Asymmetric area lens for low-profile lighting system

What is claimed is: 1. A low-profile lighting apparatus, the lighting apparatus comprising: at least one light-emitting diode (LED); a primary optical lens positioned with respect to the LED, the primary optical lens comprising at least one lobe defined with respect to a lens reference plane, with respect to a lens center point in the lens reference plane, and with respect to a lens optical axis orthogonal to the lens reference plane and passing through the lens center point, the at least one lobe comprising: a primary lens input surface displaced from the lens center point to receive light emitted by the LED, the primary lens input surface having a semicircular profile defined with respect to the lens center point; and a primary lens output surface displaced from the primary lens input surface to define a primary lens body between the input surface and the output surface, the primary lens output surface having a cross-sectional profile defined with respect to the lens reference plane and the lens optical axis, the cross-sectional profile of the output surface comprising: at least a first curve segment angularly closest to the lens reference line, the first curve segment having a first slope that slopes away from the lens reference line and away from the lens optical axis; at least a second curve segment which is angularly farther from the lens reference line than the first curve segment, the second curve segment having a second slope that slopes away from the lens reference line, the second slope steeper than the first slope; at least a third curve segment which is angularly farther from the lens reference line than the second curve segment, the third curve segment having a third slope that is less steep than the second slope, the third curve segment having a third slope that slopes away from the lens reference line and toward the lens optical axis; a first plurality of additional curve segments which are progressively angularly farther from the lens reference line than the third curve segment, each of the first plurality of additional curve segments sloping away from the lens reference line and sloping toward the lens optical axis, with each successive curve segment having a slope that is less steep than the immediately preceding curve segment; a second plurality of additional curve segments which are progressively angularly farther from the lens reference line than the first plurality of additional curve segments, the second plurality of additional line segments sloping toward the lens reference line and sloping towards the lens optical axis, with each successive curve segment in the second plurality of additional curve segments having a steeper slope than the immediately preceding curve segment. 2. The low-profile lighting apparatus as defined in claim 1 , wherein the cross-sectional profile of the output surface further comprises a third plurality of additional curve segments which are progressively angularly farther from the lens reference line than the second plurality of additional curve segments, the third plurality of additional curve segments sloping toward the lens reference line and sloping towards the lens optical axis with each successive curve segment in the third plurality of additional curve segments having a less steep slope than the immediately preceding curve segment. 3. The low-profile lighting apparatus as defined in claim 1 , wherein each curve segment is substantially straight. 4. The low-profile lighting apparatus as defined in claim 3 , wherein the curve segments have the appearance of an arcuate segment of a faceted Archimedean spiral. 5. The low-profile lighting apparatus as defined in claim 4 , wherein the curve segments have the appearance of an arcuate segment of a faceted involute curve. 6. The low-profile lighting apparatus as defined in claim 1 , wherein each curve segment is an arcuate segment of a spline curve. 7. The low-profile lighting apparatus as defined in claim 6 , wherein the spline curve has the appearance of an arcuate segment of an Archimedean spiral. 8. The low-profile lighting apparatus as defined in claim 6 , wherein the spline curve has the appearance of an arcuate segment of an involute curve. 9. The low-profile lighting apparatus as defined in claim 1 , wherein the at least one lobe is a first lobe, and wherein the primary optical lens further comprises a second lobe, the second lobe having a cross-sectional profile symmetrical with the cross-sectional profile of the first lobe about the lens optical axis, the first and second lobes extending along a longitudinal axis. 10. The low-profile lighting apparatus as defined in claim 9 , wherein the symmetrical profiles of the outer surfaces of the two lobes have a “batwing” appearance. 11. The low-profile lighting apparatus as defined in claim 1 , wherein the at least one lobe is rotated about the lens optical axis such that the primary optical lens is rotationally symmetric about the lens optical axis. 12. The low-profile lighting apparatus as defined in claim 1 , wherein the curve segments are grouped in a plurality of Fresnel facets to reduce the overall thickness of the primary optical lens. 13. A low-profile lighting apparatus, the lighting apparatus comprising: at least one light-emitting diode (LED); a primary optical lens positioned with respect to the LED, the primary optical lens comprising at least one lobe defined with respect to a lens reference plane, with respect to a lens center point in the lens reference plane, and with respect to a lens optical axis orthogonal to the lens reference plane and passing through the lens center point, the at least one lobe comprising: a primary lens input surface displaced from the lens center point to receive light emitted by the LED, the primary lens input surface having a semicircular profile defined with respect to the lens center point; and a primary lens output surface displaced from the primary lens input surface to define a primary lens body between the input surface and the output surface, the primary lens output surface having a cross-sectional profile defined with respect to the lens reference plane and the lens optical axis, the cross-sectional profile of the output surface comprising a plurality of interconnected points positioned angularly with respect to the lens reference plane and spaced apart from the center point by distances that vary in accordance with the angular positions of the points with respect to the lens reference plane, wherein: a first point is located at a first angular position with respect to the lens reference plane and is located a first linear distance from the center point; at least a second point is located at a second angular position with respect to the lens reference plane, the second angular position greater than the first angular position, and is located at a second linear distance from the center point, the second linear distance greater than the first linear distance; at least a third point is located at a third angular position with respect to the lens reference plane, the third angular position greater than the second angular position, and is located at a third linear distance from the center point, the third linear distance less than the second linear distance; a last point is located on the lens optical axis and is located a shortest linear distance from the center point, the shortest linear distance less than the third linear distance; and any points between the third point and the last point are located at increasing angular distances from the lens reference plane and are located at decreasing linear distances from the center point.