IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0229922
(2008-08-28)
|
등록번호 |
US-8411413
(2013-04-02)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
57 |
초록
▼
An EDLC device in which the double layer capacitors themselves are produced lithographically. The resultant EDLC can be of any capacitance and voltage combination for a particular application. The entire lithographically formed entity can be housed in a single container and rated according to its ca
An EDLC device in which the double layer capacitors themselves are produced lithographically. The resultant EDLC can be of any capacitance and voltage combination for a particular application. The entire lithographically formed entity can be housed in a single container and rated according to its capacitance and voltage standoff characteristics. Through material control processes, the electrochemical composites developed onto the current collector is unilaterally equalized, providing the desired distributed voltage standoffs, thus promoting the ability to design high voltage independent cells without the normal electronic balancing circuitry associated with multiple series-connected electrochemical cells.
대표청구항
▼
1. An electrochemical double layer capacitor comprising a unit cell structure comprising alternately interleaved electrodes formed lithographically and a preformed separator disposed between said electrodes and impregnating an electrolyte therein, wherein said unit cell comprises preformed electrode
1. An electrochemical double layer capacitor comprising a unit cell structure comprising alternately interleaved electrodes formed lithographically and a preformed separator disposed between said electrodes and impregnating an electrolyte therein, wherein said unit cell comprises preformed electrodes having contained individual components specific to each electrode sequentially, wherein at least one component of each electrode is formed from a PVDF material providing a gasket type composite from a screening machine formed on a surrounding perimeter of capacitor grade aluminum. 2. The electrochemical double layer capacitor in accordance with claim 1, wherein said separator is formed lithographically in conjunction with an electrode manufacturing process. 3. The electrochemical double layer capacitor in accordance with claim 1, wherein upon an application of surge voltage, an operating voltage of a single unit cell of the electrolyte breakdown voltage can be exceeded at least one time depending on the number of capacitive unit blocks interfaced. 4. The electrochemical double layer capacitor in accordance with claim 1, comprising an active material; a Ketjen Black used as a conductive material; a binder comprising a polymer emulsion dispersed in water and a water-soluble polymer mixture; and a surfactant for enhancing fluidity of a slurry, formed of said Ketjen Black mixed with said binder. 5. The electrochemical double layer capacitor in accordance with claim 1, further comprising cast activated carbon components having a uniform dispersion. 6. The electrochemical double layer capacitor in accordance with claim 1, wherein said electrodes comprise lithographic components placed in precise intervals to develop a double layer effect. 7. The electrochemical double layer capacitor in accordance with claim 1, wherein at least one component of said electrode is formed from a PVDF material utilizing a screening machine building a component proton conductor or separator material to predetermined requirements. 8. The electrochemical double layer capacitor in accordance with claim 1, further comprising a hole centered to penetrate equidistantly though a block so that an electrolyte impregnates said block, saturating said porous carbon material and said separator. 9. The electrochemical double layer capacitor in accordance with claim 1, whereby capacitance is increased by adding increased amounts of components in parallel, as said components are stacked or folded on top of one another. 10. The electrochemical double layer capacitor in accordance with claim 1, further comprising extensions of individual blocks containing additive capacitance, interfaced by one of the group: allowing extra lengths of current collector to one of the electrodes and continuing forward with component placement; sonic welding; and heat (spot) welding said extension pieces together. 11. The electrochemical double layer capacitor in accordance with claim 10, wherein said external electrical connections are connected to pole pieces by welding to provide minimum contact resistance. 12. The electrochemical double layer capacitor in accordance with claim 1, wherein one of said electrodes have a mass-free aluminum extension component leads into the next block, thereby increasing the total withstanding operating voltage of said high voltage cell stack structure. 13. The electrochemical double layer capacitor in accordance with claim 12, wherein said electrolyte comprises a solvent comprising acetonitrile which salt comprises at least one of the group: TEABF4 and TEMABF4. 14. The electrochemical double layer capacitor in accordance with claim 12, wherein said electrolyte comprises a solvent comprising a propylene carbonate, which salt comprises at least one of the group: TEABF4 and TEMABF4. 15. The electrochemical double layer capacitor in accordance with claim 14, wherein said electrode component structure material comprises two different types of material chosen from the group: activated carbon and a transition metal oxide comprising MnO2. 16. The electrochemical double layer capacitor in accordance with claim 1, wherein said electrode component structure comprises asymmetrical compounds. 17. The electrochemical double layer capacitor in accordance with claim 1, further comprising a high density polyethylene (HDPE) package insensitive to said electrolyte injection molded to a predetermined shape of the high voltage device. 18. The electrochemical double layer capacitor in accordance with claim 1, further comprising constructive material boundaries that divert thermal buildup within and including areas around the capacitive blocks, said constructive materials being placed between affected voltage interface sections. 19. The electrochemical double layer capacitor in accordance with claim 1, wherein said electrodes comprise areas free from material leading to the electrochemistry of said cell, from which thermal energy is dissipated. 20. The electrochemical double layer capacitor in accordance with claim 19, wherein said EDLC comprises exposed aluminum free from the electrochemistry of said cell, said aluminum interfacing each cell, each of said electrodes being offset by 90 degrees to contact the exterior container of said cell in order to dissipate unwanted heat. 21. The electrochemical double layer capacitor in accordance with claim 1, wherein said separator is mechanically inserted between said electrodes. 22. An electrode assembly for an electrochemical double layer capacitor, comprising: a) a first electrode having an upper surface and a lower surface, both of said first electrode surfaces being coated with activated carbon, at least a portion of said first electrode is formed from a PVDF material providing a gasket type composite from a screening machine formed on a surrounding perimeter of capacitor grade aluminum;b) a first aluminum current collector proximate said first electrode;c) a separator proximate said first aluminum current collector;d) a second electrode having an upper surface and a lower surface, both of said second electrode surfaces being coated with activated carbon, said second electrode proximate said separator, at least a portion of said second electrode is formed from a PVDF material providing a gasket type composite from a screening machine formed on a surrounding perimeter of capacitor grade aluminum; ande) a second aluminum current collector proximate said second electrode.
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