Mid-span clamp for aerial fiber optical cable system

What is claimed is: 1. A mid-span optical fiber cable support system comprising: a main span cable comprising at least one optical fiber and having a preferential bend characteristic such that the main span cable defines a preferential bend axis, the main span cable supported at two separated supports along a length of the main span cable; a drop cable comprising at least one optical fiber, the drop cable having a first section extending along a portion of the length of the main span cable and a second portion extending away from the main span cable at a position between the two separated supports; and a mid-span clamp system engaging the main span cable comprising: a main span cable clamp engaging the main span cable; and a drop cable clamp engaging the drop cable and supported from the main span cable such that the second portion of the drop cable extends away from the main span cable such that a drop cable load applied at the drop cable clamp is substantially perpendicular to the preferential bend axis of the main span cable. 2. The mid-span optical fiber cable support system of claim 1 , wherein the main span clamp further comprises: a first engagement surface facing towards the drop cable clamp such that the load applied by the drop cable at the drop cable clamp extends away from the first engagement surface; and a second engagement surface opposing the first engagement surface, such that outer surfaces of the main span cable are engaged between the first and second engagement surfaces; wherein the first engagement surface has a height and a length greater than the height, the length of the first engagement surface is parallel to the length of the main span cable and the height is parallel to the preferential bend axis of the main span cable, wherein the first engagement surface is curved in the length direction and is convex relative to the tension vector in the drop cable at the drop cable clamp. 3. The mid-span optical fiber cable support system of claim 2 , wherein the drop cable applies a maximum tension generating a loading angle between a flat central portion of the first engagement surface and the main span cable immediately exiting the first engagement surface, wherein the first engagement surface defines a radius of curvature R 1 and an angle Θ, wherein the angle Θ is greater than the loading angle of the main span cable. 4. The mid-span optical fiber cable support system of claim 3 , wherein R 1 is between 100 mm and 500 mm, and Θ is between 3 degrees and 10 degrees. 5. The mid-span optical fiber cable support system of claim 4 , wherein R 1 is between 350 mm and 400 mm, and Θ is between 4 degrees and 7 degrees. 6. The mid-span optical fiber cable support system of claim 3 , wherein R 1 and angle Θ are selected such that bending strain within the main span cable does not exceed 0.3%. 7. The mid-span optical fiber cable support system of claim 2 , wherein the mid-span clamp system further comprises a support bracket extending outward and perpendicularly away from the first engagement surface, the support bracket coupling the drop cable clamp to the main span cable clamp, the support bracket shaped such that the drop cable is supported at position located a horizontal distance D 1 from the first engagement surface and vertically between an upper edge of the first engagement surface and a lower edge of the first engagement surface. 8. The mid-span optical fiber cable support system of claim 7 , wherein D 1 is between 28 mm and 35 mm. 9. The mid-span optical fiber cable support system of claim 8 , wherein the support bracket positions the drop cable relative to the main span cable such that the a load applied by the drop cable at the drop cable clamp extends away the main span cable at a position located substantially midway along the preferential bend axis between the horizontal planes defined by the uppermost and lowermost surfaces of the main span cable. 10. The mid-span optical fiber cable support system of claim 9 , wherein the main span cable includes a central cavity including a plurality of optical fibers, a first elongate tensile strength element located on a first side the cavity and a second elongate tensile strength element located on a second side of the cavity, wherein the preferential bend axis is an axis intersecting the center points of both the first and second elongate tensile strength elements. 11. The mid-span optical fiber cable support system of claim 10 , wherein the main span cable is oriented such that preferential bend axis is a substantially vertical axis, and the drop cable extends in a substantially horizontal direction away from the main span cable. 12. The mid-span optical fiber cable support system of claim 1 , drop cable clamp is rotatably coupled to the to the support bracket.