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Location: Main > Optical Lenses > Ball Lens Half Ball Lens > SPL-HB-RO-6.5-U
Name: Dia6.5mm Sapphire Crystal Lens (Half-ball)
P/N: SPL-HB-RO-6.5-U
Keywords:Sapphire,Half-ball Lens,6.5mm,Random Orientation
Unit Price: S$280.00/pc
Available: Call us
Request: Add to Request List
Introduction:
Ball lenses are highly polished spheres made of optically transparent homogeneous materials. Carefully controlled manufacturing process produces spheres with precise diameters and unsurpassed surface quality. Ball lenses are great tools for improving signal coupling between fibers, emitters and detectors.
Substrate Material Sapphire Crystal
Outer Diameter
6.5mm, -0.1/0mm
Centre Thickness 3.25mm, +/-0.05mm
Lens Design Half-ball ; Hemi-spherical surface
Radius of Curvature 3.25mm ,-0.1/0mm
Edge Surface None; Edge thickness (ET) = 0, specially processed
Surface Quality
Spherical surface:
40/20 scratch and dig; Surface accuracy: <lambda/4 @ 633nm; Clear aperture: >90%
Plano Surface:
20-10S/D; <lambda/4 @633nm over surface; Clear aperture: >90%
Coating Uncoated on both surfaces
Chamfer/Chip:
0.2mmx45deg protection chamfer; Chip <0.1mm
Orientation Random (if special orientation needed, please contact us)

The effective focal length of a ball lens is very simple to calculate since there are only two variables: the ball lens diameter, D, and the index of refraction, n. The effective focal length is measured from the center of the lens. Therefore, the back focal length can also be easily calculated.
BFL = F - [D/2] EFL = nD/[4(n - 1)]

The Numerical Aperture, NA, of a ball lens is dependent on the focal length of the ball and on the input diameter, d. Since spherical aberration is inherent in ball lenses the following equation begins to fall off as d/D increases.
NA = [2d(n - 1)]/nD

When coupling light from a laser into a fiber, the choice of the ball is dependent on the NA of the fiber and the diameter of the laser beam. The diameter of the laser beam is used to determine the NA of the ball lens. The NA of the ball lens must be less than or equal to the NA of the fiber in order to couple all of the light into the fiber. The ball lens is placed directly onto the fiber.

To couple light from one fiber to another fiber of similar NA, two identical ball lenses are used. Place the two lenses in contact with the fibers.