摘要:
A multi-layer optical circuit includes a plurality of stacked flexible substrates and an adhesive between adjacent substrate layers. A plurality of optical fibers are positioned between adjacent substrate layers. The flexible substrates of adjacent substrate layers are secured together by the adhesive and directly engage the plurality of optical fibers between the adjacent substrate layers.
摘要:
A ferrule for a multilayer waveguide connector includes a face having mechanical alignment slots arranged in a bidirectional lattice structure, the mechanical alignment slots including first slots disposed in a first direction, the first slots configured to respectively receive one end of waveguide layers, and second slots disposed in a second direction different from the first direction, the second slots configured to respectively receive protrusions transverse from a main surface of the waveguide layers.
摘要:
Methods of reducing and/or avoiding fiber ordering during preparations of a multi-fiber, fiber optic cable to provide a connectorized multi-fiber, fiber optic cable system, and related fiber optic cables and assemblies are also disclosed. The embodiments disclosed herein allow for a section of a multi-fiber, fiber optic cable to be prepared to form two or more connectorized fiber optic cables as part of a multi-fiber cable system without requiring specific fiber ordering in the fiber optic connectors. The natural ordering of the optical fibers in the fiber optic cable is fixed in place in at least one section of the fiber optic cable before the optical fibers are cut to form adjacent fiber optic connectors in the cable system. Thus, the fiber ordering between adjacent fiber optic connectors in the cable system will be the same even though the fiber ordering of the optical fibers was random during cable preparations.
摘要:
Methods of reducing and/or avoiding fiber ordering during preparations of a multi-fiber, fiber optic cable to provide a connectorized multi-fiber, fiber optic cable system, and related fiber optic cables and assemblies are also disclosed. The embodiments disclosed herein allow for a section of a multi-fiber, fiber optic cable to be prepared to form two or more connectorized fiber optic cables as part of a multi-fiber cable system without requiring specific fiber ordering in the fiber optic connectors. The natural ordering of the optical fibers in the fiber optic cable is fixed in place in at least one section of the fiber optic cable before the optical fibers are cut to form adjacent fiber optic connectors in the cable system. Thus, the fiber ordering between adjacent fiber optic connectors in the cable system will be the same even though the fiber ordering of the optical fibers was random during cable preparations.
摘要:
A method for producing an optical fiber element provided with several optical fibers disposed in a matrix, including: a) placing and maintaining the several optical fibers in grooves formed in a mould plate, said grooves being in different planes, b) injecting a hardenable material adhering to the several optical fibers, c) solidifying the hardenable material to maintain the several optical fibers in a position set by the grooves, and d) removing at least the mould plate.
摘要:
A three dimensional optical circuit featuring an optical manifold for organizing, guiding and protecting individual optical fibers is shown. One aspect of the present invention is a three dimensional manifold which may be constructed using a rapid prototyping process such as, but not limited to, stereolithography (“SLA”), fused deposition modeling (“FDM”), selective laser sintering (“SLS”), and the like. The manifold has a number of input openings in a first ordered arrangement at one end connected by passageways to a number of output openings in a second ordered arrangement at the opposite end. A plurality of optical fibers may be directed through the passageways of the manifold to produce a three dimensional optical circuit such as a shuffle. Moreover, the optical manifold may be used in conjunction with a number of connections or terminations to form a various optical modules. These modules may be configured for rack mounting within enclosures for electrical components.
摘要:
A polarization maintaining optical device may include a polarization maintaining optical array. The device may also include a microlens array to receive light from the polarization maintaining optical array. In another embodiment of the present invention, the device may also include two microlens arrays, two polarization maintaining optical arrays, and an arrayed beam steering device. The microlens arrays, polarization maintaining optical arrays, and the beam steering device may be optically coupled.
摘要:
The invention relates to a strain-relief device for cables, in particular optical waveguide cables, the strain-relief device (1) comprising a lower part (10), which is in the form of a U in cross section, and an upper part (30), the lower part (10) is formed on its limbs (12) on one end side (16) with a pivot bearing and on the opposite end side (13) with latching tabs (14), which are arranged on the inner sides of the limbs (12), the upper part (30) comprising at least two sprung lateral limbs (31), on whose outer side in each case at least one latching projection (35) is arranged, which latching projections (35), in the assembled state, latch behind the latching tabs (14) on the lower part (10), and comprising spindle means, which can be inserted into the pivot bearing in the lower part (10), and to a wire-guiding element (60), in particular for optical waveguide wires, the wire-guiding element (60) comprising a lower part (40) and an upper part (50), the lower part (40) being formed in the longitudinal direction (L) with guides (46), which are formed between guide webs (45), clamping ribs (47) being arranged on the inner sides of the guide webs (45), and having first fixing means on the upper side (44), the upper part (50) having second fixing means on its lower side (51) which produce a connection with the first fixing means.
摘要:
The invention relates to a device for transmitting optical signals between at least two components disposed for rotation.The invention excels itself by the provision that at least one micro-optical component is used for beam forming or beam guidance.
摘要:
A temperature-controlled flexible optical circuit includes a length of pre-fabricated optical fiber secured to a partially flexible heater circuit for heating and maintaining the optical fiber at a substantially constant temperature. Heater circuit may also comprise temperature sensors.