A connector for providing electronic communication with an electronic device is disclosed. The connector can comprise a substrate comprising layers of non-conductive material and conductive material. The connector can include an interface member mounted to the substrate and electrically connected with the conductor. A positive temperature coefficient (PTC) fuse can be embedded in the substrate and electrically connected with the conductor and the interface member. At least a portion of the PTC fuse can be disposed directly below the interface member.

A connector for providing electronic communication with an electronic device is disclosed. The connector can comprise a substrate comprising layers of non-conductive material and conductive material. The connector can include an interface member mounted to the substrate and electrically connected with the conductor. A positive temperature coefficient (PTC) fuse can be embedded in the substrate and electrically connected with the conductor and the interface member. At least a portion of the PTC fuse can be disposed directly below the interface member.

A connector configured to be fitted with a mating connector includes a main housing, a sub-housing supported on the main housing to be slidable in a fitting direction with respect to the main housing in which the connector is fitted with the mating connector, and an operating member pivotably and slidably supported on the main housing. The main housing moves closer to the mating connector when the operating member is pivoted from a first posture to a second posture. The sub-housing moves in the fitting direction when the operating member slides from the second posture in a direction different from the fitting direction. The sub-housing has an erroneous fitting prevention part abutting against the mating connector in a state of incomplete fitting of the connector with the mating connector.

Electrical connector comprising a detection device for detecting potential overheating, which comprises an electrically conductive element and an electrically insulating element inserted between the electrically conductive element and a low-voltage line. The electrically conductive element exerts an elastic force on the insulating element. For example, the electrically conductive element is a spring. In the event of overheating, the insulating element deforms under the pressure of the electrically conductive element and enables an electrical connection between two low-voltage lines. The overheating is detected as a consequence of the electrical design of this connection between the low-voltage lines.

Electrical connector comprising a detection device for detecting potential overheating, which comprises an electrically conductive element and an electrically insulating element inserted between the electrically conductive element and a low-voltage line. The electrically conductive element exerts an elastic force on the insulating element. For example, the electrically conductive element is a spring. In the event of overheating, the insulating element deforms under the pressure of the electrically conductive element and enables an electrical connection between two low-voltage lines. The overheating is detected as a consequence of the electrical design of this connection between the low-voltage lines.

Electrical connector comprising a detection device for detecting potential overheating, which comprises an electrically conductive element and an electrically insulating element inserted between the electrically conductive element and a low-voltage line. The electrically conductive element exerts an elastic force on the insulating element. For example, the electrically conductive element is a spring. In the event of overheating, the insulating element deforms under the pressure of the electrically conductive element and enables an electrical connection between two low-voltage lines. The overheating is detected as a consequence of the electrical design of this connection between the low-voltage lines.

Electrical connector comprising a detection device for detecting potential overheating, which comprises an electrically conductive element and an electrically insulating element inserted between the electrically conductive element and a low-voltage line. The electrically conductive element exerts an elastic force on the insulating element. For example, the electrically conductive element is a spring. In the event of overheating, the insulating element deforms under the pressure of the electrically conductive element and enables an electrical connection between two low-voltage lines. The overheating is detected as a consequence of the electrical design of this connection between the low-voltage lines.

An overheating destructive disconnecting method for switch, whereby an operating member applies a first elastic force under normal conditions to enable the movable conductive member contacts a first conductive member and a second conductive member to form a conductive circuit; and a second elastic force to enable the movable conductive member to separate from the first conductive member or the second conductive member. The installation position of the overheating destructive member is used to receive heat energy instead of allowing current to flow thereto. When the overheating destructive member is destructed or deformed under a fail temperature condition, lessening or loss of the force applied by the first elastic force towards the movable conductive member causes the movable conductive member to no longer allow electrical conduction to the first conductive member and the second conductive member, thereby breaking the current-carrying circuit.

An overheating destructive disconnecting method for switch, whereby an operating member applies a first elastic force under normal conditions to enable the movable conductive member contacts a first conductive member and a second conductive member to form a conductive circuit; and a second elastic force to enable the movable conductive member to separate from the first conductive member or the second conductive member. The installation position of the overheating destructive member is used to receive heat energy instead of allowing current to flow thereto. When the overheating destructive member is destructed or deformed under a fail temperature condition, lessening or loss of the force applied by the first elastic force towards the movable conductive member causes the movable conductive member to no longer allow electrical conduction to the first conductive member and the second conductive member, thereby breaking the current-carrying circuit.

A vertical surface mount device pass-through fuse including an electrically insulating fuse body, a fusible element disposed on a first side of the fuse body and extending between first and second terminals, an electrically insulating cap having a domed portion and a flanged portion extending from the domed portion, the domed portion disposed over the fusible element, and the flanged portion affixed to the fuse body, and a conductive lead frame having a bow portion and an elongate shank portion extending from the bow portion, wherein the bow portion is disposed on the cap and is connected to the first terminal, and wherein the shank portion extends away from the fuse body.