JPS63265418A - Chip-shaped solid-state electrolytic capacitor with fuse and manufacture thereof - Google Patents

Abstract

PURPOSE:To prevent the blowoff of solder from a capacitor element and the accident of burning, to automate the connection of a fuse and to improve the volumetric efficiency of capacitance by forming the fuse bridging and connecting the connecting section of an anode lead terminal and an external electrode section in a sheathing resin and collectively shaping a large number of terminal assemblies out of one metallic plate. CONSTITUTION:Connecting sections 4a with an anode lead 2 and anode external electrode sections 4b are supported by a frame 11. Conductive adhesives 8 are applied onto the insides of the stepped sections of cathode lead terminals 5, one surface and top face of a cathode layer 3 are bonded with the applying sections, and connecting sections 4a are welded and fixed to the anode lead 2. The connecting sections 4a and the anode external electrode sections 4b are bridged and connected by the soldering of fuses 6, and the upper sections of the sections 4a and 4b are insulated and coated with an silicone resin 7. An assembly shaped in this manner is insulated and sheathed by a sheathing resin 9, leaving each exposed section, and the frame 11 side is cut down on the A-A and C-C lines of the exposed sections of the connecting sections 4a and the B-B lines of the exposed sections of the anode external electrode sections 4b. The anode external electrode sections 4b and the cathode lead terminals 5 are bent along the external wall of the sheathing resin 9, thus forming a capacitor 10.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a chip-shaped solid electrolytic capacitor with a fuse and a method for manufacturing the same.

[Conventional technology]

Conventionally, this type of solid electrolytic capacitor has been generally used in various electronic circuits, and its advantage is that it has a low failure rate, but once a failure occurs, the failure mode is often short-circuit failure. As a result, a large short-circuit current flows and the capacitor generates heat, which may eventually lead to burnout. When a failure occurs due to this excessive short-circuit current, it is necessary to change the failure mode from short-circuit to open circuit in order to protect the circuit components, and fuses are generally used.

FIG. 5 and FIG. 6 are a perspective view and a sectional view, respectively, of a conventional solid electrolytic capacitor. Cathode a3 and anode lead 2
An anode lead terminal 4 is connected to an anode lead 2 of a capacitor element l, the cathode layer 3 and the cathode lead terminal 5 are bonded via an insulating adhesive 21, and a fuse 6 is connected to a solder 2.
0, and the fuse 6 is made of elastic resin 7.
A chip-shaped solid electrolytic capacitor with a fuse is constructed by covering the whole with resin 9.

[Problem that the invention seeks to solve]

The conventional fuse-equipped chip solid electrolytic capacitor described above has the following drawbacks because the cathode layer and the cathode lead terminal are electrically connected by the fuse.

(1) The fuse and capacitor element are close to each other,
When an overcurrent flows, the fuse generates heat, and this heat indirectly melts the solder on the cathode layer, which expands thermally and breaks the exterior resin, causing solder to blow out from the broken surface and short-circuit other wiring circuits. This may cause secondary damage, or directly cause burnout of the capacitor element, and may even cause serious damage to the entire circuit.

(2) When connecting a fuse, insulating resin is used to insulate between the cathode layer of the capacitor element and the cathode lead terminal, but there is a risk of short circuit between the cathode layer and the cathode lead terminal during the curing process of this resin. Is the sex a joke? 'I-in advance h
It is necessary to insulate at least one side of the capacitor, and since the size and shape of the capacitor element itself are not necessarily constant, the surface of the cathode layer cannot be soldered. The process becomes complicated, as it is difficult to attach automatically.

(3) There is a strong demand for chip-shaped solid electrolytic capacitors to be smaller in size and larger in capacity, so it is necessary to make the capacitor element to be accommodated larger and the thickness of the outer resin to be as thin as possible.
In order to connect a fuse to the cathode layer side, the above requirements are met due to various factors such as securing space for the connection part and the fuse itself, and increasing the thickness of the exterior resin to prevent solder from blowing out. On the other hand, the volumetric efficiency of capacity becomes smaller.

