A handle in which a sensor layer capable of detecting grip is disposed on a gripping portion that is gripped at a time of steering. The gripping portion includes a core material, a covering layer formed of urethane foam, which is disposed by die-molding so as to cover a periphery of the core material, the sensor layer, and a protective layer covering the sensor layer. The sensor layer is formed of a mold coat agent formed of a urethane-based paint containing a conductive material. The mold coat agent is applied to a die surface of a molding die of the covering layer. At a time of molding the covering layer, the sensor layer formed of the mold coat agent is disposed on a surface side of the covering layer.

A sensor casing is disclosed that has an open receiving space which has a peripheral edge as a creep barrier at the open end. The receiving space is filled with a potting compound. The cured potting compound forms a concave surface with respect to the peripheral edge. A method for potting an open receiving space of a sensor casing of this kind is also disclosed. The peripheral edge has an outwardly declining slope which allows temporary overfilling of the receiving space during a potting process so as to form a stable convex potting compound surface.

A sensor casing is disclosed that has an open receiving space which has a peripheral edge as a creep barrier at the open end. The receiving space is filled with a potting compound. The cured potting compound forms a concave surface with respect to the peripheral edge. A method for potting an open receiving space of a sensor casing of this kind is also disclosed. The peripheral edge has an outwardly declining slope which allows temporary overfilling of the receiving space during a potting process so as to form a stable convex potting compound surface.

A method of preparing an overmolded optical fiber assembly comprising: (a) placing at least one flexible optical circuit in a bottom mold, said bottom mold defining a bottom overmold cavity having a bottom surface, said at least one flexible optical circuit having a substrate and a plurality of fibers adhered to said substrate, said substrate being disposed within said bottom overmold cavity to define a first space between said substrate and said bottom surface; (b) flowing a polymer in at least said first space; (c) placing a top mold over said substrate, said top mold defining a top overmold cavity and a top surface and a port defined in said top surface to access said top overmold cavity, said substrate defining a second space between said top surface and said substrate; (d) flowing a polymer in at least a portion of said second space; and (e) removing said bottom and top molds to release said overmolded optical circuit.

An ignition coil includes a not-illustrated coil, a plate assembly, and a case assembly. The plate assembly and the case assembly are combined with each other by laser welding at a recess and a rib (projection) which are respective abutting portions, thereby forming storage spaces for storing the coil.

The present disclosure relates to a camera package, a manufacturing method of a camera package, and an electronic device capable of reducing a manufacturing cost for forming a lens. The manufacturing method of the camera package according to the present disclosure includes forming a high-contact angle film around a lens forming region on an upper side of a transparent substrate that protects a solid-state imaging element, dropping a lens material in the lens forming region on the upper side of the transparent substrate, and molding the dropped lens material by a mold to form a lens. The present disclosure is applicable to, for example, a camera package and the like in which a lens is arranged above a solid-state imaging element.

Intraocular implants and methods of making intraocular implants are provided. The intraocular implant can include a lens body having a lens material and a mask having a mask material. The lens body can be secured to the mask. The mask material can include a modulus of elasticity that is greater than or equal to a modulus of elasticity of the lens material.

Intraocular implants and methods of making intraocular implants are provided. The intraocular implant can include a lens body having a lens material and a mask having a mask material. The lens body can be secured to the mask. The mask material can include a modulus of elasticity that is greater than or equal to a modulus of elasticity of the lens material.

An anthropomorphic test device includes a spine assembly substantially extending along a spine axis; a clavicle assembly substantially extending radially from the spine assembly; an arm assembly spaced radially from the spine assembly; and a shoulder assembly connected to the clavicle assembly and disposed adjacent to the arm assembly and defining a proximal portion that is disposed proximal to the spine assembly and a distal portion that is disposed distal to the spine assembly. The shoulder assembly includes a seat belt portion disposed between the proximal portion and the distal portion and having an elasticity that differs from the elasticity of the distal portion.

An anthropomorphic test device includes a spine assembly substantially extending along a spine axis; a clavicle assembly substantially extending radially from the spine assembly; an arm assembly spaced radially from the spine assembly; and a shoulder assembly connected to the clavicle assembly and disposed adjacent to the arm assembly and defining a proximal portion that is disposed proximal to the spine assembly and a distal portion that is disposed distal to the spine assembly. The shoulder assembly includes a seat belt portion disposed between the proximal portion and the distal portion and having an elasticity that differs from the elasticity of the distal portion.