DE8318257U1 - CAPACITOR - Google Patents

Description

• f t I

capacitor

The invention relates to a particularly disk-shaped solid state, i.e. dry electrolytic capacitor of the kind used for printed circuit boards, specifically a capacitor, which facilitates the automatic assembly of the printed circuit.

There are already many such capacitors for Printed circuit boards known, the anode and cathode connections of which are on the underside of the Capacitor are located where they can directly contact the corresponding conductor of the printed circuit.

Such capacitors are described, for example, in U.S. Patents 3,855,505 and 4,247,883.

More recently it has been common practice to use the scanned one for the automatic assembly of printed circuits Apply suction carrier technology, with the capacitors expediently in their intended places the circuit board can be brought. The so-called suction carrier ("vacuum chuck") is a tool with which an object is drawn to a suction port connected to a negative pressure or "vacuum" source and is transported to a desired location. So that the suction carrier technology can be used successfully, the surface of the condenser to be sucked, usually its upper side, must be flat and smooth. In In this regard, the known capacitors are inadequate because they are not designed accordingly became. Although the capacitor in the above-mentioned US Pat. No. 4,247,883 has a "flat and smooth" upper Area shown are located in the with

* ··· · ι · ιι ι

"■ J ~"

Resin-filled area actually has small corrugations that are annoying for the suction support technology could be. To remedy this deficiency, it would be possible to use a metal mold to make a Producing a capacitor with a sufficiently smooth surface, but such a production would be expensive and correspondingly expensive.

From US-PS 3,550,228 a disk-shaped capacitor is also known, which has a cap with a flat and has a smooth surface. This known capacitor could possibly be used for suction carrier technology suitable, but is complex and expensive due to its complicated structure. 15th

The invention is therefore based on the object of providing a particularly disc-shaped capacitor from the solid-state or to create dry electrolyte type, which on the one hand is necessary for the proper use of suction carrier technology has the necessary flat and smooth upper side, but on the other hand is as simple as possible and can be produced, so that undesirably high production costs are avoided.

According to the invention is a capacitor with a capacitor element and a pair of metal terminal members having an L-shaped cross section. The connecting members are firmly connected to the anode and cathode layers of the capacitor element and arranged so that they face each other with their horizontal parts of the "L" in a common Level below the capacitor element. The space between the connecting members is below the environment Capacitor element filled with insulating material. A heat-resistant synthetic resin plate is on the top

Surface of the insulating material serving as a filling attached.

The invention is explained in more detail with the aid of the drawing. Show it:

Fig. 1 is a perspective view of an embodiment of the capacitor according to the invention;

FIG. 2 is a side sectional view of the exemplary embodiment according to FIG. 1; and

3 shows a side section through another embodiment of the capacitor according to the invention.

According to FIGS. 1 and 2, the capacitor contains a pair of channel-like metallic connecting members 1 and 2, which have an L-shaped cross section. The connecting members 1 and 2 can be found in the drawing Arranged so that their vertical parts face each other while their horizontal ones Parts are in a common plane. An anode conductor 4 of a capacitor element is attached to the connecting member 1 3 soldered, while a cathode layer of the capacitor element 3 by soldering material or an electrically conductive adhesive 6 is connected to the connecting member 2. The capacitor element is embedded in an insulating Kunstharzinasse 8, which the remaining space between the two connecting members 1 and 2 fill out. On the upper surface of the resin composition 8 is a resin thin plate 7 glued or adhesively attached.

The connecting members 1 and 2 can be made of a metal plate made of solderable metal

-5 ¹ -

such as copper, nickel or a nickel-silver alloy or can be coated with a solderable metal such as solder, tin or gold. The capacitor element 3 can be manufactured in a conventional manner. For example, powdered valve metal, preferably tantalum, is pressed and sintered to form a shaped anode body, whereupon an oxide layer, a semiconductor layer and a cathode layer are applied to the anode body one after the other in the order mentioned. In addition to tantalum, a material such as aluminum, zirconium, titanium, niobium or the like can also be used as the valve ^{metal, which has a “valve effect 11} , ie only conducts electrically in one direction between the metal and its oxide layer The synthetic resin plate 7 is preferably made of polyimide resin, polyethylene fluoride resin or epoxy resin containing glass. The synthetic resin plate 7 is preferably attached to the synthetic resin surface by the adhesive force of the not yet hardened synthetic resin compound 8 itself , but there is also the possibility of gluing the synthetic resin plate 7 with a separate adhesive after the synthetic resin compound 8. The synthetic resin plate 7 should be relatively thin; the surface of art Resin compound 8 does not appear on the surface of the synthetic resin plate 7.

In the embodiment of FIG. 3, the synthetic resin plate 7 covers only part of the surface of the Synthetic resin compound 8. The synthetic resin plate 7 can be

be angular or circular or have another shape.

Capacitors according to the invention can expediently be produced in a manner similar to known capacitors (U.S. PS 4,247,883) by first placing two parallel long electrode channels with an L-shaped cross-section through a large number of capacitor elements to form a ladder-like structure are connected, hardenable synthetic resin with embedding of the capacitor elements between the electrode channels is poured, a thin plastic strip is placed on the top surface of the resin compound to glue them there, and finally, after the hardening of the synthetic resin, the individual capacitors be cut off by sawing.

The capacitor described here is characterized by a simple structure, can be simple and with little Effort (cost) can be produced and at the same time has a perfectly flat and smooth surface.

Claims (2)

11466 / H / Elf Matsuo Electric Company, Limited 3-5-3, Sennari-cho, Toyonaka-shi, Osaka (Japan) Capacitor claims 10 1.) Capacitor with a dry electrolytic capacitor element, whose anode or cathode are connected to a pair of connecting members with an L-shaped cross-section, which face each other with their vertical parts, while their horizontal parts are in a common plane lie under the capacitor element, and with one the space between the two connecting members under embedding the electrically insulating synthetic resin compound filling the capacitor element, characterized in that that on the upper surface of the synthetic resin compound (8) a thin synthetic resin plate (7) is glued or is adhesively attached. 2.) Capacitor according to claim 1, characterized g e indicates that the synthetic resin plate (7) due to its size and shape only part of the upper Area covering the synthetic resin compound (8).