Angled circuit board connector

I claim: 1. An angled circuit board connector, comprising: a unitary connector block having first and second board-contacting faces, the first and second board-contacting faces being arranged relative to each other at an operative angle, the connector block including a block body, the first and second board-contacting faces facing outward from the block body; a first connector port located on the first board-contacting face; a second connector port located on the second board-contacting face; and a connector trace extending through at least a portion of the block body between the first and second board-contacting faces, the connector trace electrically connecting the first and second connector ports; wherein a first connector trace, located toward an interior of the operative angle, has a shorter trace length between connected first and second connector ports than a trace length of a second connector trace, located further outward of the operative angle than the first connector trace. 2. The angled circuit board connector of claim 1 , wherein the operative angle is either less than 175° or more than 185°. 3. The angled circuit board connector of claim 1 , wherein the operative angle is directly proportional to an angle between two circuit boards into which the first and second connector ports, respectively, are selectively placed into electrical contact. 4. The angled circuit board connector of claim 1 , wherein an array of first connector ports are exposed on the first board-contacting face, an array of second connector ports are exposed on the second board-contacting face, and a plurality of connector traces each electrically connect a selected first connector port with a selected second connector port. 5. The angled circuit board connector of claim 1 , wherein the block body includes a plurality of laminated substrate layers, each substrate layer having oppositely disposed first and second layer edges, each first layer edge forming a portion of the first board-contacting face and each second layer edge forming a portion of the second board-contacting face. 6. The angled circuit board connector of claim 5 , wherein an interior substrate layer, located toward an interior of the operative angle, has a smaller laminated top surface area than a laminated top surface area of an exterior substrate layer, located further outward of the operative angle than the interior substrate layer. 7. The angled circuit board connector of claim 5 , wherein the first layer edges of the plurality of substrate layers are arranged at a first edge angle with respect to the laminated top surfaces of the respective substrate layers, the second layer edges of the plurality of substrate layers are arranged at a second edge angle with respect to the laminated top surfaces of the respective substrate layers, and the first and second edge angles together equal the operative angle. 8. A method comprising: providing a planar distal substrate having longitudinally spaced top and bottom distal substrate surfaces and laterally spaced first and second distal substrate edges; creating at least one distal connector trace on the top distal substrate surface, the distal connector trace having first and second distal trace ends which are each laterally spaced inward from the respective first and second distal substrate edges; depositing a conductive material along the at least one distal connector trace; creating first and second distal connector ports at the respective first and second distal trace ends; providing a planar proximal substrate having longitudinally spaced top and bottom proximal substrate surfaces and laterally spaced first and second proximal substrate edges; creating at least one proximal connector trace on the top proximal substrate surface, the proximal connector trace having first and second proximal trace ends which are each laterally spaced inward from the respective first and second proximal substrate edges, the first and second proximal trace ends both being laterally spaced inward from the respective first and second distal trace ends; depositing a conductive material along the at least one proximal connector trace; creating first and second proximal connector ports at the respective first and second proximal trace ends; directly attaching the top distal substrate surface to the bottom proximal substrate surface with the distal connector trace interposed therebetween to at least partially form a unitary connector block; removing the first proximal and distal substrate edges at a first edge angle to laterally expose the proximal and distal first connector ports and create a first board-contacting face; and removing the second proximal and distal substrate edges at a second edge angle to laterally expose the proximal and distal second connector ports and create a second board-contacting face. 9. The method of claim 8 , wherein creating first and proximal and distal second connector ports at the respective first and second proximal and distal trace ends includes depositing solder in reservoirs at the first and proximal and distal second connector ports, the solder being exposed on the first and second board-contacting faces. 10. The method of claim 8 , including planing at least one of the top and bottom proximal and distal substrate surfaces after creation of a respective proximal and/or distal connector trace to bring the proximal and/or distal substrate layer to a predetermined proximal and/or distal substrate layer thickness. 11. The method of claim 8 , wherein at least one of creating at least one proximal connector trace on the top proximal substrate surface and creating at least one distal connector trace on the top distal substrate surface includes creating an array of proximal and/or distal connector traces on the top proximal and/or distal substrate surfaces. 12. The method of claim 8 , wherein an array of proximal and distal first connector ports are exposed on the first board-contacting face, an array of proximal and distal second connector ports are exposed on the second board-contacting face, and a plurality of proximal and distal connector traces each electrically connect selected proximal and distal first connector ports, respectively, with selected proximal and distal second connector ports, the method including: creating an operative angle of the connector block equal to the first and second edge angles; providing a first circuit board including at least one first pad corresponding to a position of a selected proximal or distal first connector port; providing a second circuit board including at least one second pad corresponding to a position of a selected proximal or distal second connector port; maintaining the first and second circuit boards at a board mutual angle relative to each other, the board mutual angle of the circuit boards being directly related to the operative angle of the connector block; placing the first pad into electrical contact with the selected proximal or distal first connector port; placing the second pad into electrical contact with the selected proximal or distal second connector port; and placing the first and second pads into indirect mutual electrical connection via a corresponding proximal or distal connector trace. 13. An apparatus for electrically connecting pairs of pads on mutually angularly arranged circuit boards, the apparatus comprising: a planar distal substrate having longitudinally spaced top and bottom distal substrate surfaces and laterally spaced first and second distal substrate edges; at least one distal connector trace located on the top distal substrate surface, the distal connector trace h