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    • 1. 发明授权
    • Secondary battery including one-way exhaust valve
    • 二次电池包括单向排气阀
    • US08071231B2
    • 2011-12-06
    • US12310604
    • 2007-08-25
    • Seung-Jin YangJeong Hee ChoiHanho LeeJi Heon Ryu
    • Seung-Jin YangJeong Hee ChoiHanho LeeJi Heon Ryu
    • H01M2/12
    • H01M2/1235H01M2/0207H01M2/0275H01M2/0277H01M2/0285H01M2/0287H01M2/08H01M2/1229H01M10/0436H01M10/052H01M10/0583H01M10/0585
    • Disclosed herein is a plate-shaped secondary battery constructed in a structure in which an electrode assembly of a cathode/separator/anode structure is mounted in a battery case, and the battery case is sealed by thermal welding, wherein the secondary battery has at least one valve (one-way exhaust valve), having a small thickness, mounted at a sealed portion, formed at the outer circumference of an electrode assembly receiving part of the battery case, for allowing internal high-pressure gas to be exhausted out of a battery cell and preventing external gas from being introduced into the battery cell. The secondary battery according to the present invention has the effect of effectively exhausting internal high-pressure gas generated during the abnormal operation of the battery, such as overcharge, out of the battery case, while maintaining the sealability of the battery case, thereby simultaneously improving the efficiency and safety of the battery.
    • 这里公开了一种板状二次电池,其结构是将阴极/隔板/阳极结构的电极组件安装在电池壳体中,并且电池壳体通过热焊接而被密封,其中二次电池具有至少 一个安装在密封部分的具有小厚度的阀(单向排气阀),形成在电池组件的电极组件接收部分的外周处,用于允许内部高压气体从 并且防止外部气体被引入电池单体。 根据本发明的二次电池具有在保持电池壳体的密封性的同时有效地排出在电池异常操作期间产生的内部高压气体(例如过充电)从电池壳体中排出的效果,从而同时改善 电池的效率和安全性。
    • 8. 发明申请
    • NON-AQUEOUS LITHIUM SECONDARY BATTERY CONTAINING HYDROPHOBIC, INACTIVE PARTICLE
    • 非水性锂离子二次电池含有疏水性,不活泼颗粒
    • US20100015523A1
    • 2010-01-21
    • US12310343
    • 2007-08-04
    • Ji Heon RyuJung Eun HyunEun Ju LeeHanho Lee
    • Ji Heon RyuJung Eun HyunEun Ju LeeHanho Lee
    • H01M2/08H01M4/58
    • H01M4/62H01M4/13H01M4/131H01M4/133H01M10/052H01M10/4235Y02E60/122Y02P70/54
    • Provided is a non-aqueous lithium secondary battery comprising an electrode assembly composed of a cathode, an anode, and a separator interposed between the cathode and anode, wherein the cathode and anode have an electrode material containing an active material applied on a current collector, a non-aqueous electrolyte containing a lithium salt, hydrophobic inactive-particles (also, referred to as “hydrophobic particles”) included in the electrode material, and a battery case sealing all the constituent components. Upon adding hydrophobic inactive-particles to the electrode material in a non-aqueous lithium secondary battery, absorption and inflow of water into the electrode material during the battery production is effectively inhibited such as to prevent side reactions caused by water inside the battery, thereby exhibiting improvement in the high-temperature storage characteristics of the battery.
    • 提供一种非水锂二次电池,其包括由阴极,阳极和插入在阴极和阳极之间的隔膜组成的电极组件,其中阴极和阳极具有包含施加在集电器上的活性材料的电极材料, 含有锂盐的非水电解质,包含在电极材料中的疏水性非活性粒子(也称为“疏水性粒子”),以及密封所有构成成分的电池壳体。 在非水系锂二次电池中,在电极材料中添加疏水性非活性粒子时,能够有效地抑制电池制造时的电极材料的吸收和流入,防止电池内部的水引起的副反应, 改善电池的高温存储特性。
    • 10. 发明申请
    • Reed-solomon decoder systems for high speed communication and data storage applications
    • 用于高速通信和数据存储应用的Reed-solomon解码器系统
    • US20060059409A1
    • 2006-03-16
    • US11222435
    • 2005-09-08
    • Hanho Lee
    • Hanho Lee
    • H03M13/00
    • H03M13/1535H03M13/1515
    • A high-speed, low-complexity Reed-Solomon (RS) decoder architecture using a novel pipelined recursive Modified Euclidean (PrME) algorithm block for very high-speed optical communications is provided. The RS decoder features a low-complexity Key Equation Solver using a PrME algorithm block. The recursive structure enables the low-complexity PrME algorithm block to be implemented. Pipelining and parallelizing allow the inputs to be received at very high fiber optic rates, and outputs to be delivered at correspondingly high rates with minimum delay. An 80-Gb/s RS decoder architecture using 0.13-μm CMOS technology in a supply voltage of 1.2 V is disclosed that features a core gate count of 393 K and operates at a clock rate of 625 MHz. The RS decoder has a wide range of applications, including fiber optic telecommunication applications, hard drive or disk controller applications, computational storage system applications, CD or DVD controller applications, fiber optic systems, router systems, wireless communication systems, cellular telephone systems, microwave link systems, satellite communication systems, digital television systems, networking systems, high-speed modems and the like.
    • 提供了一种高速,低复杂度的Reed-Solomon(RS)解码器架构,其使用用于非常高速光通信的新型流水线递归修改的欧几里得(PrME)算法块。 RS解码器具有使用PrME算法块的低复杂度Key Equation Solver。 递归结构使得能够实现低复杂度的PrME算法块。 流水线和并行化允许以非常高的光纤速率接收输入,并且输出以相对较高的速率以最小的延迟递送。 公开了一种采用0.13微米CMOS技术,电源电压为1.2 V的80 Gb / s RS解码器架构,其核心门数为393 K,工作时钟频率为625 MHz。 RS解码器具有广泛的应用,包括光纤通信应用,硬盘驱动器或磁盘控制器应用,计算存储系统应用,CD或DVD控制器应用,光纤系统,路由器系统,无线通信系统,蜂窝电话系统,微波 链路系统,卫星通信系统,数字电视系统,网络系统,高速调制解调器等。