OPTICAL TRANSMISSION EQUIPMENT APPARATUS

Brand Owner (click to sort) Address Description
ACCESS ADVANTAGE FURUKAWA ELECTRIC NORTH AMERICA, INC. 2000 Northeast Expressway Norcross GA 30071 Optical transmission equipment and apparatus, namely, optical fibers, optical fiber cables, and optical connectors; optical transmission equipment systems, composed primarily of central office/head end equipment, namely, multi-access modular units and optical fiber jumpers, local convergence point equipment, namely, optical fiber management cabinet that is composed of central hub, adapter interfaces, and routers, optical fiber signal splitters and optical fiber management units, and signal distribution equipment, namely, optical fibers and optical fiber cables;
ACCESS ADVANTAGE FURUKAWA ELECTRIC NORTH AMERICA, INC. 2000 Northeast Expressway Norcross GA 30071 Optical transmission equipment and apparatus, namely, optical fibers, optical fiber cables and optical connectors;
ACCESS ADVANTAGE Fitel U.S.A. Corp. 2000 Northeast Expressway Norcross GA 30071 Optical transmission equipment and apparatus, namely, optical fibers, optical fiber cables and optical connectors;
FUTUREACCESS FUJIKURA LTD. 5-1, Kiba 1-chome, Koto-ku Tokyo 135-8512 Japan Optical transmission equipment and apparatus, namely, [ optical fiber connectors, optical fiber cords, and ] optical fiber cables; [ Passive Optical Network equipment, namely, fiber optical line terminals (OLT), and fiber optical network units (ONU) ];FUTURE ACCESS;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Discrete first and second optical transmission subunits are formed each having a corresponding transmission optical waveguide with a corresponding optical junction region. The first transmission optical waveguide is a planar optical waveguide formed on a substrate. The first transmission optical waveguide or the second transmission optical waveguide is adapted for enabling substantially adiabatic transverse-transfer of optical power between the optical waveguides at the respective optical junction regions. The first and second optical transmission subunits are assembled together to form an optical apparatus.