An amount of optical loss in spatial coupling can be properly reduced.

Provided are optical members, each constituting a light emitter or a light receiver, and a lens member having lens portions. A high-transmittance portion having a higher transmittance than the lens member is disposed between the optical member and the lens member. For example, a light emitter is an optical waveguide that emits an optical signal from one end of the optical waveguide or a light-emitting element that converts an electric signal into an optical signal and emits the signal, and a light receiver is an optical waveguide that receives an optical signal on one end of the optical waveguide or a light-receiving element that converts the received optical signal into an electric signal.

Disclosed is a tool for releasing an engaged state in which a receptacle-side engagement section formed on a side surface of a receptacle provided on a substrate is engaged with a connector-side engagement section of an optical connector that is attachable to and detachable from the receptacle. The tool includes: release claws to be inserted into respective gaps, each gap being formed between a member arranged between a pair of engagement side plate parts each being provided with the connector-side engagement section, and each engagement side plate part; and a guide part that comes into opposition with a side surface of the optical connector or the receptacle. By bringing the guide part into opposition with the side surface and sliding the release claws toward the substrate, the engagement side plate parts are spread outward by the release claws and the engaged state is released.

A molded waveguide side-facet coupler to facilitate an optical connection between optical side-facets and a fiber optic connector is disclosed. Instead of molding the side-facet coupler with the external mounting surface disposed on an external surface of the mold, the mold for the side-facet coupler is provided such that the mounting surface of the side-facet coupler is provided as a molded internal recess surface. The moldable material for the side-facet coupler is disposed around a recess core that is part of the mold, thereby forming a unitary component having at least one internal recess surface for providing an external mounting surface for the side-facet coupler. As the molded material cures around the core structure, the external surfaces of the unitary component pull away from internal surfaces of the mold, and shrink around the core structure. Thus, the internal recess surface of the unitary component is formed within narrower, repeatable tolerances.

An optical connection assembly includes a first optical contact including at least one body which is designed to envelop a first ferrule at least partly, laterally, and constitutes the receptacle for the first ferrule, at least a first guide arm extending beyond the front face of the first ferrule, and at least a second guide arm beyond which the body of the ferrule extends; a second optical contact including at least one body which is designed to envelop a second ferrule at least partly, laterally, and constitutes the receptacle for the second ferrule, and at least one guide means extending beyond the front face of the ferrule and being designed to cooperate with the first guide arm of the first optical contact, in order to carry out the guiding, then the connection, between the first and second optical contacts.

A ferrule for an optical connector includes a body, a cavity extending into the body from a back end of the body, and first and second groups of micro-holes extending into the cavity from a front end of the body. The cavity includes at least one bottom surface extending under an opening in a top surface of the body and below a first plane that extends through or below the first and second groups of micro-holes. The cavity also includes a divider extending under the opening in the top surface of the body, with the divider having a divider surface positioned above the first plane such that the divider surface is offset from the at least one bottom surface.

A single-channel or multiple-channel connector for collimated optical fibers. A female part body of connector includes a receiving cavity with a guide bush and a lensed socket. The lensed socket includes an optical fiber contained in a ferrule and held in a tubular casing guided and fitted in the guide bush. The optical fiber is held axially in the guide bush in the free position flush with the front face of the female part by a spring acting axially on the lensed socket, thereby permitting the lens can be cleaned easily. A male part of the connector includes a lensed pin with an optical fiber contained in a ferrule held in a tubular casing. The lensed pin is flush with the front face of the male part.

A molded waveguide side-facet coupler to facilitate an optical connection between optical side-facets and a fiber optic connector is disclosed. Instead of molding the side-facet coupler with the external mounting surface disposed on an external surface of the mold, the mold for the side-facet coupler is provided such that the mounting surface of the side-facet coupler is provided as a molded internal recess surface. The moldable material for the side-facet coupler is disposed around a recess core that is part of the mold, thereby forming a unitary component having at least one internal recess surface for providing an external mounting surface for the side-facet coupler. As the molded material cures around the core structure, the external surfaces of the unitary component pull away from internal surfaces of the mold, and shrink around the core structure. Thus, the internal recess surface of the unitary component is formed within narrower, repeatable tolerances.

An optical connecting part includes: a holder including an end face for optical connection, one or more optical waveguides and a through-hole, the optical waveguides having a portion extending from the end face in a direction of a first axis, the through-hole extending from the end face in the direction of the first axis; and a coating disposed on an inner surface of the through-hole, the coating having oil repellency. The coating on the inner surface of the through-hole forms a guide hole.

An optical connector jig for connecting a second optical connector to a first optical connector, or disconnecting the second optical connector from the first optical connector, includes a first housing and a second housing. The first housing includes a positioning portion to determine a position of the jig with respect to the first optical connector in cooperation with a member indicating a position of the first optical connector. The second housing grips the second optical connector such that, when the jig is positioned with respect to the first optical connector, a connection surface of the second optical connector faces a connection surface of the first optical connector. The second housing moves with respect to the first housing such that the connection surface of the gripped second optical connector is close to or away from the connection surface of the first optical connector.

A very small form factor multifiber fiber optic connection system includes an adapter and mating connectors with complementary prealignment features for prealigning multifiber ferrules in the adapter to prevent guide pin stubbing. The adapter has a prealignment feature formed on at least one interior side of each individual connector port and the connectors have a complementary prealignment formation along a side wall of the connector housing assembly. Each prealignment feature slidably engages the prealignment formation of a fiber optic connector as the fiber optic connector is inserted into the individual connector port to prealign a multifiber ferrule of the fiber optic connector in the adapter.