An embodiment of a fuse module has been disclosed. The fuse module includes a housing, a fuse element unit disposed within the housing, and a pair of terminal blades between which the fuse element unit is electrically connected. Each terminal blade has a pair of connection portions.

An embodiment of a fuse module has been disclosed. The fuse module includes a housing, a fuse element unit disposed within the housing, and a pair of terminal blades between which the fuse element unit is electrically connected. Each terminal blade has a pair of connection portions.

A fuse structure may include an anode pattern, a cathode pattern and a connection member. The anode pattern may be formed on a semiconductor substrate. The cathode pattern may be formed on the anode pattern. The connection member may be electrically connected between the anode pattern and the cathode pattern. The connection member may have different widths.

A fuse structure may include an anode pattern, a cathode pattern and a connection member. The anode pattern may be formed on a semiconductor substrate. The cathode pattern may be formed on the anode pattern. The connection member may be electrically connected between the anode pattern and the cathode pattern. The connection member may have different widths.

A fuse structure may include an anode pattern, a cathode pattern and a connection member. The anode pattern may be formed on a semiconductor substrate. The cathode pattern may be formed on the anode pattern. The connection member may be electrically connected between the anode pattern and the cathode pattern. The connection member may have different widths.

A fuse structure may include an anode pattern, a cathode pattern and a connection member. The anode pattern may be formed on a semiconductor substrate. The cathode pattern may be formed on the anode pattern. The connection member may be electrically connected between the anode pattern and the cathode pattern. The connection member may have different widths.

Therefore, the invention of the present application provides a fuse in which a position and a posture of a fuse element are easily stabilized and which is easily assembled, and a method for manufacturing the fuse. A fuse including a fuse element having a fusing portion; and a casing accommodating the fusing portion; where the fuse element has a long shape extending in a longitudinal direction of the casing and at least two or more fuse elements are provided; the fuse element has one end portion side coupled to each other by a coupling portion; a first holding portion that holds the fuse element is provided in one opening of the casing; and a locking portion that locks the coupling portion of the fuse element is provided in the first holding portion.

Therefore, the invention of the present application provides a fuse in which a position and a posture of a fuse element are easily stabilized and which is easily assembled, and a method for manufacturing the fuse. A fuse including a fuse element having a fusing portion; and a casing accommodating the fusing portion; where the fuse element has a long shape extending in a longitudinal direction of the casing and at least two or more fuse elements are provided; the fuse element has one end portion side coupled to each other by a coupling portion; a first holding portion that holds the fuse element is provided in one opening of the casing; and a locking portion that locks the coupling portion of the fuse element is provided in the first holding portion.

A fuse structure includes a substrate, a fuse element, and an auxiliary device. The fuse element is disposed on the substrate. The auxiliary device includes a source region and a drain region respectively disposed at two opposite sides of the fuse element. The auxiliary device is configured to monitor and diagnose the fuse element. The source region and the drain region are electrically isolated from the fuse element. A monitoring method of the fuse structure includes following steps. A drain voltage signal is applied to the drain region of the auxiliary device, a gate voltage signal is applied to the fuse element, and a signal from the source region is analyzed to diagnose a condition of the fuse element.

A fuse structure includes a substrate, a fuse element, and an auxiliary device. The fuse element is disposed on the substrate. The auxiliary device includes a source region and a drain region respectively disposed at two opposite sides of the fuse element. The auxiliary device is configured to monitor and diagnose the fuse element. The source region and the drain region are electrically isolated from the fuse element. A monitoring method of the fuse structure includes following steps. A drain voltage signal is applied to the drain region of the auxiliary device, a gate voltage signal is applied to the fuse element, and a signal from the source region is analyzed to diagnose a condition of the fuse element.