Included are a battery terminal connected to a battery post erected on a first surface of a battery, a battery connection unit provided with an electronic component connected to the battery terminal and to which ends of electric wires are connected, and a accommodating member that accommodates the battery terminal and the battery connection unit. The accommodating member has a through-hole through which the battery post is inserted, a terminal accommodating chamber in which a free end side of the battery post inserted through the through-hole is arranged and which accommodates the battery terminal connected to the free end side, and a butting portion that is projected from a periphery of the through-hole toward the first surface of the battery and made abut on the first surface.

A high current terminal for electronic circuit protection includes: a first sectional terminal into which a current flows from the outside; a second sectional terminal transmitting a current flowing inside through the first terminal to the outside; and an element coupled between the first sectional terminal and the second sectional terminal, wherein the element disconnects the first sectional terminal and the second sectional terminal by melting when a current exceeding a preset condition flows inside through the first sectional terminal, and is formed to have a thickness that is equal to or less than thicknesses of the first sectional terminal and the second sectional terminal.

A high current terminal for electronic circuit protection includes: a first sectional terminal into which a current flows from the outside; a second sectional terminal transmitting a current flowing inside through the first terminal to the outside; and an element coupled between the first sectional terminal and the second sectional terminal, wherein the element disconnects the first sectional terminal and the second sectional terminal by melting when a current exceeding a preset condition flows inside through the first sectional terminal, and is formed to have a thickness that is equal to or less than thicknesses of the first sectional terminal and the second sectional terminal.

A conductive spring plate fixing element is used to limit a live wire spring plate and a live wire conductive plate from contacting with each other, as well as a neutral wire spring plate and a neutral wire conductive plate from contacting with each other. The width of the limited part of the live wire spring plate is T1, the width of the limited part of the neutral wire spring plate is T2, and the live wire spring plate is separated from the neutral wire spring plate by an insulation distance L. The conductive spring plate fixing element includes a first limiting end and a second limiting end; whereas, the distance between the first limiting end and the second limiting end, M, is equal to T1+T2+L.

A conductive spring plate fixing element is used to limit a live wire spring plate and a live wire conductive plate from contacting with each other, as well as a neutral wire spring plate and a neutral wire conductive plate from contacting with each other. The width of the limited part of the live wire spring plate is T1, the width of the limited part of the neutral wire spring plate is T2, and the live wire spring plate is separated from the neutral wire spring plate by an insulation distance L. The conductive spring plate fixing element includes a first limiting end and a second limiting end; whereas, the distance between the first limiting end and the second limiting end, M, is equal to T1+T2+L.

The invention relates to an electronic device, in particular a control device, having a housing. The housing has a cavity, in which there is arranged a circuit carrier fitted with electric and/or electronic components, forming an electric and/or electronic circuit. Furthermore, the electronic device has a fuse element making contact with the circuit carrier in order to protect the electric and/or electronic circuit against electrostatic discharges. In addition, the electric and/or electronic circuit comprises a plug contact which has connecting pins, and the connecting pins make contact with the circuit carrier. Here, the at least one connecting pin is formed as the fuse element, in that the at least one connecting pin is connected to a ground line. Furthermore, an extremely small distance of the housing from an electrically conductive region of the electronic and/or electronic circuit is provided at a point of the at least one connecting pin formed as a fuse element, by which means, in the event of an electrostatic discharge, a preferred discharge path is formed between the housing and the ground line.

The invention relates to an electronic device, in particular a control device, having a housing. The housing has a cavity, in which there is arranged a circuit carrier fitted with electric and/or electronic components, forming an electric and/or electronic circuit. Furthermore, the electronic device has a fuse element making contact with the circuit carrier in order to protect the electric and/or electronic circuit against electrostatic discharges. In addition, the electric and/or electronic circuit comprises a plug contact which has connecting pins, and the connecting pins make contact with the circuit carrier. Here, the at least one connecting pin is formed as the fuse element, in that the at least one connecting pin is connected to a ground line. Furthermore, an extremely small distance of the housing from an electrically conductive region of the electronic and/or electronic circuit is provided at a point of the at least one connecting pin formed as a fuse element, by which means, in the event of an electrostatic discharge, a preferred discharge path is formed between the housing and the ground line.

A connecting-conductor is disclosed. The connecting-conductor may have a first conductor-element and a second conductor-element. Each conductor-element has a first end that is mechanically-connected and electrically-conductively connected to a resistor-element. The resistor-element has an electrical-insulating substrate, and a resistive material annularly disposed on at least part of the electrical-insulating substrate. The first end of each conductor-element is electrically-conductively connected to the resistive material. The first conductor does not touch the second conductor, and an electrical pathway is created via the resistive material from one of the conductor-elements to the other of the conductor-elements.

An insulative fixing plate damaged when overheating limits two conductive elements from contacting with each other, forming a closed path, when overheating, opening two conductive elements by an elastic force to form an open circuit. Each conductive element has a groove concaved in from an edge, and the groove has a groove width. The insulative fixing plate includes a connecting element and two limiting elements combined at two ends of the connecting element. Each limiting element has a working width larger than the groove width, and a holding space between the two limiting elements contains the two conductive elements, thereby abutting the two limiting elements at an external side of the conductive element respectively and limiting the two conductive elements from contacting with each other. The connecting element is damaged when overheating. The insulative fixing plate is used in overheat protection for a plug or a socket.

An insulative fixing plate damaged when overheating limits two conductive elements from contacting with each other, forming a closed path, when overheating, opening two conductive elements by an elastic force to form an open circuit. Each conductive element has a groove concaved in from an edge, and the groove has a groove width. The insulative fixing plate includes a connecting element and two limiting elements combined at two ends of the connecting element. Each limiting element has a working width larger than the groove width, and a holding space between the two limiting elements contains the two conductive elements, thereby abutting the two limiting elements at an external side of the conductive element respectively and limiting the two conductive elements from contacting with each other. The connecting element is damaged when overheating. The insulative fixing plate is used in overheat protection for a plug or a socket.