[Means for solving problems]

The chip-shaped solid electrolytic capacitor with a fuse of the present invention is
It includes a capacitor element consisting of a cathode layer and an anode lead, and the cathode lead terminal is fixed to the surface opposite to the anode lead and the top surface of the cathode layer with a conductive adhesive, and the anode lead is connected to a fuse covered with an elastic resin. The connecting portion of the anode lead terminal in which the connecting portion and the anode external electrode portion are connected is fixed, and the anode external electrode portion of the anode lead terminal and the exposed portion of the cathode lead terminal are insulated and covered with resin. Become.

In addition, the method for manufacturing a chip-shaped solid electrolytic capacitor with a fuse according to the present invention includes forming a connecting portion of an anode lead terminal and an anode external electrode portion in one metal plate, and forming the connecting portion of the anode lead terminal and the anode external electrode portion. and a step of separating the connection portion of the anode lead terminal and the anode external electrode portion from the frame outside the resin packaging after the resin packaging.

Still another manufacturing method of the present invention is to form anode lead terminals in which connection portions of the anode leads protruding from the frame at predetermined intervals and anode external electrode portions are provided in one metal plate, and , forming a cathode lead terminal having cathode external electrode parts protruding from opposing frames at predetermined intervals, and bridging and connecting the connecting part of the anode lead terminal and the anode external electrode part with a fuse; a step of covering the anode lead terminal with an elastic body having insulating properties, a step of separating the connection part of the anode lead terminal and the external electrode part outside the outer resin after the resin sheathing, and a step of separating the anode external electrode part and the cathode external electrode part from the frame, respectively. It has a step of separating.

[Effect]

Therefore, even if a large short-circuit current flows, the fuse is separated from the cathode layer of the capacitor element, so there will be no solder blown out or burnout from the capacitor element until the fuse heats up and breaks. The connection part of the anode lead terminal and the external electrode part are manufactured by mechanical processing and have good flatness and uniformity of dimensions, so the fuse can be connected by an automatic machine. Compared to the cathode layer side, the fuse connection space is sufficient, and there is no need to increase the size of the chip or reduce the size of the capacitor element, improving the volumetric efficiency of the capacitance.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a partially cross-sectional perspective view showing the internal structure of an embodiment of a chip-type solid electrolytic capacitor with a fuse according to the present invention, and FIG.
The figure is a sectional view of FIG. 1.

A capacitor element 1 consisting of a cathode layer 3 and an anode lead 2 has on the surface of the cathode layer 3 opposite to the anode lead 2 and on the top surface,
A cathode lead terminal 5 is fixed with a conductive adhesive 8, and a fuse 6 covered with an elastic (silicon) resin 7 connects a connecting part 4a and an anode external electrode part 4b to the anode lead 2.
The connecting portion 4a of the anode lead terminal 4, which is connected to
A chip-shaped solid electrolytic capacitor 10 with a fuse is constructed by being insulated and packaged.

Next, this chip solid electrolytic capacitor with fuse 1
The manufacturing method of 0 will be explained. FIG. 3 shows the shape of the anode lead terminal 4 before assembly, in which the connection portion 4a with the anode lead 2 and the anode external electrode portion 4b are supported by the frame 11. A conductive adhesive 8 is applied to the inside of the stepped portion of the cathode lead terminal 5, one surface and the top surface of the cathode layer 3 are adhered to this applied portion, and the connection portion 4a of the anode lead terminal 4 is
is welded and fixed to the anode lead 2, and the connecting portion 4a and the anode external electrode portion 4b are bridge-connected by soldering a fuse 6, and the top thereof is covered with a silicone resin 7. The silicone resin 7 has elasticity and insulation properties. The assembly thus formed includes the connection portion 4a and the anode external electrode portion 4b of the anode lead terminal 4, and the cathode lead terminal 5.
After the connecting portion 4a is covered with insulation by transfer molding means with the covering resin 9, leaving the exposed portions of each of the connecting portions 4a
A-A and C-C lines of the exposed part of the anode external electrode part 4b
The frame 11 is cut off from the exposed part of the B-B line, and the anode external electrode part 4b of the anode lead terminal 4 and the cathode lead terminal 5 are bent along the outer wall of the exterior resin 9 to form a chip with a fuse. In this embodiment, in which the solid electrolytic capacitor 10 is formed, an epoxy resin is used as the exterior resin 9.

