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    • 5. 发明申请
    • Energy Storage Device Having A Separator Blocking Parasitic Ions
    • 具有分离器的储能装置阻挡寄生离子
    • US20070242415A1
    • 2007-10-18
    • US11279788
    • 2006-04-14
    • Porter Mitchell
    • Porter Mitchell
    • H01G4/22C08B37/08
    • H01G9/02C08B37/003H01G9/145
    • An energy storage device comprises a pair of electrodes in contact with an electrolyte and a dielectric separator therebetween. The separator comprises a chelating material capable of binding parasitic to ions with the electrolyte, so to prevent the free circulation of the parasitic ions within the electrolyte. In one embodiment, the chelating material comprises chitosan, which may be provided in fibrous form and which may be included within a non-woven fabric of cellulosic and/or olefinic, or which may be instead coated on the separator or otherwise comprised in the separator. In another embodiment, the chelating material comprises chitosan, and the ion-binding capability of the chitosan is enhanced by chemically binding a chelating agent to the chitosan so to create a multi-dentate ligand that binds with the parasitic ions, particularly multi-valent metal ions, to create coordination compounds. One such chelating agent is ethylendiamine tetraacetic acid (EDTA).
    • 能量存储装置包括与电解质接触的一对电极和介于其间的介电分离器。 分离器包括能够与电解质结合与离子寄生的螯合材料,从而防止寄生离子在电解质内的自由循环。 在一个实施方案中,螯合材料包括壳聚糖,其可以以纤维形式提供,并且可以包含在纤维素和/或烯属的无纺织物中,或者可替代地涂覆在隔膜上或以其它方式包含在分离器中 。 在另一个实施方案中,螯合材料包含壳聚糖,并且壳聚糖的离子结合能力通过将螯合剂与壳聚糖化学结合而增强,从而产生与寄生离子特别是多价金属结合的多齿配体 离子,以产生配位化合物。 一种这样的螯合剂是乙二胺四乙酸(EDTA)。
    • 6. 发明授权
    • Method of producing a multilayer microelectronic substrate
    • 多层微电子基板的制造方法
    • US07158365B2
    • 2007-01-02
    • US10494750
    • 2002-11-13
    • Vassilios ZaspalisJacobus Gerardus Boerekamp
    • Vassilios ZaspalisJacobus Gerardus Boerekamp
    • H01G4/22
    • H01F41/02H01F41/046H05K1/0306H05K1/162H05K1/165H05K3/4611H05K3/4629
    • A method of producing a multilayer microelectronic substrate, in which: a) a number of thermally combinable films with a first compression temperature are provided; b) at least one film with a second compression temperature, which lies above the first compression temperature, is provided; c) at least one of the films with the second compression temperature is arranged between films with the first compression temperature; d) the laminated films are heated to the first compression temperature, and further to a first end-temperature until the films with the first compression temperature are completely compressed, the first end-temperature being kept below the second compression temperature; and e) the laminated films are heated to the second compression temperature and, if applicable, further to a second end-temperature in order to compress the at least one film with the second compression temperature, characterized in that at least one of the films is made from magnetodielectric material, with nickel oxide NiO and ferrous oxide Fe2O3 as the main components of a ferrite which contains bismuth oxide Bi2O3 or a eutectic mixture of lead oxide PbO and at least one further metallic oxide or of bismuth oxide Bi2O3 and at least one further metallic oxide.
    • 一种制造多层微电子衬底的方法,其中:a)提供多个具有第一压缩温度的可热组合膜; b)提供具有高于第一压缩温度的第二压缩温度的至少一个膜; c)具有第二压缩温度的膜中的至少一个被布置在具有第一压缩温度的膜之间; d)将层压膜加热到第一压缩温度,并进一步达到第一端温,直到具有第一压缩温度的膜被完全压缩,第一端温度保持在第二压缩温度以下; 以及e)层压膜被加热到第二压缩温度,如果适用,进一步加热到第二终止温度,以便以第二压缩温度压缩至少一个膜,其特征在于,至少一个膜是 由氧化镍NiO和氧化亚铁Fe 2 O 3作为铁氧体的主要成分,其含有氧化铋Bi 2 O 3或氧化铅PbO和至少一种其它金属氧化物或氧化铋Bi 2 O 3的共晶混合物,以及至少一种另外的氧化铋 金属氧化物。
    • 7. 发明授权
    • Oil-impregnated film capacitor and preparation method thereof
    • 油浸薄膜电容器及其制备方法
    • US06917512B2
    • 2005-07-12
    • US10843367
    • 2004-05-12
    • Tatsuhiko HonguKenichi Uesaka
    • Tatsuhiko HonguKenichi Uesaka
    • H01G4/18H01G4/22H01G4/33
    • H01G4/22
    • Different from conventional so-called mix-type film capacitors involving several disadvantages, in which the dielectric layers consist of a combination of a dielectric plastic resin film and an insulating paper sheet, the invention provides an all-film oil-impregnated capacitor in which the dielectric layers consist only of a plastic resin film such as a biaxially oriented polypropylene resin film (OPP film) suitable for use in microwave ovens. The all-film capacitor of the invention can be obtained and has satisfactory properties only when prepared by using specified materials including the OPP film, aluminum foil and capacitor oil and under specified conditions relative to the dielectric tangent values and dielectric capacity values before and after impregnation with a capacitor oil as well as the conditions in the step of oil impregnation.
