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    • 41. 发明申请
    • Flux cored wire for gas shield arc welding
    • 用于气体屏蔽电弧焊的焊剂芯焊丝
    • US20060124624A9
    • 2006-06-15
    • US10749015
    • 2003-12-29
    • Yong KimHwan Bang
    • Yong KimHwan Bang
    • B23K35/02
    • B23K35/406B23K35/0266
    • Disclosed herein is a flux cored wire for gas shielded arc welding which comprises a seam section for improving the rectilinear property of the wire, thereby preventing the occurrence of bead meandering. The flux cored wire for gas shield arc welding is manufactured by forming a metal sheath, packing the inside of the metal sheath with a flux, followed by forming into a metal pipe shape and wire drawing and satisfies Relationship (1) below: 1.4≦(Rrcts/Ructs)≦4.0  (1) wherein Rrcts represents the range of tensile strength of real cross section (real tensile strength range in a state where the flux is packed), and Ructs represents the range of tensile strength of unpacked cross section (real tensile strength range in a state where the flux is unpacked).
    • 本文公开了一种用于气体保护电弧焊的药芯焊丝,其包括用于改善线的直线性质的接缝部分,从而防止发生焊道弯曲。 用于气体保护电弧焊的药芯焊丝通过形成金属护套,用焊剂填充金属护套的内部,然后形成金属管形状和拉丝,并满足以下关系式(1):< -line-formula description =“In-line Formulas”end =“lead”?> 1.4 <=(R / R )<= 4.0(1) ?在线公式描述=“在线公式”end =“tail”?>其中Rcts表示实际横截面的拉伸强度的范围(实际拉伸强度范围在 焊剂被填充),R“表示未封装横截面的拉伸强度的范围(在通量解包的状态下的实际拉伸强度范围)。
    • 42. 发明申请
    • Copper-free wires for gas-shielded arc welding
    • 用于气体保护电弧焊的无铜丝
    • US20060118536A1
    • 2006-06-08
    • US11228753
    • 2005-09-16
    • Yong KimHwan Bang
    • Yong KimHwan Bang
    • B23K35/02
    • B23K35/0261B23K35/36B23K35/40
    • Disclosed herein is a copper-free wire for gas-shielded arc welding. The copper-free wire for gas-shielded arc welding comprises a flat worked surface, and depressions circumferentially formed in a negative direction (towards the center of the wire) to the said worked surface reference. The ratio (dr/di) of an actual length (dr) of a circular arc to an apparent length (di) of a circular arc is in the range of 1.015˜1.515. An amount of lubricant remaining on the wire surface is 0.50 g/W. kg or less. The wire has 0.03˜0.70 g/W. kg of a coating agent on the wire surface. The coating agent comprises at least one selected from the group consisting of liquid animal oil, vegetable oil, mineral oil, mixed oil, and synthetic oil. The wire is brought into stable contact with a contact tip during welding, which results in excellent arc stability and feedability, while lowering a spatter quantity.
    • 本文公开了一种用于气体保护电弧焊的无铜丝。 用于气体保护电弧焊的无铜线包括平坦的加工表面,以及朝向所述加工表面基准的向负方向(朝向线的中心)周向形成的凹陷。 圆弧的实际长度(dr)与圆弧的表观长度(di)的比(dr / di)在1.015〜1.515的范围内。 残留在丝表面上的润滑剂量为0.50g / W。 kg以下。 电线有0.03〜0.70 g / W。 kg表面上的涂层剂。 包衣剂包括选自液体动物油,植物油,矿物油,混合油和合成油中的至少一种。 在焊接时,使导线与接触头保持稳定的接触,从而在降低飞溅量的同时导致优异的电弧稳定性和可进给性。
    • 44. 发明申请
    • Apparatus for separating blind source signals having systolic array structure
    • 用于分离具有收缩阵列结构的盲源信号的装置
    • US20060095258A1
    • 2006-05-04
    • US10989430
    • 2004-11-17
    • Hong JeongYong Kim
    • Hong JeongYong Kim
    • G10L15/20
    • G10L21/028G06K9/624
    • Disclosed is a hardware architecture receiving multi-input blind source signals and obtaining multi-output. An apparatus for separating blind source signals includes: a forward process unit receiving a plurality of blind source signal vectors and outputting a plurality of output signal vectors by using a predetermined blind source separation algorithm; an update process unit receiving the plurality of output signal vectors and learning first weighting values used for the predetermined blind source separation algorithm according to a predetermined learning algorithm; and a weight process unit having a matrix operation structure for receiving the first weighting values and converting them into coefficients and second weighting values applicable to the predetermined blind source separation algorithm. The forward process unit includes (L+1) identical processing elements connected in a systolic array structure, where L is the number of sequential delay of blind input signal vectors. The update process unit includes (N2+N)/2×(2L+1) identical updating elements connected in a systolic array structure, where N is the number of the blind input signal vectors. Each cost of the processing elements and the updating elements is initialized by 0 in an initial operation stage.
