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    • 31. 发明授权
    • Semiconductor integrated circuit and method for testing the semiconductor integrated circuit
    • 半导体集成电路和半导体集成电路测试方法
    • US06271677B1
    • 2001-08-07
    • US09560126
    • 2000-04-28
    • Mitsuyasu OhtaToshinori HosokawaSadami TakeokaOsamu Ichikawa
    • Mitsuyasu OhtaToshinori HosokawaSadami TakeokaOsamu Ichikawa
    • H03K1900
    • G01R31/318328
    • A semiconductor IC includes a test circuit comprising a logic circuit, a test timing generator, a first register serving as a test signal generation point, and second and third registers serving as test signal observation points. In this test circuit, a target signal transmission path to be tested is selected from a plurality of signal transmission paths in the logic circuit, and the test timing generator outputs a test clock having a cycle according to a delay time of the selected signal transmission path on design to the first to third registers, whereby the first register generates a test signal and the second and third registers observe the test signal. Therefore, the signal transmission paths connecting the test signal generation point and the test signal observation point are tested with high efficiency, whereby more signal transmission paths are tested for delay faults with less number of times the test is executed.
    • 半导体IC包括测试电路,其包括逻辑电路,测试定时发生器,用作测试信号生成点的第一寄存器,以及用作测试信号观测点的第二和第三寄存器。 在该测试电路中,从逻辑电路中的多个信号传输路径选择要测试的目标信号传输路径,并且测试定时发生器输出具有根据所选信号传输路径的延迟时间的周期的测试时钟 设计到第一至第三寄存器,由此第一寄存器产生测试信号,第二和第三寄存器观察测试信号。 因此,连接测试信号生成点和测试信号观察点的信号传输路径被高效率地测试,由此对于执行测试次数较少的延迟故障来测试更多的信号传输路径。
    • 33. 发明授权
    • Optical fiber cable for detecting low temperature
    • 用于检测低温的光缆
    • US4729627A
    • 1988-03-08
    • US640093
    • 1984-08-13
    • Yasunori SaitoOsamu Ichikawa
    • Yasunori SaitoOsamu Ichikawa
    • G01K11/32G02B6/44H01J5/16
    • G01K11/32
    • An optical fiber cable for detecting a low temperature comprising a center member made of a material having a low coefficient of linear expansion and one or more longitudinally extending grooves in each of which at least one optical fiber is placed, (i) wherein at least one optical fiber comprising a core and a cladding both made of silica glass is placed in each of said grooves and the interior space of the groove which is not occupied by the optical fiber or fibers may be filled with a resin which has a low glass transition temperature; or (ii) wherein each of the optical fibers placed in each of said grooves, have different coating structures from each other and/or different fiber structures from each other so as to detect a low temperature in different temperature ranges.
    • 一种用于检测低温的光缆,包括由具有低线性膨胀系数的材料制成的中心部件和一个或多个纵向延伸的凹槽,每个光纤放置至少一根光纤,(i)其中至少一个 包括由石英玻璃制成的芯和包层的光纤被放置在每个所述凹槽中,并且未被光纤或纤维占据的槽的内部空间可以填充有玻璃化转变温度低的树脂 ; 或(ii)其中放置在每个所述凹槽中的每个光纤彼此具有不同的涂层结构和/或彼此不同的纤维结构,以便检测不同温度范围内的低温。
    • 35. 发明授权
    • Semiconductor wafer, semiconductor device, and method of manufacturing a semiconductor device
    • 半导体晶片,半导体器件以及半导体器件的制造方法
    • US08431459B2
    • 2013-04-30
    • US12934233
    • 2009-03-26
    • Mitsuru TakenakaShinichi TakagiMasahiko HataOsamu Ichikawa
    • Mitsuru TakenakaShinichi TakagiMasahiko HataOsamu Ichikawa
    • H01L21/00
    • H01L29/7787H01L21/28264H01L29/205H01L29/517H01L29/66462H01L29/66522H01L29/78648H01L29/78681
    • It is an objective of the present invention to form a favorable interface between an oxide layer and a group 3-5 compound semiconductor using a practical and simple method.Provided is a semiconductor wafer comprising a first semiconductor layer that is a group 3-5 compound not containing arsenic and that lattice matches or pseudo-lattice matches with InP; and a second semiconductor layer that is formed to contact the first semiconductor layer, is a group 3-5 compound semiconductor layer that lattice matches or pseudo-lattice matches with InP, and can be selectively oxidized relative to the first semiconductor layer. Also provided is a semiconductor device comprising a first semiconductor layer that is a group 3-5 compound not containing arsenic and that lattice matches or pseudo-lattice matches with InP; an oxide layer formed by selectively oxidizing, relative to the first semiconductor layer, at least a portion of a second semiconductor layer that is a group 3-5 compound formed to contact the first semiconductor layer and that lattice matches or pseudo-lattice matches with InP; and a control electrode that adds an electric field to a channel formed in the first semiconductor layer.
