Electricity: electrical systems and devices – Electrostatic capacitors – Fixed capacitor
Reexamination Certificate
1999-03-31
2001-04-03
Dinkins, Anthony (Department: 2831)
Electricity: electrical systems and devices
Electrostatic capacitors
Fixed capacitor
C361S301400, C361S313000
Reexamination Certificate
active
06212060
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to capacitors, and, more particularly, to multiple capacitors for use in conjunction with printed circuit boards and the like.
The introduction and development of integrated circuit technology has created the capacity to fabricate an extraordinarily large number of active electronic elements on a single circuit die. Such circuits provide functionality to a depth and extent that appeared to be fantastic only a few years ago. One result of these developments has been the miniaturization of electronic devices that were formerly large and bulky, by using integrated circuit packages mounted on printed circuit boards with the necessary ancillary devices.
Many electronic devices require some reactive elements to carry out their designed functions. Due to the fact that inductors are generally larger and noisier that capacitors, circuit board designers have tended to eliminate inductors in favor of capacitors to provide the required reactance. Capacitors have also been miniaturized as much as possible to reduce the area they occupy on a printed circuit board. Capacitors are typically provided as discrete components that are mounted on a circuit board by soldering or other techniques known in the prior art. However, there are physical limitations that constrain the miniaturization process, such as the need for high breakdown voltage, which demands a minimal thickness of a high dielectric material Likewise, the capacitive effect is based on separated charge planes, and there are limits to the ways in which the charged conductors can be folded or compacted into a small package. As a result of these limitations, a single capacitor on a circuit board may occupy a substantial fraction of the area required for an integrated circuit package that may contain thousands of active elements. Recognizing that circuit board area is related directly to the cost of the board, there is an ongoing need to further reduce the size of capacitors to the greatest extent, while still providing the requisite capacitive value and operating voltage.
In U.S. Pat. No. 5,500,895, issued to Gerald Yurgelites, there is described a method and apparatus for transmitting communications signals across an electrical isolation barrier. One example of this invention is the transmission of telecommunications signals across the isolation barrier that is required between a telephone network and any telephonic device (telephone, facsimile machine, modem, and the like). This invention employs paired capacitors connected across the isolation barrier, and differentially charges the paired capacitors to deliver the signal across the barrier without breaching the isolation that the barrier provides. Although the electronic circuits required for this purpose have been rendered in integrated circuits that require very little circuit board area, it has been found that the capacitors of the invention require a substantial fraction of the area of the integrated circuits. It would be advantageous to reduce the area that these capacitors occupy. Likewise, there are many other situations in which further miniaturization of capacitors mounted on a circuit board would be beneficial.
Further, there are many electronic circuits that require capacitors that are paired and matched in capacitive value for proper signal handling and the like. Obtaining matched pairs of capacitors typically involves an additional cost above and beyond the cost involved in obtaining two capacitors that are within a common specification but not closely matched. It would be desirable to be able to obtain matched capacitors without having to pay a premium price.
SUMMARY OF THE INVENTION
The present invention generally comprises a multi-capacitor device that provides a plurality of capacitors in a single circuit package that occupies a very small area. The device also provides capacitors that have very high operating voltages, and the capacitors are inherently highly similar in electrical characteristics for matched or paired circuit demands.
The multi-capacitor device is comprised of a plurality of layers of dielectric material, preferably the same type of material that is commonly used to fabricate circuit boards. One example of this material is fiberglass impregnated resin material, such as FR 4, or the like. The plurality of layers are disposed in a vertically stacked, interleaved, alternating relationship. Each capacitor is comprised of first and second pluralities of planar electrodes formed on alternating layers of the stack. The first plurality of electrodes is disposed in a first vertically stacked array, and the second plurality of electrodes is disposed in a second vertically stacked array. The two vertical arrays are laterally offset to a slight extent, whereby the arrays overlap to a great extent. Each vertical electrode array is provided with a via hole extending through all of the layers in a non-overlapped portion of the array. The via hole is plated to connect all of the respective electrode array in parallel. At the upper surface of the assembly, each via hole is surrounded by a solder pad connected to the via hole plating and disposed to be soldered to a connection point on a printed circuit board or the like.
A singular advantage of the capacitor device of the invention is that it may be fabricated using standard printed circuit board manufacturing techniques. Each layer of dielectric material may be printed by prior art lithographic or other well known techniques, and the layers may be assembled using processes that are common to the electronics industry. Moreover, a large number of capacitors may be created on a single large format planar array, the capacitors being closely spaced in adjacent relationship. After all the manufacturing steps are completed, the large format planar array may be cut into individual packages having as many capacitors as desired in side-by-side relationship.
The multi-capacitor device of the invention also provides high operating voltage, due to the inherently high breakdown voltage of the circuit board material that forms the layers of the device. If it is desirable to increase the operating voltage of the multi-capacitor device, two or more layers of circuit board material may be deposited between the vertically stacked electrodes, whereby the maximum operating voltage is increased by integer multiples of the breakdown voltage of each layer.
Moreover, the printed circuit processes used to fabricate the multi-capacitor device offer highly predictable, highly reproducible outcomes. As a result, the capacitors are very closely matched in electrical characteristics, and can be used effectively in situations where paired, matched capacitors are required.
A further advantage of the invention is that the multi-capacitor device provides a plurality of capacitors in a very small package. As one example, a package of 6 capacitors having a breakdown voltage of 5000 VDC and capacitive value in the range of 10-20 pF has a thickness less than one millimeter and rectangular profile dimensions that are less than 8 mm by 12 mm. An equivalent number of discrete component capacitors would occupy a far larger area on a circuit board. Therefore, the invention provides substantial savings in circuit board “real estate”, with the concomitant savings in board cost and reduction in product size.
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Dinkins Anthony
Krypton Isolation, Inc.
Thomas Eric
Zimmerman Harris
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