Near-field lens with convex hyperbolic surface

The invention claimed is: 1. A portable lighting device comprising: a housing; a light source positioned in the housing proximate to a near-field lens supported in the housing and comprising a lens body positioned about an optical axis, the lens body comprising: a substantially flat output surface through which light exits the lens body; an input surface through which light enters the lens body consisting of: a) a focusing surface centered symmetrically around the optical axis, wherein the focusing surface receives light directly from the light source and collimates the received light along the optical axis towards the output surface without undergoing refraction when passing through the output surface, and b) a single convex hyperbolic surface centered symmetrically around both the optical axis and the focusing surface, wherein said convex hyperbolic surface receives light directly from the light source and is further defined by a plurality of transverse axes, each of said transverse axes intersecting the convex hyperbolic surface at different points and crossing the optical axis at a common intersection point coinciding with the light source such that each of the plurality of convex hyperbolic sections are equidistant from the light source and the optical axis; and a lateral surface extending between the convex hyperbolic surface and the output surface, wherein the convex hyperbolic surface substantially collimates light towards the lateral surface to be internally reflected towards the output surface. 2. The portable lighting device of claim 1 , wherein the lateral surface is conical and has a focus that coincides with a virtual focus of the convex hyperbolic surface that is located at a distance away from the light source. 3. A portable lighting device comprising: a housing; a light source positioned in the housing proximate to a near-field lens supported in the housing and comprising a lens body positioned about an optical axis, the lens body comprising: an output surface through which light exits the lens body having a center section that is recessed towards a focusing surface of the lens body and a connecting section forming a sidewall that extends between the center section and the output surface, wherein substantially all of the output surface oriented in a perpendicular plane to the optical axis are substantially flat; an input surface through which light enters the lens body consisting of: a) a focusing surface centered symmetrically around the optical axis, wherein the focusing surface receives light directly from the light source and collimates the received light along the optical axis towards the output surface without undergoing refraction when passing through the output surface, and b) a single convex hyperbolic surface centered symmetrically around both the optical axis and the focusing surface, wherein said convex hyperbolic surface receives light directly from the light source and is further defined by a plurality of transverse axes, each of said transverse axes intersecting the convex hyperbolic surface at different points and crossing the optical axis at a common intersection point coinciding with the light source such that each of the plurality of convex hyperbolic sections are equidistant from the light source and the optical axis; and a lateral surface extending between the convex hyperbolic surface and the output surface, wherein the convex hyperbolic surface substantially collimates light towards the lateral surface to be internally reflected towards the output surface. 4. The portable lighting device of claim 3 , wherein the center section and the connecting section together define a cavity that is free from being impinged by any light reflected from the lateral surface. 5. The portable lighting device of claim 3 , wherein the lens body further comprises an engagement member proximate to the lateral surface and the output surface, said engagement member attached to at least one of: the housing and the light source. 6. The portable lighting device of claim 1 , wherein the lens body further comprises an engagement member proximate to the lateral surface and the output surface, said engagement member attached to at least one of: the housing and the light source.