Next, this chip-shaped solid electrolytic capacitor l with a fuse is
Another method for producing O will be explained.

FIG. 4(a) shows the anode lead terminal 4. This figure shows the shape of the cathode lead terminal 5 before assembly, in which the connection part 4a with the anode lead 2 and the anode external electrode part 4b are connected to the frame 11 on one side, and the cathode lead terminal 5 is connected to the frame 11 on the other side. It is supported by a frame 12.

Both the anode lead terminal 4 and the cathode lead terminal 5 protrude from the frame 11, 12, which is a single metal plate, in the same plane at a predetermined interval, and have the same pitch.

FIG. 4(b) shows the anode lead terminal 4. This figure shows the shape of the cathode lead terminal 5 after assembly.

First, a conductive adhesive 8 is applied to the inside of the stepped portion of the cathode lead terminal 5, and the anode lead terminal 4,
One side surface and the top surface of the cathode layer 3 of the capacitor element l arranged at the same pitch as the cathode lead terminals 5 are bonded.
Next, the connection part 4a of the anode lead terminal 4 and the anode lead 2 are connected by welding, and the connection part 4a and the anode external electrode part 4b are bridged by soldering or wire bonding using a fuse 6. connection.

The top thereof is covered with an elastic resin 7 having insulating properties such as silicone resin. Finally, the connection part 4a of the anode lead terminal 4,
After leaving the exposed part of the anode external electrode part 4b and the cathode external electrode part 5a, which is the exposed part of the cathode lead terminal 5, insulating and sheathing with an exterior resin 9 using means such as transfer molding as shown in FIG. The plate is cut from the A-A line and C-C line of the exposed part of the connection part 4a of the anode lead terminal 4 and the B-B line of the exposed part of the anode external electrode part 4b.
1 side, and then similarly cut from the D-D line of the cathode external electrode part 5a, which is the exposed part of the cathode lead terminal 5, and separated from the frame 12 side, and the remaining anode external electrode part 4b,
The cathode external electrode portion 5a is bent along the outer wall of the exterior resin 9 to form a chip-shaped solid electrolytic capacitor IO with a fuse.

Even if an overcurrent is applied to the chip-shaped solid electrolytic capacitor with a fuse formed in this way, since the fuse 6 and the cathode layer 3 are not close to each other, there will be a short period of time between the time when the fuse 6 generates heat and the time when it blows out. No accidents such as solder blowing out from the cathode layer 3 or burnout of the capacitor element 1 occurred, and it was confirmed that the device functioned reliably as a safety device and that no secondary disasters occurred. In addition, anode lead terminal 4. The cathode lead terminal 5 is formed by machining or the like in the shape shown in FIGS. 3 and 4(a), so it is low cost, has good flatness and uniformity of dimensions, and can be used with automatic wire bonding machines, etc. By applying this method, automatic connection of fuses became possible, greatly simplifying the manufacturing process. Furthermore, there is more space on the anode lead terminal 4 side to connect the fuse 6 than on the cathode lead terminal 5 side, so there is no need to increase the size of the chip or reduce the size of the capacitor element l. It has a volumetric efficiency equivalent to that of a solid electrolytic chip capacitor. A chip-shaped solid electrolytic capacitor with a fuse that can meet the demands for smaller size and larger capacity was obtained.

〔Effect of the invention〕

As explained above, the present invention provides an anode lead terminal consisting of a connection part with an anode lead and an external electrode part, and a fuse that bridges and connects the connection part of the anode lead terminal and the external electrode part inside the exterior resin. Furthermore, the following effects can be achieved by manufacturing many terminal boards from one metal plate at once.

(1) Even in the event of a short circuit, there is no risk of solder blowing out from the cathode layer or burnout of the capacitor itself.

