third conductor such that the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor are separated from each other by a second horizontal distance,I] the respective conductor straight portions of the second group are together (1. uniformly spaced apart a third vertical distance from the center common conductor,(2. uniformly spaced apart a fourth vertical distance from the lower common conductor,(3. sandwiched between the center and lower common conductors, andJ] the respective conductor straight portions of the second group are located together so that within the second group, (a.) the respective conductor straight portion of a respective first conductor is located adjacent to the respective conductor straight portion of a respective second conductor such that the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor are separated by the first horizontal distance, and(b.) the respective conductor straight portion of the respective second conductor is adjacent to the respective conductor straight portion of a respective third conductor such that the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor are separated from each other by the second horizontal distance,K] all of the respective conductor straight portions of the first group are shielded from all of the respective conductor straight portions of the second group by the center common conductor stacked therebetween, andwhereinA] the respective conductor straight portions of the respective first conductors of the first and second groups are together in superposed alignment relative to one another,B] the respective conductor straight portions of the respective second conductors of the first and second groups are together in superposed alignment relative to one another, andC] the respective conductor straight portions of the respective third conductors of the first and second groups are together in superposed alignment relative to one another. 242. The conductive arrangement of claim 241, further comprising: 4.] a third group of three conductors, and wherein each respective conductor of the third group includes a respective conductor straight portion that is an elongated three dimensional conductor section of each respective conductor of the third group;5.] a fourth group of three conductors, and wherein each respective conductor of the fourth group includes a respective conductor straight portion that is an elongated three dimensional conductor section of each respective conductor of the fourth group;whereinA] the upper, center and lower common conductors are each larger in size than any one of the respective conductor straight portions of the respective conductors of the third and fourth groups,B] none of the respective conductors of the third and fourth groups are conductively connected to any of the upper, center and lower common conductors,C] none of the respective conductors of the third and fourth groups are conductively connected to any of the respective conductors of the first and second groups,D] the respective conductor straight portions of the third and fourth groups are each parallel to one another,E] the upper, center and lower common conductors are each parallel to all of the respective conductor straight portions of the third and fourth groups,F] all of the respective conductor straight portions of the third and fourth groups are oriented in common longitudinal alignment relative to one another,G] the respective conductor straight portions of the third group are together (a) uniformly spaced apart the first vertical distance from the upper common conductor,(b) uniformly spaced apart the second vertical distance from the center common conductor,(c) sandwiched between the upper and center common conductors, andH] the respective conductor straight portions of the third group are located together so that within the third group, (a) the respective conductor straight portion of a respective first conductor is located adjacent to the respective conductor straight portion of a respective second conductor such that the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor are separated by the first horizontal distance, and(b) the respective conductor straight portion of the respective second conductor is adjacent to the respective conductor straight portion of a respective third conductor such that the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor are separated from each other by the second horizontal distance,I] the respective conductor straight portions of the fourth group are together (a) uniformly spaced apart the third vertical distance from the center common conductor,(b) uniformly spaced apart the fourth vertical distance from the lower common conductor,(c) sandwiched between the center and lower common conductors, andJ] the respective conductor straight portions of the fourth group are located together so that within the fourth group, (a.) the respective conductor straight portion of a respective first conductor is located adjacent to the respective conductor straight portion of a respective second conductor such that the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor are separated by the first horizontal distance, and(b.) the respective conductor straight portion of the respective second conductor is adjacent to the respective conductor straight portion of a respective third conductor such that the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor are separated from each other by the second horizontal distance,K] all of the respective conductor straight portions of the third group are shielded from all of the respective conductor straight portions of the fourth group by the center common conductor stacked therebetween,L] the respective conductor straight portions of the respective first conductors of the third and fourth groups are in superposition relative to one another,M] the respective conductor straight portions of the respective second conductors of the third and fourth groups are in superposition relative to one another, andN] the respective conductor straight portions of the respective third conductors of the third and fourth groups are in superposition relative to one another. 243. The conductive arrangement of claim 241, further comprising a substrate, wherein each one of the respective conductor straight portions of the first and second groups is located within the substrate. 244. The conductive arrangement of claim 242, further comprising a substrate, wherein each one of the respective conductor straight portions of the first, second, third and fourth groups is located within the substrate. 245. The conductive arrangement of claim 243, wherein the first horizontal distance is equal to the second horizontal distance. 246. The conductive arrangement of claim 244, wherein the first horizontal distance is equal to the second horizontal distance. 247. The conductive arrangement of claim 243, wherein within the first group, (1. no conductor is located directly between the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor,(2. no conductor is located directly between the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor, andwherein within the second group,(1. no conductor is located directly between the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor, and(2. no conductor is located directly between the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor. 248. The conductive arrangement of claim 244, wherein within the first group, (1. no conductor is located directly between the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor,(2. no conductor is located directly between the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor,wherein within the second group,(1. no conductor is located directly between the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor,(2. no conductor is located directly between the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor,wherein within the third group,(1. no conductor is located directly between the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor,(2. no conductor is located directly between the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor, andwherein within the fourth group,(1. no conductor is located directly between the respective conductor straight portion of the respective first conductor and the respective conductor straight portion of the respective second conductor, and(2. no conductor is located directly between the respective conductor straight portion of the respective second conductor and the respective conductor straight portion of the respective third conductor. 249. The conductive arrangement of claim 247, wherein the first horizontal distance is equal to the second horizontal distance. 250. The conductive arrangement of claim 248, wherein the first horizontal distance is equal to the second horizontal distance.
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