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    • 62. 发明申请
    • Portable microwave plasma discharge unit
    • 便携式微波等离子体放电单元
    • US20060042547A1
    • 2006-03-02
    • US10931221
    • 2004-09-01
    • Sang LeeJay Kim
    • Sang LeeJay Kim
    • C23C16/00
    • H05H1/30
    • A portable microwave plasma discharge unit receives microwaves and a gas flow via a supply line. The portable microwave plasma discharge unit generates plasma from the gas flow and the received microwaves. The portable microwave plasma discharge unit includes a gas flow tube made of a conducting and/or dielectric material and a rod-shaped conductor that is axially disposed in the gas flow tube. The rod-shaped conductor has an end configured to contact a microwave supply conductor of the supply line to receive microwaves and a tapered tip positioned adjacent the outlet portion of the gas flow tube. The tapered tip is configured to focus the microwaves received from the microwave supply conductor to generate plasma from the gas flow.
    • 便携式微波等离子体放电单元经由供电线接收微波和气流。 便携式微波等离子体放电单元从气流和接收的微波产生等离子体。 便携式微波等离子体放电单元包括由导电和/或电介质材料制成的气体流管和轴向设置在气体流管中的棒状导体。 棒状导体具有构造成接触供应线的微波供应导体以接收微波的端部和邻近气体流管出口部分定位的锥形尖端。 锥形尖端被配置为聚焦从微波供应导体接收的微波,以从气流产生等离子体。
    • 63. 发明申请
    • Seatback reclining apparatus for a vehicle
    • 用于车辆的Seatback斜倚装置
    • US20060033372A1
    • 2006-02-16
    • US11023698
    • 2004-12-27
    • Sang Lee
    • Sang Lee
    • B60N2/48
    • B60N2/3009B60N2/22B60N2/36B60N2205/35
    • A seatback reclining apparatus capable of independently reclining divided seatbacks with different angles. Thereby, interference with a trim of a wheel housing when the seatback is positioned to a flat position is prevented. The seatback includes a reclining shaft provided with a first winding part and a second winding part that is apart from the first winding part with a predetermined distance. The diameter of the first winding part is bigger than that of the second winding part. Around the first winding part, a first spiral spring is provided. The second winding part is provided with a second spiral spring whose number of wounds is greater than that of the first spiral spring.
    • 一种座椅靠背倾斜装置,能够独立地倾斜具有不同角度的分开的座椅靠背。 因此,防止了当座椅靠背位于平坦位置时与车轮壳体的修剪的干扰。 座椅靠背包括设置有第一卷绕部分的倾斜轴和与第一卷绕部分隔开预定距离的第二卷绕部分。 第一绕组部分的直径大于第二绕组部分的直径。 围绕第一卷绕部分,提供第一螺旋弹簧。 第二卷绕部分设置有第二螺旋弹簧,其数量大于第一螺旋弹簧的数量。
    • 65. 发明申请
    • Solid bio-material for a sensor that detects bio-electric signals through the use of the characteristics and functions of bio-epidermal tissues and epidermal tissues of living organisms and the methods for producing the same
    • 用于通过使用生物表皮组织和生物体的表皮组织的特征和功能检测生物电信号的传感器的固体生物材料及其生产方法
    • US20060029925A1
    • 2006-02-09
    • US10538591
    • 2003-12-09
    • Sang Lee
    • Sang Lee
    • C12Q1/00
    • G01N33/5082A61B5/04A61B2562/02G01N33/54366G01N33/574
    • The present invention discloses a solid bio-material for the detection of a bio-electromagnetic signal, which senses an information signal generated from living organisms and changes thereof by using fish scale, feathers of fowl and carapaces of tortoises among epidermal tissues of animals having the function of detecting, memorizing and transferring a weak information signal (bio-signal) of an electromagnetic field generated from bio-tissues, and a method for producing the same. The method for producing a solid bio-material for the detection of a bio-electromagnetic signal by using epidermal tissues of living organisms comprises the steps of: immersing the carcass of an animal with a developed epidermis such as fish, fowl, tortoises, etc. in a mixed solution of aromatics (fragrance), salt and water in the ratio of 1:2:300 for one week; separating the epidermis from the immersed living organism; washing the separated epidermis, soaking it in a mixed solution of potassium dichromate, vinegar and water in the ratio of 1:1:100 for 10 to 12 hours, applying a medium pressure thereto for 48 hours under an ambient temperature, and then drying it; applying heat of 40° C. and a cold air of −25° C. temperature in turn to the dried epidermis in a medium pressure state, two or three times in a period of 24 hours each; sterilizing the hot and cold treated epidermis by irradiating ultraviolet rays thereto with a 240 nm ultraviolet lamp for 30 minutes; generating static electricity by putting the sterilized epidermis in an electric cylinder and turning it at 500 RPM; applying pine nut oil to the outer surface of the electro statically processed epidermis; and cutting the epidermis into required sizes.
