Wicking termination system

Having described my invention, I claim: 1. A termination on a synthetic cable having filaments and an end, comprising: a. an anchor, having a first end, a second end, and an internal passage therebetween; b. wherein said internal passage includes an expanding cavity proximate said first end of said anchor; c. wherein a length of exposed filaments proximate said end of said cable is locked into solidified potting compound to form a solidified potted region within said expanding cavity; d. wherein said expanding cavity is defined by a revolved wall profile having a slope which is sufficient to prevent said solidified potted region from moving significantly toward said second end of said anchor when said cable is placed in tension; e. wherein said internal passage includes a wicking cavity located between said, expanding cavity and said second end of said anchor; f. wherein said wicking cavity is defined by a revolved wall profile having a slope which is less than said slope within said expanding cavity, with said slope within said wicking cavity being configured so that when a portion of said cable is placed within said wicking cavity, said filaments of said cable lying within said wicking cavity are gradually compressed together when proceeding in a direction from said first end toward said second end of the anchor, so that voids between said filaments within said wicking cavity diminish when proceeding in the direction from said first end toward said second end of the anchor; g. wherein a portion of said wicking cavity which is closest to said second end of said anchor is sized to compress said filaments of the cable lying in that said portion of said wicking cavity tightly together, thereby inhibiting wicking of said potting compound, while still in a liquid state, beyond that said portion of said wicking cavity; h. wherein properties of said potting compound are selected so that said potting compound, while still in said liquid state, wicks through said voids in said wicking cavity in the direction from said first end toward said second end of the anchor, thereby forming a wicking potting transition within said wicking cavity; i. a straight portion located between said wicking cavity and said second end of said anchor; j. wherein said straight portion is about a same size as said portion of said wicking cavity which is closest to said second end of said anchor, so that the filaments of the cable lying within said straight portion are compressed tightly together, thereby inhibiting wicking of said potting compound in said liquid state into said straight portion; and k. a compression sleeve within said wicking cavity. 2. The termination as recited in claim 1 , wherein said straight portion is made long enough to prevent any potting compound extending out said second end of said anchor. 3. The termination as recited in claim 2 , wherein said straight portion opens into said second end of said anchor, and a joint between said straight portion and said second end of said anchor is rounded. 4. The termination as recited in claim 1 , wherein said straight portion opens into said second end of said anchor, and a joint between said straight portion and said second end of said anchor is rounded. 5. The termination as recited in claim 1 , wherein said compression sleeve lies entirely within said anchor. 6. The termination as recited in claim 5 , wherein said compression sleeve is selected from the group consisting of a wrapping, a length of heat shrink tubing, an extruded section, and an overmolded section. 7. The termination as recited in claim 4 , wherein said compression sleeve surrounds said portion of said cable lying within said wicking cavity. 8. The termination as recited in claim 7 , wherein said compression sleeve is selected from the group consisting of a wrapping, a length of heat shrink tubing, an extruded section, and an overmolded section. 9. A termination on a synthetic cable having filaments and an end; comprising: a. an anchor, having a first end, a second end, and an internal passage therebetween; b. wherein said internal passage includes an expanding cavity proximate said first end of said anchor; c. wherein a length of exposed filaments proximate said end of said cable is locked into solidified potting compound to form a solidified potted region within said expanding cavity; d. wherein said expanding cavity is defined by a revolved wall profile having a slope which is sufficient to prevent said solidified potted region from moving significantly toward said second end of said anchor when said cable is placed in tension; e. wherein said internal passage includes a wicking cavity located between said expanding cavity and said second end of said anchor; f. wherein said wicking cavity is defined by a revolved wall profile having a slope which is less than said slope within said expanding cavity, with said slope within said wicking cavity being configured so that when a portion of said cable is placed within said wicking cavity, said filaments of said cable lying within said wicking cavity are gradually compressed together when proceeding in a direction from said first end toward said second end of the anchor, so that voids between said filaments within said wicking cavity diminish when proceeding in the direction from said first end toward said second end of the anchor; g. wherein a portion of said wicking cavity which is closest to said second end of said anchor is sized to compress said filaments of the cable lying in that said portion of said wicking cavity tightly together, thereby inhibiting wicking of said potting compound, while still in a liquid state, beyond that said portion of said wicking cavity; h. wherein properties of said potting compound are selected so that said potting compound, while still in said liquid state, wicks through said voids in said wicking cavity in the direction from said first end toward said second end of the anchor, thereby forming a wicking potting transition within said wicking cavity; and i. wherein said anchor includes a compression sleeve contained entirely within said anchor. 10. A termination on a synthetic cable having filaments and an end, comprising: a. an anchor having a first end, a second end, and an internal passage therebetween; b. wherein said internal passage includes an expanding cavity proximate said first end of said anchor; c. wherein a length of exposed filaments proximate said end of said cable is locked into solidified potting compound to form a solidified potted region within said expanding cavity; d. wherein said expanding cavity is defined by a revolved wall profile having a slope which is sufficient to prevent said solidified potted region from moving significantly toward said second end of said anchor when said cable is placed in tension; e. wherein said internal passage includes a wicking cavity located between said expanding cavity and said second end of said anchor; f. wherein said wicking cavity is defined by a revolved wall profile having a slope which is less than said slope within said expanding cavity, with said slope within said wicking cavity being configured so that when a portion of said cable is placed within said wicking cavity, said filaments of said cable lying within said wicking cavity are gradually compressed together when proceeding in a direction from said first end toward said second end of the anchor, so that voids between said filaments within said wicking cavity diminish when proceeding in the direction from said first end toward said second end of the anchor; g. wherein a portion of said wicking cavity which is closest to said second end of said anchor is sized to compress said filaments of the cable