    • 本发明的目的是使用实用和简单的方法在氧化物层和3-5族化合物半导体之间形成良好的界面。 提供了包括第一半导体层的半导体晶片,其是不含砷的组3-5化合物,并且晶格匹配或伪晶格与InP匹配; 和形成为与第一半导体层接触的第二半导体层是与InP晶格匹配或伪晶格匹配的组3-5化合物半导体层,并且可相对于第一半导体层选择性地氧化。 还提供了一种半导体器件,其包括第一半导体层,其是不含砷的组3-5化合物,并且晶格匹配或伪晶格与InP匹配; 通过相对于第一半导体层选择性地氧化形成为与第一半导体层接触的组3-5化合物的第二半导体层的至少一部分,并且晶格匹配或伪晶格匹配的InP形成的氧化物层 ; 以及将电场与形成在第一半导体层中的沟道相加的控制电极。
    • 36. 发明授权
    • Method and system for position detection of a sound source
    • 声源位置检测方法及系统
    • US08165317B2
    • 2012-04-24
    • US12498012
    • 2009-07-06
    • Osamu IchikawaTohru NaganoMasafumi Nishimura
    • Osamu IchikawaTohru NaganoMasafumi Nishimura
    • H04R3/00
    • G01S5/30H04R3/005
    • A position detection method, system, and computer readable article of manufacture tangibly embodying computer readable instructions for executing the method for detecting the position of a sound source using at least two microphones. The method includes the steps of: emitting a reproduced sound from the sound source; observing the reproduced sound and an observed sound at the microphones; converting the reproduced sound and the observed sound into electrical signals; transforming the signals of the reproduced sound and of the observed sound into frequency spectra by a frequency spectrum transformer apparatus; calculating Crosspower Spectrum Phase (CSP) coefficients of the frequency spectra of the signals by a CSP coefficient calculator apparatus; and calculating distances between the position of the sound source and the positions of the microphones based on the calculated CSP coefficients by a distance calculating apparatus, thereby detecting the position of the sound source.
    • 一种有形地体现用于执行用于使用至少两个麦克风来检测声源的位置的方法的计算机可读指令的位置检测方法,系统和计算机可读制品。 该方法包括以下步骤:从声源发射再现的声音; 观察麦克风上再现的声音和观察到的声音; 将再现的声音和观察到的声音转换成电信号; 通过频谱变换装置将再生声音和观测声音的信号变换为频谱; 通过CSP系数计算装置计算信号频谱的交叉频谱相位(CSP)系数; 并且通过距离计算装置基于所计算的CSP系数来计算声源的位置与麦克风的位置之间的距离,从而检测声源的位置。
    • 37. 发明授权
    • Voice recording system, recording device, voice analysis device, voice recording method and program
    • 录音系统,录音设备,语音分析设备,录音方式和程序
    • US07599836B2
    • 2009-10-06
    • US11136831
    • 2005-05-25
    • Osamu IchikawaMasafumi NishimuraTetsuya Takiguchi
    • Osamu IchikawaMasafumi NishimuraTetsuya Takiguchi
    • G10L17/00
    • G10L21/028
    • To provide a method of specifying each of speakers of individual voices, based on recorded voices made by a plurality of speakers, with a simple system configuration, and to provide a system using the method. The system includes: microphones individually provided for each of the speakers; a voice processing unit which gives a unique characteristic to each pair of two-channel voice signals recorded with each of the microphones 10, by executing different kinds of voice processing on the respective pairs of voice signals, and which mixes the voice signals for each channel; and an analysis unit which performs an analysis according to the unique characteristics, given to the voice signals concerning the respective microphones through the processing by the voice processing unit, and which specifies the speaker for each speech segment of the voice signals.
