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    • 3. 发明授权
    • Semiconductor apparatus and method for manufacturing the same
    • 半导体装置及其制造方法
    • US07833841B2
    • 2010-11-16
    • US12187601
    • 2008-08-07
    • Hidehiko KandoIsao Sakama
    • Hidehiko KandoIsao Sakama
    • H01L21/82
    • H01L22/34H01L2924/3011
    • The present invention is a method for manufacturing a semiconductor apparatus including a chip which is fabricated in large numbers on a wafer and has a plurality of information blocks. In the method, a unique information bit is written in a chip discrimination block of each chip within a shot, which is a segmented region of the wafer, by a fixed pattern method. In addition, an information bit uniquely given to each shot within the wafer is written by a mask shift method. Further, an information bit uniquely given to each wafer is written in a wafer discrimination block of the chip which is fabricated on the wafer by the mask shift method and mask combination method.
    • 本发明是一种制造半导体装置的方法,该半导体装置包括大量制造在晶片上并具有多个信息块的芯片。 在该方法中,通过固定图案方式,在作为晶片的分割区域的镜头内的每个芯片的芯片鉴别块中写入唯一的信息位。 此外,通过掩模移位方法写入唯一给予晶片内的每个镜头的信息位。 此外,通过掩模移位方法和掩模组合方法,在晶片上制造的芯片的晶片鉴别块中写入唯一给每个晶片的信息位。
    • 7. 发明授权
    • Information recording method, information recording medium, and information recording apparatus
    • 信息记录方法,信息记录介质和信息记录装置
    • US06650607B1
    • 2003-11-18
    • US09415263
    • 1999-10-12
    • Hidehiko KandoTakeshi MaedaHiroyuki MinemuraTsuyoshi TodaYasushi MiyauchiMitsuhide Miyamoto
    • Hidehiko KandoTakeshi MaedaHiroyuki MinemuraTsuyoshi TodaYasushi MiyauchiMitsuhide Miyamoto
    • G11B576
    • G11B7/1267G11B7/00456G11B7/0062G11B7/00736
    • A recording medium in which information is to be recorded is permitted to get into a first state by a first power level of an energy beam and permitted to get into a second state by a second power level higher than the first power level of the energy beam. The information is recorded on the recording medium by moving the energy beam and the recording medium relatively to each other and irradiating the recording medium with the energy beam so that the first and second states are formed with predetermined lengths and at predetermined intervals on the recording medium. Four power levels (first, second, third and fourth power levels) are used as the power level of the energy beam. The information is recorded while the second power level is increased to x times and the first, third and fourth power levels are increased to y times. The information recorded as described above is reproduced, and reproductive jitter is observed. The magnification factors x and y are adjusted so that the value of the reproductive jitter is not larger than a predetermined value.
    • 其中要记录信息的记录介质被允许通过能量束的第一功率电平进入第一状态,并且允许以比能量束的第一功率电平高的第二功率电平进入第二状态 。 通过相对于彼此移动能量束和记录介质并且用能量束照射记录介质,将信息记录在记录介质上,使得第一和第二状态以预定的长度形成并且以预定的间隔形成在记录介质上 。 四个功率电平(第一,第二,第三和第四功率电平)被用作能量束的功率电平。 当第二功率电平增加到x倍并且第一,第三和第四功率电平增加到y倍时,记录信息。 如上所述记录的信息被再现,并且观察到生殖抖动。 调整放大倍数x和y使得生殖抖动的值不大于预定值。
    • 10. 发明授权
    • RFID tag
    • RFID标签
    • US08035522B2
    • 2011-10-11
    • US12233900
    • 2008-09-19
    • Noriyuki OrokuNaoya KandaHidehiko KandoKouichi Uesaka
    • Noriyuki OrokuNaoya KandaHidehiko KandoKouichi Uesaka
    • G08B13/14
    • G06K19/07749
    • A circuit chip having a loop-shaped antenna coil on a main surface and a tag sheet having an antenna pattern on a main surface are prepared, and the circuit chip is mounted on the main surface of the tag sheet so as not to place over the antenna pattern. The circuit chip is placed closely to the antenna pattern, and at least the half of the main surface is desirably faced against the antenna pattern. Thus, signals and/or power can be securely exchanged between the circuit chip (or antenna coil) and the antenna pattern. Therefore, a high-performance and rigid RFID tag can be obtained by roughly aligning the circuit chip and the tag sheet.
    • 制备在主表面上具有环形天线线圈的电路芯片和在主表面上具有天线图案的标签片,并且将电路芯片安装在标签片的主表面上,以便不会放置在 天线方向图。 电路芯片靠近天线图案放置,并且至少主表面的一半期望面对天线图案。 因此,可以在电路芯片(或天线线圈)和天线图案之间可靠地交换信号和/或功率。 因此,通过粗略地对准电路芯片和标签片,可以获得高性能和刚性的RFID标签。