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    • 1. 发明授权
    • Thermoelectric module with gapless eggcrate
    • 带无缝隙蛋鸡的热电模块
    • US5875098A
    • 1999-02-23
    • US823233
    • 1997-03-24
    • Frederick A. LeavittJohn C. BassNorbert B. Elsner
    • Frederick A. LeavittJohn C. BassNorbert B. Elsner
    • H01L35/32H01L35/34H05K7/20
    • H01L35/32H01L35/34Y10S257/93
    • A thermoelectric module having a gapless insulating eggcrate providing insulated spaces for a large number of p-type and n-type thermoelectric elements. The absence of gaps in the walls of the spaces virtually eliminates the possibility of interwall shorts between the elements. Electrical connections on both the hot and cold sides of the module electrically connect the elements in series or in parallel as desired. Usually, most or all of the elements will be connected in series. In a preferred embodiment, the gapless eggcrate is formed from a high temperature plastic. In a preferred embodiment, two lead wires are added before adding the hot and cold side electrical connections. In this embodiment, electrical connections on the hot and cold sides comprise a thin layer of molybdenum and a coating of aluminum over the molybdenum. The surfaces are ground down to expose the insulating eggcrate walls except where connections between the elements are desired. In this preferred embodiment a seal is then applied over both the hot and cold surfaces. The seal preferably is comprised of a very thin electrically insulating layer and over this electrically insulating layer a thin metal layer is provided.
    • 一种具有无间隙绝缘蛋鸡的热电模块,为大量p型和n型热电元件提供绝缘空间。 在空间的墙壁上没有间隙实际上消除了元件之间的内部短路的可能性。 模块的热端和冷端两侧的电气连接按需要串联或并联电连接。 通常,大部分或全部元素将被串联连接。 在优选的实施方案中,无缝隙的卵切屑由高温塑料形成。 在优选实施例中,在添加热侧和冷侧电连接之前,添加两根引线。 在该实施例中,热侧和冷侧的电连接包括钼层的薄层和在钼上的铝涂层。 表面被磨碎以露出绝缘蛋壳壁,除了需要元件之间的连接。 在该优选实施例中,然后将密封件施加在热表面和冷表面上。 密封件优选地由非常薄的电绝缘层构成,并且在该电绝缘层上设置有薄金属层。
    • 2. 发明申请
    • High temperature, high efficiency thermoelectric module
    • 高温高效热电模块
    • US20100229911A1
    • 2010-09-16
    • US12590653
    • 2009-11-12
    • Frederick A. LeavittNorbert B. ElsnerJohn C. BassJohn W. McCoy
    • Frederick A. LeavittNorbert B. ElsnerJohn C. BassJohn W. McCoy
    • H01L35/20
    • H01L35/32H01L35/16H01L35/34
    • A long life, low cost, high-temperature, high efficiency thermoelectric module. Preferred embodiments include a two-part (a high temperature part and a cold temperature part) egg-crate and segmented N legs and P legs, with the thermoelectric materials in the three segments chosen for their chemical compatibility or their figure of merit in the various temperature ranges between the hot side and the cold side of the module. The legs include metal meshes partially embedded in thermoelectric segments to help maintain electrical contacts notwithstanding substantial temperature variations. In preferred embodiments a two-part molded egg-crate holds in place and provides insulation and electrical connections for the thermoelectric N legs and P legs. The high temperature part of the egg-crate is comprised of a ceramic material capable of operation at temperatures in excess of 500° C. and the cold temperature part is comprised of a thermoplastic material having very low thermal conductivity.
