JPS6337492B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a solid electrolytic capacitor having features in the cathode lead.

There are strict demands for miniaturization of electronic components, and chip-type capacitors are becoming mainstream. When solid electrolytic capacitors with polarity are miniaturized, the problem of polarity display always arises. Furthermore, since the cathode lead is only connected to the outer periphery of the element, if the adhesion is insufficient, problems such as the element rubbing during molding will occur.

Conventional means for indicating the polarity of chip-type solid electrolytic capacitors are as shown in FIGS. 1 to 4. FIG. 1 shows a case where a notch 2 is provided in a part of the exterior resin 1 to indicate the polarity by appearance, and FIG. 2 shows the shapes of the anode lead 3 and cathode lead 4 pulled out from the exterior resin 1. 3 shows a case where the anode lead 5 and cathode lead 6 are drawn out from the exterior resin 1 in different positions (heights) from the bottom surface, and FIG. This is a case where the groove 8 is formed to be biased towards the anode lead side.

The above polarity display function is based on the premise that both the anode and cathode leads face each other and are pulled out in a straight line from side to side.The external shape of the exterior resin 1 must be given a characteristic, or the shape of the leads can be changed. I'm going by this.

In the present invention, the anode lead is attached by extending in the same direction as the anode lead, but the cathode lead is brought into contact with the outer periphery so as to surround the capacitor element, and the direction in which the cathode lead is pulled out is perpendicular to the anode lead. The polarity display function can be performed more reliably than before because the electrode has been changed to a cross shape, and the cathode lead is fixed to the outer periphery surrounding the element, so it can be fixed securely, and it is also characterized by miniaturization. .

In the present invention, an anode lead drawn out from a solid electrolytic capacitor element manufactured by a known method is welded to the anode lead in the same direction as in the conventional method. On the other hand, the cathode lead is a solid electrolytic capacitor in which the capacitor element is outer-layered with resin so that the cathode lead is led out in a direction perpendicular to the direction in which the anode lead is drawn out, and the end of each anode lead is exposed.

An embodiment of the solid electrolytic capacitor of the present invention will be described based on the drawings. Reference numeral 10 is a tantalum solid electrolytic capacitor element, which has a known structure. An anode lead 11, which is partially buried within the element, is led out from the element 10. A branch-shaped anode lead 12 is extended in the same direction as the direction in which the anode lead 11 is drawn out and welded to the anode lead 11 .

13 is a cathode lead; this cathode lead 13
is drawn out in a direction perpendicular to the anode lead 12. At the center of this cathode lead 13, a U-shaped bent portion 14 is in contact with the outer periphery of the element so as to surround the element 10. The element 10 and the cathode lead 13 are electrically connected using a conductive adhesive 15.
done mechanically.

A lead frame is used for these anode lead lead 12 and cathode lead 13, and after the element 10 is disposed at a predetermined location of this lead frame and fixed, the capacitor element 10 is molded with an exterior resin 16.

FIG. 10 shows a molded solid electrolytic capacitor 17. An end of the anode lead 12 and both ends of the cathode lead 13 are led out from the exterior resin 16. FIG. 11 shows an example of a capacitor suitable for a chip type, in which the anode lead lead 12 and the cathode lead 13 led out from the exterior resin 16 are bent along the wall surface of the exterior resin 16. FIG. 12 shows a bottom view of the same.

The solid electrolytic capacitor of the present invention is a capacitor as described above, in which the anode lead lead and the cathode lead are not arranged in a straight line as in the conventional case, but are arranged in a direction perpendicular to the anode lead. Since the end of the anode lead and both ends of the cathode lead are drawn out from the exterior resin, polarity can be reliably determined regardless of the shape of the exterior resin, such as a cube. In addition, since conventional capacitor elements were simply placed on the cathode lead, the injection pressure during molding could cause the position to shift or deteriorate the characteristics of the capacitor. In the present invention, the shape of the cathode lead is formed so as to surround the element, so that the element does not move when resin molded, and reliability is improved. moreover,
This invention has the effect of being able to shorten the longitudinal dimension and downsize compared to conventional capacitors.

[Brief explanation of the drawing]

Figures 1 to 4 show the lead structure of a conventional capacitor, with Figure 1 being a front view, Figure 2 being a plan view, Figures 3 and 4 being a plan view, and Figure 5 being the present invention. Figure 6 is a front view, Figure 6 is a side view, Figure 7 is a plan view,
8 is a front view of the conventional structure, FIG. 9 is a perspective view of the present invention, FIG. 10 is a perspective view after molding, FIG. 11 is a front view, and FIG. 12 is a bottom view. 10: Capacitor element, 11: Anode lead, 1
2: Anode lead, 13: Cathode lead, 1
6: Exterior resin, 17: Capacitor.

Claims (1)

[Claims] 1. With respect to the anode lead led out from the solid electrolytic capacitor element, an anode lead extended in the same direction as this anode lead and an anode lead that is in contact with the outer periphery surrounding this element and perpendicular to this anode lead. A solid electrolytic capacitor comprising a cathode lead drawn out in a direction such that the capacitor element is covered with an exterior resin so that the end of the anode lead and both ends of the cathode lead are led out.