Advanced methods and designs for balancing a stranded termination assembly

Having described my invention, I claim: 1. A method for preparing a synthetic cable for use, said synthetic cable having multiple strands with a strand termination affixed to an end of each of said multiple strands, comprising: a) providing a collector having a plurality of receivers, each of said receivers being configured to accept a said strand termination; b) providing a loading fixture, including a plurality of hydraulic cylinders; c) connecting said collector to said loading fixture; d) using said loading fixture to apply a predefined tensioning plan to said strand terminations by connecting each of said hydraulic cylinders to a strand termination, said tensioning plan being configured to apply an overall tension to said cable and a specific strand tension to each individual strand; e) while said predefined tensioning plan is being applied, determining a spatial relationship between each of said strand terminations and said collector; and f) preserving said spatial relationships determined for each of said strand terminations. 2. A method for preparing a synthetic cable for use as recited in claim 1 , wherein said step of preserving said spatial relationships comprises mechanically locking said strand terminations in said determined spatial relationships. 3. A method for preparing a synthetic cable for use as recited in claim 1 , wherein said step of preserving said spatial relationships comprises measuring and recording said spatial relationships. 4. A method for preparing a synthetic cable for use as recited in claim 1 , further comprising providing a second collector and using said preserved spatial relationships to connect said strand terminations to said second collector. 5. A method for preparing a synthetic cable for use as recited in claim 1 , wherein said strands are freely floating with respect to said collector during said application of said tensioning plan. 6. A method for preparing a synthetic cable for use as recited in claim 5 , wherein each of said hydraulic cylinders is independently controlled. 7. A method for preparing a synthetic cable for use as recited in claim 1 , wherein all of said hydraulic cylinders are connected to a single, pressurized reservoir. 8. A method for preparing a synthetic cable for use as recited in claim 1 , wherein each of said strand terminations includes a threaded loading stud with a nut threaded onto said loading stud, said nut being configured to bear against said collector. 9. A method for preparing a synthetic cable for use as recited in claim 1 , wherein each of said hydraulic cylinders is connected to one of said terminations by a threaded coupler. 10. A method for preparing a synthetic cable for use as recited in claim 1 , wherein each of said hydraulic cylinders is a double-acting cylinder. 11. A method for preparing a synthetic cable for use, said synthetic cable having multiple strands with a strand termination affixed to an end of each of said multiple strands, comprising: a) providing a collector having a plurality of receivers, each of said receivers being configured to accept a said strand termination; b) providing a loading fixture that is separate from said collector, said loading fixture including a plurality of strand tensioners; c) connecting said collector to said loading fixture; d) using said loading fixture to apply a predefined tensioning plan to said strand terminations by connecting each of said strand tensioners to a strand termination, said tensioning plan being configured to apply an overall tension to said cable and a specific strand tension to each individual strand; e) while said predefined tensioning plan is being applied, mechanically connecting each of said strand terminations to said collector in order to preserve a spatial relationship then existing between each of said strand terminations and said collector. 12. A method for preparing a synthetic cable for use as recited in claim 11 , wherein said strand tensioning plan comprises evenly dividing said overall tension among all of said strands. 13. A method for preparing a synthetic cable for use as recited in claim 11 , wherein each of said strand tensioners is connected to one of said strand terminations by a threaded coupler. 14. A method for preparing a synthetic cable for use as recited in claim 11 , wherein each of said strand tensioners comprises a hydraulic cylinder. 15. A method for preparing a synthetic cable for use as recited in claim 14 , wherein all of said hydraulic cylinders are connected to a single, pressurized reservoir. 16. A method for preparing a synthetic cable for use as recited in claim 11 , wherein each of said strand terminations includes a threaded loading stud with a nut threaded onto said loading stud, said nut being configured to bear against said collector. 17. A method for preparing a synthetic cable for use as recited in claim 13 , wherein each of said strand tensioners comprises an electric drive configured to engage and rotate one of said nuts. 18. A method for preparing a synthetic cable for use as recited in claim 14 , wherein each of said hydraulic cylinders is a double-acting cylinder.