    • 为了提供一种基于由多个扬声器产生的记录的声音以简单的系统配置来指定各个语音的每个扬声器的方法,并且提供使用该方法的系统。 该系统包括:为每个扬声器单独提供的麦克风; 语音处理单元,通过对各个语音信号对执行不同种类的语音处理,并且将每个声道的语音信号进行混合,为记录在每个麦克风10中的每对双声道语音信号提供独特的特性 ; 以及分析单元,其根据通过语音处理单元的处理给予关于各个麦克风的语音信号的独特特性进行分析,并且指定语音信号的每个语音段的说话者。
    • 39. 发明授权
    • Semiconductor integrated circuit and memory test method
    • 半导体集成电路和存储器测试方法
    • US07295028B2
    • 2007-11-13
    • US11166345
    • 2005-06-27
    • Osamu Ichikawa
    • Osamu Ichikawa
    • G01R31/02
    • G11C29/36G11C29/14G11C2029/3602
    • The present invention provides a semiconductor integrated circuit capable of testing a high-speed memory at the actual operation speed of the memory even when the operation speed of the built-in self-test circuit of the integrated circuit is restricted. In order to test a memory operating on a first clock, the integrated circuit is provided with a first test pattern generation section, operating on a second clock, for generating test data, and a second test pattern generation section, operating on a third clock, the inverted clock of the second clock, for generating test data. Furthermore, the integrated circuit is provided with a test data selection section for selectively outputting either the test data output from the first test pattern generation section or the test data output from the second test pattern generation section depending on the signal value of the second clock, thereby inputting the test data to the memory as test data. The frequency of the second clock is lower than, for example, one quarter or one half, the frequency of the first clock.
    • 本发明提供一种半导体集成电路,即使在集成电路的内置自检电路的运算速度受到限制的情况下,能够以存储器的实际运行速度测试高速存储器。 为了测试在第一时钟上操作的存储器,集成电路设置有用于产生测试数据的第二测试数据的第二测试模式生成部分,以及在第三时钟上工作的第二测试模式生成部分, 第二个时钟的反相时钟,用于生成测试数据。 此外,集成电路设置有测试数据选择部分,用于根据第二时钟的信号值选择性地输出从第一测试模式生成部分输出的测试数据或从第二测试模式产生部分输出的测试数据, 从而将测试数据作为测试数据输入存储器。 第二个时钟的频率比第一个时钟的频率低四分之一或一半。
    • 40. 发明申请
    • Fuel cell system
    • 燃料电池系统
    • US20060099471A1
    • 2006-05-11
    • US11262010
    • 2005-10-28
    • Osamu IchikawaKuri Kasuya
    • Osamu IchikawaKuri Kasuya
    • H01M8/04
    • H01M8/04029H01M8/04097H01M8/04164
    • A fuel cell system includes a fuel cell, a fluid passage for warming, a gas-liquid separator, a supply passage and a recirculating module. The fuel cell generates power with supply of a reaction gas. The gas-liquid separator separates moisture contained in an anode exhaust gas which is discharged from the fuel cell. The supply passage returns the anode exhaust gas, from which the moisture has been separated by the gas-liquid separator, to an inlet side of the reaction gas. The recirculating module mixes the anode exhaust gas, which is returned via the supply passage, with the reaction gas. The gas-liquid separator lies adjacent to the recirculating module, and the fluid passage for warming is disposed between the gas-liquid separator and the recirculating module.
    • 燃料电池系统包括燃料电池,用于加温的流体通道,气液分离器,供应通道和再循环模块。 燃料电池通过反应气体的供给而发电。 气液分离器分离从燃料电池排出的阳极废气中含有的水分。 供给通道将由气液分离器分离的水分的阳极废气返回到反应气体的入口侧。 再循环模块将通过供应通道返回的阳极废气与反应气体混合。 气液分离器位于循环模块附近,用于加温的流体通道设置在气 - 液分离器和循环模块之间。