An electrical connection encapsulation device for electrically connecting a flexible flat cable to discrete electrical wires. The device includes a flexible flat cable with a dielectric, planar, flexible carrier and at least one electrically conductive line attached to at least one surface, first and second flat, soft and pliable material layers attached to the first surface and the second surface of the flexible carrier, respectively, by adhesive bonds, at least one electrical connector member that is electrically connectable to a discrete electrical wire at one end and to the at least one electrically conductive line with the other end. The first and second layers are arranged to at least partially overlap the at least one electrically conductive line in the connecting end region in the perpendicular direction, and to extend beyond the end of the at least one electrical connector member that is facing away from the connecting end region.

An electrical device includes a flat electrical conductor defining an aperture and an electrically conductive rivet with a body having a layer of a solder composition disposed on a first side and a tubular shaft extending from a second side of the body opposite the first side. A free end of the tubular shaft is flared such that the free end has a diameter larger than a diameter of the aperture.

An electrical device includes a flat electrical conductor defining an aperture and an electrically conductive rivet with a body having a layer of a solder composition disposed on a first side and a tubular shaft extending from a second side of the body opposite the first side. A free end of the tubular shaft is flared such that the free end has a diameter larger than a diameter of the aperture.

A terminal for mating with an exposed conductor of a flat flexible cable comprises an electrical contact and a crimping portion extending from the electrical contact. The crimping portion includes a base defining at least one protrusion extending therefrom, and first and second sidewalls extending from the base. The first sidewall includes a first section attached to the base and a second section attached to the first section on an end opposite the base. In a crimped state of the terminal, the first section of the first sidewall is folded into an opening of the terminal for crimping the conductor within the opening and against the protrusion, and the second section of the first sidewall is folded so as to overlap or oppose a side of the first section opposite the conductor.

A terminal for mating with an exposed conductor of a flat flexible cable comprises an electrical contact and a crimping portion extending from the electrical contact. The crimping portion includes a base defining at least one protrusion extending therefrom, and first and second sidewalls extending from the base. The first sidewall includes a first section attached to the base and a second section attached to the first section on an end opposite the base. In a crimped state of the terminal, the first section of the first sidewall is folded into an opening of the terminal for crimping the conductor within the opening and against the protrusion, and the second section of the first sidewall is folded so as to overlap or oppose a side of the first section opposite the conductor.

A cable assembly includes a flat flexible cable having a plurality of conductors embedded within an insulation material. A portion of each of the conductors is exposed via openings selectively formed in the insulation material, allowing for a crimping portion of an electrically conductive terminal to engage with the conductor within the opening. The crimping portion of the terminal includes a base defining at least one protrusion extending therefrom, and first and second sidewalls extending from the base. The base and sidewalls define an opening configured to receive the conductor therein, wherein the sidewalls are foldable into the opening for crimping the conductor within the opening and generally between the protrusion of the base and a portion of the sidewalls.

A cable assembly includes a flat flexible cable having a plurality of conductors embedded within an insulation material. A portion of each of the conductors is exposed via openings selectively formed in the insulation material, allowing for a crimping portion of an electrically conductive terminal to engage with the conductor within the opening. The crimping portion of the terminal includes a base defining at least one protrusion extending therefrom, and first and second sidewalls extending from the base. The base and sidewalls define an opening configured to receive the conductor therein, wherein the sidewalls are foldable into the opening for crimping the conductor within the opening and generally between the protrusion of the base and a portion of the sidewalls.

A cable assembly includes a flat flexible cable having a plurality of conductors embedded within an insulation material. A portion of each of the conductors is exposed via openings selectively formed in the insulation material, allowing for a crimping portion of an electrically conductive terminal to engage with the conductor within the opening. The crimping portion of the terminal includes a base defining at least one aperture formed therethrough, and first and second sidewalls extending from the base. The base and sidewalls define a conductor opening configured to receive the conductor therein. At least one of the first of second sidewalls includes a sidewall protrusion extending therefrom, wherein the sidewalls are foldable into the conductor opening for crimping the conductor therewithin. In a crimped state of the crimping portion, the conductor is pressed into the aperture by the sidewall protrusion

A cable assembly includes a flat flexible cable having a plurality of conductors embedded within an insulation material. A portion of each of the conductors is exposed via openings selectively formed in the insulation material, allowing for a crimping portion of an electrically conductive terminal to engage with the conductor within the opening. The crimping portion of the terminal includes a base defining at least one aperture formed therethrough, and first and second sidewalls extending from the base. The base and sidewalls define a conductor opening configured to receive the conductor therein. At least one of the first of second sidewalls includes a sidewall protrusion extending therefrom, wherein the sidewalls are foldable into the conductor opening for crimping the conductor therewithin. In a crimped state of the crimping portion, the conductor is pressed into the aperture by the sidewall protrusion

A cable assembly includes a flat flexible cable having a plurality of conductors embedded within an insulation material. A portion of each of the conductors is exposed via openings selectively formed in the insulation material, allowing for a crimping portion of an electrically conductive terminal to engage with the conductor within the opening. The crimping portion of the terminal includes a base defining at least one protrusion extending therefrom, and first and second sidewalls extending from the base. The base and the first and second sidewalls define an opening configured to receive the conductor therein. The first sidewall includes a first section attached to the base and a second section attached to the first section on an end opposite the base. In a crimped state of the terminal, the first sidewall rotated into the opening such that the first section at least partially surrounds the second section, and the second sidewall is rotated in a direction opposite the first section such that the first section at least partially surrounds the second section, for crimping the conductor within the opening and against the protrusion.