    • 寿命长,成本低,高温,高效率的热电模块。 优选实施例包括两部分(高温部分和冷温部分)蛋箱和分段的N腿和P腿,其中三个部分中的热电材料被选择用于它们的化学相容性或其各种品质因数 模块的热侧和冷端之间的温度范围。 腿部包括部分地嵌入热电段中的金属网,以帮助维持电接触,尽管有相当大的温度变化。 在优选实施例中,两部分模制蛋箱保持就位并为热电N腿和P腿提供绝缘和电连接。 蛋箱的高温部分由能够在超过500℃的温度下操作的陶瓷材料组成,并且冷温部分由具有非常低导热性的热塑性材料组成。
    • 4. 发明申请
    • Quantum well module with low K crystalline covered substrates
    • 具有低K晶体覆盖基板的量子阱模块
    • US20110100408A1
    • 2011-05-05
    • US12655793
    • 2010-01-06
    • Aleksandr KushchFrederick A. LeavittDaniel KrommenhoekSaeid GhamatyNorbert B. Elsner
    • Aleksandr KushchFrederick A. LeavittDaniel KrommenhoekSaeid GhamatyNorbert B. Elsner
    • H01L35/30H01L21/02H01L35/34
    • H01L35/34C23C14/20C23C14/352C23C14/562F25B2321/023H01L35/22H01L35/32
    • A thermoelectric module comprised of a quantum well thermoelectric material with low thermal conductivity and low electrical resitivity (high conductivity) for producing n-legs and p-legs for thermoelectric modules. These qualities are achieved by fabricating crystalline quantum well super-lattice layers on a substrate material having very low thermal conductivity. Prior to depositing the super-lattice thermoelectric layers the low thermal conductivity substrate is coated with a thin layer of crystalline semi-conductor material, preferably silicon. This greatly improves the thermoelectric quality of the super-lattice quantum well layers. In preferred embodiments the super-lattice layers are about 4 nm to 20 nm thick. In preferred embodiments about 100 to 1000 of these super-lattice layers are deposited on each substrate layer, to provide films of super-lattice layers with thicknesses of in the range of about 0.4 microns to about 20 microns on much thicker substrates. The substrates may be a few microns to a few millimeters thick. The thermoelectric films are then stacked and fabricated into thermoelectric p-legs and n-legs which in turn are fabricated into thermoelectric modules. These layers of quantum well material may in preferred embodiments be separated by much thicker layers of thermal and electrical insulating material such that the volume of insulating material in each leg is at least 20 times larger than the volume of quantum well material.
    • 由热导率低的量子阱热电材料和低电阻率(高导电性)组成的热电模块,用于产生用于热电模块的n型腿和p型腿。 这些质量通过在具有非常低的热导率的衬底材料上制造结晶量子阱超晶格层来实现。 在沉积超晶格热电层之前,低导热性衬底被涂覆有薄的晶体半导体材料,优选硅。 这大大提高了超晶格量子阱层的热电质量。 在优选实施例中,超晶格层约为4nm至20nm厚。 在优选实施例中,在每个衬底层上沉积约100至1000个这些超晶格层,以在更厚的衬底上提供厚度在约0.4微米至约20微米范围内的超晶格层的膜。 衬底可以是几微米到几毫米厚。 然后将热电膜堆叠并制造成热电p支脚和n支脚,其又被制造成热电模块。 量子阱材料的这些层可以在优选的实施方案中由较厚的热和电绝缘材料层隔开,使得每个支脚中的绝缘材料的体积比量子阱材料的体积至少大20倍。
    • 6. 发明授权
    • Rechargeable battery and method of assembly
    • 充电电池和组装方法
    • US07541771B1
    • 2009-06-02
    • US11370673
    • 2006-03-08
    • Frederick A. LeavittSam ShifronJoseph Zueck
    • Frederick A. LeavittSam ShifronJoseph Zueck
    • H02J7/00H01M2/00H01M2/08H01M2/02
    • H01M2/0215H01M2/08H01M10/0525H01M10/425H01M2200/106
    • An exemplary battery pack comprises a battery cell having a first terminal and a second terminal disposed on a first end of the battery cell. A support member is attached to the first end of the battery cell, and a first L-shaped contact is connected to the first terminal via a protection circuit module. The protection circuit module is configured to disconnect the first terminal from the L-shaped contact upon a disconnect event. A second L-shaped contact connected to the second terminal, and a top cover encloses the first end of the battery cell, the support member and the protection circuit module. The first and second L-shaped contacts are exposed through corresponding apertures in the top cover, and a label including a body section and first, second, third and fourth flap sections is wrapped around the battery cell such that at least one of the flap sections secures the top cover to the battery cell. A cutout area can be provided on one of the flap sections to expose the L-shaped contacts for interfacing with device or connector contacts.
    • 示例性电池组包括具有设置在电池单元的第一端上的第一端子和第二端子的电池单元。 支撑构件附接到电池单元的第一端,并且第一L形触点经由保护电路模块连接到第一端子。 保护电路模块被配置为在断开事件时将第一端子与L形触头断开。 连接到第二端子的第二L形接头,以及顶盖包围电池单元的第一端,支撑构件和保护电路模块。 第一和第二L形触头通过顶盖中的相应的孔暴露,并且包括主体部分和第一,第二,第三和第四折翼部分的标签缠绕在电池单元周围,使得至少一个折片部分 将顶盖固定到电池单元上。 可以在其中一个翼片部分上设置切口区域,以露出用于与装置或连接器触点对接的L形触点。