(2) The terminal board can be manufactured with high precision and at low cost, and the bridging connection between the connection part and the external electrode part using a fuse can be easily performed using automatic equipment, which greatly simplifies the manufacturing process. .

(3) High volumetric efficiency, small size, and easy increase in capacity.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing the internal structure of one embodiment of a chip-type solid electrolytic capacitor with a fuse according to the present invention, and FIG.
3 is a front view of an example of the shape of the anode lead terminal 4 before assembly, and FIG. 4(b) is a plan view showing the shape of the cathode lead terminal 5 before assembly, FIG. 4(b) is a plan view showing the shape after assembly, and FIG.
This figure is a perspective view showing the internal structure of an example of a conventional chip-shaped solid electrolytic capacitor with a fuse, and FIG. 6 is a side sectional view of FIG. 5. l... Capacitor element, 2... Anode lead, 3...
- Cathode layer, 4... Anode lead terminal. 4a... Connection part, 4b... Anode external electrode part,
5... Cathode lead terminal, 5b... Cathode external electrode part,
6... Fuse, 7... Elastic (silicon) resin, 8... Conductive adhesive, 9... Exterior resin. 10...Chip solid electrolytic capacitor with fuse, 11.12...Frame. 20...Solder, 21...Insulating adhesive. Figure 1

Claims (1)

[Claims] 1. It includes a capacitor element consisting of a cathode layer and an anode lead, a cathode lead terminal is fixed to the surface of the cathode layer opposite to the anode lead and the top surface with a conductive adhesive, and the anode lead has an elastic material. The connecting portion of the anode lead terminal, in which the connecting portion and the anode external electrode portion are connected by a resin-coated fuse, is welded and fixed, and the exposed portions of the anode external electrode portion and the cathode lead terminal of the anode lead terminal are further removed. A chip-shaped solid electrolytic capacitor with a fuse and an insulating exterior made of resin. 2. A fuse that includes a capacitor element consisting of a cathode layer and an anode lead, a cathode lead terminal is fixed to the surface of the cathode layer opposite to the anode lead and the top surface with a conductive adhesive, and the anode lead is covered with an elastic resin. The connecting portion of the anode lead terminal in which the connecting portion and the anode external electrode portion are connected is fixed, and the anode external electrode portion of the anode lead terminal and the exposed portions of the cathode lead terminal are further insulated and coated with resin. In the manufacturing method of a chip-shaped solid electrolytic capacitor with a fuse, a connection part of an anode lead terminal and an anode external electrode part are formed in one metal plate, and the connection part of an anode lead terminal and an anode external electrode part are connected with a fuse. A method for manufacturing a chip-shaped solid electrolytic capacitor with a fuse, comprising a step of making a bridging connection, and a step of separating the connection portion of the anode lead terminal and the anode external electrode portion from the frame outside the resin packaging after the resin packaging. 3. A fuse that includes a capacitor element consisting of a cathode layer and an anode lead, a cathode lead terminal is fixed to the opposite side of the cathode layer from the anode lead and the top surface with a conductive adhesive, and the anode lead is covered with an elastic resin. The connecting portion of the anode lead terminal in which the connecting portion and the anode external electrode portion are connected is fixed, and the anode external electrode portion of the anode lead terminal and the exposed portions of the cathode lead terminal are further insulated and coated with resin. In the manufacturing method of a chip-shaped solid electrolytic capacitor with a fuse, an anode lead terminal is formed in a single metal plate, and an anode lead terminal is provided with an anode lead connection part and an anode external electrode part protruding from a frame at predetermined intervals, Further, a step of forming a cathode lead terminal having cathode external electrode portions protruding from the opposing frames at predetermined intervals, and bridging and connecting the connection portion of the anode lead terminal and the anode external electrode portion with a fuse; a step of covering the fuse with an insulating elastic body; and a step of separating the anode lead terminal connection portion and the anode external electrode portion from the frame outside the outer resin after the resin sheathing;
A method for manufacturing a chip-shaped solid electrolytic capacitor with a fuse, comprising the step of separating the anode external electrode portion and the cathode external electrode portion from the frame, respectively.