    • 与传统的所谓的混合型薄膜电容器不同,它涉及几个缺点,其中介电层由电介质塑料树脂薄膜和绝缘纸片组合而成,本发明提供一种全膜浸油电容器,其中, 电介质层仅由适用于微波炉的双轴取向聚丙烯树脂膜(OPP膜)等塑料树脂膜构成。 本发明的全膜电容器只有在通过使用包括OPP膜,铝箔和电容器油在内的指定材料并且在相对于浸渍前后的介电切线值和介电容量值的规定条件下制备时,才具有令人满意的性能 使用电容器油以及浸油步骤中的条件。
    • 8. 发明授权
    • Flame-retardant epoxy resin composition for case potting of film
capacitors
    • 阻燃环氧树脂组合物用于膜电容器的封装
    • US5883160A
    • 1999-03-16
    • US976086
    • 1997-11-21
    • Hideki KikuchiToru ShiroseYoshihiro Motoki
    • Hideki KikuchiToru ShiroseYoshihiro Motoki
    • C08K3/00C08G59/22C08G59/42C08K3/22C08K3/32C08L63/00H01B3/40H01G4/22H01G4/224
    • H01B3/40C08G59/226C08G59/42C08K3/22C08K3/32C08L63/00
    • Proposed is a flame-retardant heat-curable flowable epoxy resin composition suitable for use in case potting of film capacitors exhibiting very little settling of the particulate ingredients in storage and excellent impregnability in case potting as well as excellent flame retardancy, moisture resistance and tracking resistance of the composition after curing. The composition comprises, as a uniform blend:(a) 100 parts by weight of a bisphenol-based epoxy resin which is liquid at a temperature of working in case potting;(b) from 10 to 40 parts by weight of an alkyleneglycol diglycidyl ether or cycloalkyleneglycol diglycidyl ether;(c) from 80 to 120 parts by weight of a polycarboxylic acid anhydride;(d) from 4 to 20 parts by weight of a powder of red phosphorus; and(e) from 100 to 200 parts by weight of a powder of hydrated alumina which characteristically is a combination of (e1) from 80 to 95% by weight of a first powder of hydrated alumina having an average particle diameter in the range from 10 to 25 .mu.m and (e2) from 20 to 5% by weight of a second powder of hydrated alumina having an average particle diameter not exceeding 2 .mu.m.
    • 提出了一种阻燃热固化可流动的环氧树脂组合物,适合用于封箱的薄膜电容器的灌封,这些薄膜电容器在储存时表现出非常小的颗粒成分的沉降,并且在封装的情况下具有优异的浸渍性以及优异的阻燃性,耐湿性和耐追踪性 的固化后的组合物。 该组合物包含作为均匀混合物:(a)100重量份双酚基环氧树脂,其在灌封时工作温度为液体; (b)10〜40重量份的亚烷基二醇二缩水甘油醚或环亚烷基二醇二缩水甘油醚; (c)80〜120重量份的多元羧酸酐; (d)4〜20重量份的红磷粉末; 和(e)100至200重量份的水合氧化铝粉末,其特征在于(e1)80至95重量%的水合氧化铝粉末的平均粒径为10 至(25)的平均粒径不超过2μm的第二水合氧化铝粉末(e2)为20-5重量%。
    • 9. 发明授权
    • Metallized film capacitor
    • 金属化电容器
    • US5737179A
    • 1998-04-07
    • US598049
    • 1996-02-07
    • David G. ShawPaul Le Gonidec
    • David G. ShawPaul Le Gonidec
    • H01G4/32H01G2/12H01G4/20H01G4/005H01G4/22H01G4/30
    • H01G2/12H01G4/20
    • Sheet capacitive materials for use in forming a thin-film capacitor comprise an electrically nonconductive substrate, a layer of electrically conductive material disposed a surface of the substrate, and a layer of electrically nonconductive material disposed onto a surface of the conductive material layer. The conductive material layer includes a contact area along a first lengthwise edge of the substrate that is thicker than remaining portions of the material layer. A portion of the substrate adjacent a second lengthwise edge remains exposed. The electrically nonconductive material includes an anti-stick component, and covers the exposed substrate surface and a major portion of the material layer except for the contact area. A first and second sheet is constructed having contact areas along opposite lengthwise edges. The sheets are placed together so that the contact areas are oriented at opposite lengthwise edges, and are staggered so that the contact areas remain exposed. The sheets are wound together in a spiral to form a roll having a contact area at each respective end. Metal is sprayed onto the exposed contact areas to form capacitor electrodes. A thin-film capacitor formed from such sheet capacitive materials have improved properties of corrosion resistance and self healing when compared to conventionally constructed thin-film capacitors.
    • 用于形成薄膜电容器的薄片电容材料包括非导电衬底,设置在衬底表面的导电材料层和设置在导电材料层的表面上的非导电材料层。 导电材料层包括沿着衬底的第一纵向边缘的比材料层的剩余部分更厚的接触区域。 邻近第二纵向边缘的衬底的一部分保持暴露。 非导电材料包括防粘部件,并且覆盖暴露的基板表面和材料层的除接触区域之外的主要部分。 第一和第二片被构造成沿着相对的纵向边缘具有接触区域。 将片材放置在一起,使得接触区域在相对的纵向边缘定向,并且交错,使得接触区域保持暴露。 片材以螺旋形缠绕在一起以形成在每个相应端部具有接触区域的卷筒。 将金属喷涂到暴露的接触区域上以形成电容器电极。 与常规构造的薄膜电容器相比,由这种片状电容材料形成的薄膜电容器具有改善的耐腐蚀性和自愈性。