DocumentCode
964712
Title
Optical Coupling in Fiber Optics Packages with Surface Emitting LED´s
Author
Berg, Howard M. ; Shealy, David L. ; Mitchell, Curtis M. ; Stevenson, David W. ; Lofgran, Lynn C.
Author_Institution
Motorola, Phoenix, AZ, USA
Volume
6
Issue
3
fYear
1983
fDate
9/1/1983 12:00:00 AM
Firstpage
334
Lastpage
342
Abstract
The optical coupling performance of two fiber optics emitter packaging styles is determined into five large-core-diameter [
100 µm) optical fibers with varying numerical apertures (NA). One package contains a short fiber coupled to a high index spherical lens positioned accurately between the LED and the fiber. The other package is fiberless, utilizing a high index lens bonded accurately to the LED using an alignment ring technique, and projects light through the package\´s glass window to intercept the system fiber. Computer modeling studies have been combined with the manufacture and analysis of actual packages to investigate the optimum lens parameters for both packaging styles. Experimental and modeling studies suggest that for optical fibers with NA\´s
0.20, the fiberless and short-fiber packages couple equivalent optical powers into fibers with diameters
200 µm. For larger diameters, the fiberless package is somewhat superior. With high NA fibers (
0.30), however, the short-fiber package is clearly superior for fiber diameters up to 200 µm, and equivalent for diameters greater than 200 µm. The excellent performance of the fiberless package is achieved because the alignment ring technique provides not only the desired alignment accuracy, but also yields a reproducible LED-to-lens spacing.
100 µm) optical fibers with varying numerical apertures (NA). One package contains a short fiber coupled to a high index spherical lens positioned accurately between the LED and the fiber. The other package is fiberless, utilizing a high index lens bonded accurately to the LED using an alignment ring technique, and projects light through the package\´s glass window to intercept the system fiber. Computer modeling studies have been combined with the manufacture and analysis of actual packages to investigate the optimum lens parameters for both packaging styles. Experimental and modeling studies suggest that for optical fibers with NA\´s
0.20, the fiberless and short-fiber packages couple equivalent optical powers into fibers with diameters
200 µm. For larger diameters, the fiberless package is somewhat superior. With high NA fibers (
0.30), however, the short-fiber package is clearly superior for fiber diameters up to 200 µm, and equivalent for diameters greater than 200 µm. The excellent performance of the fiberless package is achieved because the alignment ring technique provides not only the desired alignment accuracy, but also yields a reproducible LED-to-lens spacing.Keywords
Light-emitting diodes (LED´s); Optical fiber coupling; Semiconductor device packaging; Apertures; Bonding; Computer aided manufacturing; Glass; Lenses; Light emitting diodes; Optical coupling; Optical fibers; Packaging; Power system modeling;
fLanguage
English
Journal_Title
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
Publisher
ieee
ISSN
0148-6411
Type
jour
DOI
10.1109/TCHMT.1983.1136181
Filename
1136181
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