    • 公开了一种接收多输入盲源信号并获得多输出的硬件架构。 一种用于分离盲源信号的装置包括:前向处理单元,接收多个盲源信号向量,并通过使用预定的盲源分离算法输出多个输出信号向量; 更新处理单元,根据预定的学习算法,接收多个输出信号矢量和学习用于预定盲源分离算法的第一加权值; 以及加权处理单元,具有用于接收第一加权值并将其转换成适用于预定盲源分离算法的系数和第二加权值的矩阵运算结构。 前向处理单元包括(L + 1)以脉冲阵列结构连接的相同的处理元件,其中L是盲输入信号矢量的顺序延迟的数量。 更新处理单元包括以收缩阵列结构连接的(N 2+ N +)/ 2x(2L + 1)相同的更新元件,其中N是盲输入信号矢量的数量。 在初始操作阶段,处理元件和更新元件的每个成本被初始化为0。
    • 47. 发明申请
    • Semiconductor manufacturing apparatus
    • 半导体制造装置
    • US20060011297A1
    • 2006-01-19
    • US11181526
    • 2005-07-14
    • Yong Kim
    • Yong Kim
    • C23F1/00C23C16/00H01L21/306
    • H01L21/67167H01L21/67184
    • Disclosed herein is a semiconductor manufacturing apparatus. The apparatus comprises a transfer module, first and second process modules equipped to adjacent first and second faces of the transfer module while defining an acute angle to the first and second faces of the transfer module, respectively, and a load-lock chamber connected to a third face of the transfer module. The adjacent process modules are disposed parallel to each other. As such, the process modules are close to or in contact with each other on the transfer module, thereby reducing an area occupied by the apparatus without reducing manufacturing efficiency. A source supply unit can be enlarged towards an adjacent face of the adjacent process modules, so that various source materials for forming semiconductor chips can be effectively supplied to the semiconductor manufacturing apparatus through the enlarged source supply unit.
    • 这里公开了一种半导体制造装置。 该装置包括传送模块,第一和第二处理模块,其分别配置到传送模块的相邻的第一和第二面,同时分别限定与传送模块的第一和第二面的锐角,以及连接到传送模块的加载锁定室 传输模块的第三面。 相邻的处理模块彼此平行设置。 这样,处理模块在传送模块上彼此接近或接触,从而减少了设备占用的面积而不降低制造效率。 源极供给单元可以相对于相邻的处理模块的相邻面扩大,从而能够通过放大源供给单元将用于形成半导体芯片的各种源材料有效地供给到半导体制造装置。
    • 48. 发明申请
    • Device for driving light emitting diode for flash of camera
    • 用于驱动相机闪光灯的发光二极管的装置
    • US20050265709A1
    • 2005-12-01
    • US10935360
    • 2004-09-08
    • Hyung KimYong Kim
    • Hyung KimYong Kim
    • G03B7/17G03B15/02G03B15/03G03B15/05H01S3/00H04N5/225H04N101/00
    • H04N5/2256G03B15/05G03B2215/0567H04N5/23241
    • Disclosed herein is a device for driving a LED for a flash of a camera, such as a digital camera or a camera of a mobile phone, which is capable of driving the LED in two modes to reduce power consumption. The LED drive device comprises the LED, a continuous low current driver for continuously supplying current which is lower than or equal to rated current of the LED to the LED, a high-current pulse driver for supplying current which is higher than the rated current of the LED to the LED for a predetermined period of time, and a mode selector for selecting one of the continuous low current driver and the high-current pulse driver to drive the LED. According to the present invention, it is possible to prevent unnecessary power consumption and deterioration of reliability of the LED, and obtain an image of brighter picture quality.
    • 这里公开了一种用于驱动诸如数字照相机或移动电话的照相机的照相机的闪光灯的LED的装置,其能够以两种模式驱动LED以降低功耗。 LED驱动装置包括LED,连续的低电流驱动器,用于连续向LED提供低于或等于LED的额定电流的电流;高电流脉冲驱动器,用于提供高于LED的额定电流的电流 LED到LED预定时间段,以及模式选择器,用于选择连续低电流驱动器和大电流脉冲驱动器之一来驱动LED。 根据本发明,可以防止不必要的电力消耗和LED的可靠性的劣化,并且获得更亮的图像质量的图像。