A sensor assembly includes an upper shell and a lower shell and is configured to mate together. The upper and lower shells form a cavity therebetween that extends along a length of the shells. The cavity is configured to receive a wire having an insulated jacket and a conductor. A contact member is positioned within the cavity and configured to pierce the insulated jacket and engage the conductor to establish a direct thermally conductive path to a discrete location of a main circuit. A sensor operatively connects with the contact member and is configured for detecting a temperature of the discrete location through the direct thermally conductive path.

A sensor assembly includes an upper shell and a lower shell and is configured to mate together. The upper and lower shells form a cavity therebetween that extends along a length of the shells. The cavity is configured to receive a wire having an insulated jacket and a conductor. A contact member is positioned within the cavity and configured to pierce the insulated jacket and engage the conductor to establish a direct thermally conductive path to a discrete location of a main circuit. A sensor operatively connects with the contact member and is configured for detecting a temperature of the discrete location through the direct thermally conductive path.

An electrical connector for connecting a pair of leads to a double-sided printed circuit board includes a housing having a receiving slot receiving the double-sided printed circuit board and a lead insertion chamber, and a pair of contact springs disposed on opposite sides of the receiving slot and electrically insulated from each other. The contact springs extend into the lead insertion chamber. Each contact spring has a lead contact for connection to a different lead of the pair of leads.

An electrical connector for connecting a pair of leads to a double-sided printed circuit board includes a housing having a receiving slot receiving the double-sided printed circuit board and a lead insertion chamber, and a pair of contact springs disposed on opposite sides of the receiving slot and electrically insulated from each other. The contact springs extend into the lead insertion chamber. Each contact spring has a lead contact for connection to a different lead of the pair of leads.

Provided is a connector capable of enhancing contact reliability between a cable and a contact by improving press-contact accuracy of the cable by the contact. The connector (10) configured to clamp a core wire of a cable by a press-contact portion includes: a pair of fitting objects fitted to each other; a contact (50) provided in the fitting objects and having a pair of press-contact portions; a first partition wall (18b1) formed in one of the fitting objects; and a second partition wall (33) formed in another one of the fitting objects, in which a pair of press-contact portions of the contact (50) are spaced apart from each other and are separated by the first partition wall (18b1) and the second partition wall (33) in a pair of fitting objects fitted to each other.

Provided is a connector capable of enhancing contact reliability between a cable and a contact by improving press-contact accuracy of the cable by the contact. The connector (10) configured to clamp a core wire of a cable by a press-contact portion includes: a pair of fitting objects fitted to each other; a contact (50) provided in the fitting objects and having a pair of press-contact portions; a first partition wall (18b1) formed in one of the fitting objects; and a second partition wall (33) formed in another one of the fitting objects, in which a pair of press-contact portions of the contact (50) are spaced apart from each other and are separated by the first partition wall (18b1) and the second partition wall (33) in a pair of fitting objects fitted to each other.

A cable connector includes a conductive terminal having a positioning wall and a piercing wall. The piercing wall can pierce an outer insulating sheath of a thin cable to be electrically connected to an inner core of the cable. The positioning wall can position the thin cable to reduce bending or dislocation of the thin cable caused by a force and thus minimize pulling of the core. This ensures electrical connection between the piercing wall and the core of the thin cable, and also prevents the core from being damaged or broken by any pulling force.

A cable connector includes a conductive terminal having a positioning wall and a piercing wall. The piercing wall can pierce an outer insulating sheath of a thin cable to be electrically connected to an inner core of the cable. The positioning wall can position the thin cable to reduce bending or dislocation of the thin cable caused by a force and thus minimize pulling of the core. This ensures electrical connection between the piercing wall and the core of the thin cable, and also prevents the core from being damaged or broken by any pulling force.

A connector and a package body that can be transported without exposing a filler to the outside and can stably deliver predetermined performance during use are provided. A connector (10) comprises: a pair of a first fitting object (16) and a second fitting object (30); a first opening (29) and a second opening (44) formed respectively in the first fitting object (16) and the second fitting object (30) and opened to a fitting side; and a filler (70) provided inside at least one fitting object of the first fitting object (16) and the second fitting object (30), wherein, before the first fitting object (16) and the second fitting object (30) are fitted together, the filler (70) is located inside of an opening of a corresponding fitting object, and an end surface of the second fitting object (30) on the fitting side forms a plane.

Provided is a connector capable of sufficiently preventing a foreign matter from entering from outside by preventing a decrease in compressibility of a filler. A connector (10) according to this disclosure is a connector configured to cut an insulating sheath of a cable by a press-contact groove. The connector includes: a pair of a first fitting object (16) and a second fitting object (30) capable of being fitted together; a contact (50) provided in the first fitting object (16) or the second fitting object (30) and having a press-contact groove; a wall portion (44) provided in at least one of the first fitting object (16) and the second fitting object (30) and opposing the contact (50) when the first fitting object (16) and the second fitting object (30) are fitted together; and a filler (70) provided in at least one of the first fitting object (16) and the second fitting object (30), wherein the wall portion (44) is clamped by the filler (70) and the contact (50) when the first fitting object (16) and the second fitting object (30) are fitted together.