    • 本发明公开了一种用于检测生物电磁信号的固体生物材料,该生物电磁信号通过使用鱼鳞,动物的表皮组织中的鱼鳞,家禽和甲壳的羽毛来感测从活生物体产生的信息信号及其变化, 检测,存储和传送由生物组织产生的电磁场的弱信息信号(生物信号)的功能及其制造方法。 用于通过使用生物体的表皮组织检测生物电磁信号的固体生物材料的制造方法包括以下步骤:将具有开发的表皮如鱼,家禽,龟等的动物的尸体浸入 在芳香剂(香料),盐和水的混合溶液中以1:2:300的比例混合1周; 将表皮与沉浸的生物体分开; 洗涤分离的表皮,将其以重量比1:1:100的重铬酸钾,醋和水的混合溶液浸泡10至12小时,在环境温度下施加介质压力48小时,然后干燥 ; 在中等压力状态下将40℃的温度和-25℃的冷空气依次进行干燥的表皮,每次24小时的时间为两到三次; 用240nm紫外线灯照射紫外线30分钟,对经冷热处理的表皮进行灭菌; 通过将灭菌的表皮放入电动缸并以500RPM转动来产生静电; 将松果油应用于静电处理表皮的外表面; 并将表皮切割成所需尺寸。
    • 69. 发明申请
    • Semiconductor device and method for manufacturing the same
    • 半导体装置及其制造方法
    • US20060001112A1
    • 2006-01-05
    • US11219795
    • 2005-09-07
    • Sang Lee
    • Sang Lee
    • H01L29/78
    • H01L21/28123H01L21/28061H01L21/28247H01L2924/0002H01L2924/00
    • The present invention discloses method for manufacturing semiconductor device employing an EXTIGATE structure. In accordance with the method, a predetermined thickness of the device isolation film is etched to form a recess. The recess is then filled with a second nitride film. A stacked structure of a barrier metal film, a metal layer and a third nitride film on the second nitride film and the polysilicon film is formed on the entire surface and the etched via a photoetching process to form a gate electrode. An insulating film spacer is deposited on a sidewall of the gate electrode. The exposed portion of the polysilicon film using the third nitride film pattern and the insulating film spacer as a mask to form a polysilicon film pattern and an oxide film on a sidewall of the polysilicon film pattern.
    • 本发明公开了采用EXTIGATE结构制造半导体器件的方法。 根据该方法,对器件隔离膜的预定厚度进行蚀刻以形成凹陷。 然后用第二氮化物膜填充凹部。 在整个表面上形成第二氮化物膜和多晶硅膜上的阻挡金属膜,金属层和第三氮化物膜的堆叠结构,并通过光刻工艺蚀刻以形成栅电极。 绝缘膜间隔物沉积在栅电极的侧壁上。 使用第三氮化物膜图案和绝缘膜间隔物作为掩模的多晶硅膜的暴露部分在多晶硅膜图案的侧壁上形成多晶硅膜图案和氧化物膜。