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    • 2. 发明授权
    • Radio frequency identification tag device for metallic products
    • 金属制品射频识别标签装置
    • US08179264B2
    • 2012-05-15
    • US12230574
    • 2008-09-02
    • Sung-Lin ChenShih-Kang KuoKen-Huang Lin
    • Sung-Lin ChenShih-Kang KuoKen-Huang Lin
    • G08B13/14G01V3/00H04Q5/22G06K7/06H05K1/03
    • G06K19/07749G06K19/07771G06K19/07786
    • A radio frequency identification tag device includes an antenna unit including a dielectric substrate that has two through holes extending from a first surface to a second surface opposite to the first surface, a first conductive layer disposed over the first surface of the dielectric substrate, a second conductive layer unit disposed over the second surface of the dielectric substrate and having opposite second conductive layers spaced apart from each other such that a spacer is formed between the second conductive layers, and two connecting conductors each disposed in a corresponding through hole in the dielectric substrate and interconnecting electrically a corresponding second conductive layer and the first conductive layer. A radio frequency identification module is disposed to span the spacer and is attached to the second conductive layer unit.
    • 射频识别标签装置包括:天线单元,包括具有从第一表面延伸到与第一表面相对的第二表面的两个通孔的电介质基板;设置在电介质基板的第一表面上的第一导电层, 导电层单元,设置在电介质基板的第二表面上并且具有彼此间隔开的相对的第二导电层,使得在第二导电层之间形成间隔件,以及两个连接导体,每个连接导体设置在电介质基板中的对应的通孔中 并且将相应的第二导电层和第一导电层电连接。 射频识别模块被设置成跨越间隔件并附接到第二导电层单元。
    • 4. 发明授权
    • RFID tag using monopole antenna
    • RFID标签采用单极天线
    • US08044805B2
    • 2011-10-25
    • US12389958
    • 2009-02-20
    • Shih-Kang KuoSung-Lin ChenChang-Tsun LinLung-Chi Liao
    • Shih-Kang KuoSung-Lin ChenChang-Tsun LinLung-Chi Liao
    • G08B13/14
    • G06K19/07749H01Q1/2225H01Q9/42
    • A radio frequency identification (RFID) tag using a monopole antenna is provided, in which an antenna structure is disposed on a metal plate, two ends of an RFID chip are electrically connected to the antenna structure, and the antenna structure and the RFID chip form a loop structure. The RFID tag can be disposed on a surface of an object to be measured, or disposed in an inner accommodation space of the object to be measured, so it is widely used in various applications. Additionally, the RFID tag is easily manufactured, so the production cost can be reduced. Furthermore, the RFID tag has a larger readable distance, and an electromagnetic wave emitting direction of the RFID tag is adjustable according to different included angles between the metal plate and the antenna structure, thereby causing signals to be read easily and identification ability to improve, two desirable effects.
    • 提供了一种使用单极天线的射频识别(RFID)标签,其中天线结构设置在金属板上,RFID芯片的两端电连接到天线结构,并且天线结构和RFID芯片形成 一个循环结构。 RFID标签可以设置在待测量物体的表面上,或者设置在待测量物体的内部容纳空间中,因此被广泛用于各种应用中。 此外,RFID标签易于制造,因此可以降低生产成本。 此外,RFID标签具有较大的可读取距离,并且RFID标签的电磁波发射方向根据金属板和天线结构之间的不同夹角而被调节,从而使得信号被容易地读取并且识别能力得到改善, 两个理想的效果。
    • 8. 发明授权
    • Method and apparatus of continuous dynamic joule heating to improve
magnetic properties and to avoid annealing embrittlement of
ferro-magnetic amorphous alloys
    • 连续动态焦耳加热的方法和装置,以改善磁性能并避免铁磁性非晶合金的退火脆化
    • US5069428A
    • 1991-12-03
    • US379329
    • 1989-07-12
    • James C. M. LiDer-Ray Huang
    • James C. M. LiDer-Ray Huang
    • C21D1/04C21D9/62
    • C21D9/62C21D1/04
    • A method and apparatus of dynamic heat treating the ferromagnetic amorphous alloys by applying AC current or pulsed high current on the alloys in the form of a ribbon are disclosed. The amorphous ribbon is continuously passed through a pair of electrodes from which AC current is conducted on the amorphous ribbon to perform a Joule heating. A DC magnetic field is applied on the amorphous ribbon preferably along a length direction thereof to improve the soft magnetic properties of the amorphous alloys. The DC magnetic field can be applied on either the section of the amorphous ribbon between the pair of electrodes or the section that has already been heat treated. With the method and apparatus, ferromagnetic amorphous alloys with improved magnetic properties such as greater magnetic induction, lower coercivity and low hysteresis loss are resulted and the annealing embrittlement is avoided.
    • 公开了一种通过在带状形式的合金上施加AC电流或脉冲高电流来动态热处理铁磁性非晶合金的方法和装置。 无定形带连续地通过一对电极,在该对电极上交流电流在非晶带上进行,以进行焦耳加热。 直流磁场优选沿其长度方向施加在非晶带上,以改善非晶合金的软磁性能。 DC磁场可以施加在一对电极之间的非晶带的部分或已经被热处理的部分上。 利用该方法和装置,产生具有改善磁性能的磁性非晶态合金,例如较大的磁感应,较低的矫顽力和较低的磁滞损耗,并避免退火脆化。