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    • 3. 发明授权
    • Underwater detection device and underwater detecting method
    • 水下检测装置及水下检测方法
    • US09268022B2
    • 2016-02-23
    • US13446283
    • 2012-04-13
    • Takeharu YamaguchiNicolas Borrallo
    • Takeharu YamaguchiNicolas Borrallo
    • G01S15/96G01S7/524G01S7/527G01S15/10
    • G01S15/96G01S7/524G01S7/5276G01S15/102
    • This disclosure provides an underwater detection device, which includes a first generator for generating a first transmission signal, a second generator for generating a second transmission signal having a longer pulse width than that of the first transmission signal, an output unit for outputting the transmission signals generated by the first and second generators to a transducer for transmitting underwater ultrasonic waves based on the first and second transmission signals, respectively, receiving the reflection waves caused by the ultrasonic waves, respectively, and converting the reflection waves into a first reception signal and a second reception signal, respectively, an underwater detector for detecting at least one of a presence of a target object and a water bottom depth based on the first reception signal, and a bottom sediment discriminator for discriminating a water bottom sediment type based on the second reception signal.
    • 本公开提供一种水下检测装置,其包括用于产生第一传输信号的第一发生器,用于产生具有比第一传输信号的脉冲宽度更长的第二传输信号的第二发生器,用于输出传输信号的输出单元 由第一和第二发生器分别产生的传感器,用于分别基于第一和第二传输信号传输水下超声波,接收由超声波引起的反射波,并将反射波转换成第一接收信号和 第二接收信号,分别用于基于第一接收信号检测目标对象的存在和水底深度中的至少一个的水下检测器,以及用于基于第二接收来区分水底沉积物类型的底部沉积物鉴别器 信号。
    • 4. 发明授权
    • Semiconductor laser
    • 半导体激光器
    • US06738405B1
    • 2004-05-18
    • US09889596
    • 2001-07-16
    • Takeharu YamaguchiToshikazu MukaiharaAkihiko Kasukawa
    • Takeharu YamaguchiToshikazu MukaiharaAkihiko Kasukawa
    • H01S500
    • H01S5/22B82Y20/00H01S5/0211H01S5/0212H01S5/0421H01S5/0425H01S5/2022H01S5/2216H01S5/34313
    • A semiconductor laser device (30) includes a layered structure formed on an n-type GaAs substrate (32) having a bandgap energy Eg1 and including an n-type AlGaAs cladding layer (34), an active layer (36) including a quantum-well structure of two layers InGaAs/GaAs having a bandgap energy Eg2 which is smaller than Eg1, a p-type AlGaAs cladding layer (38), and a p-type GaAs cap layer (40), which are consecutively epitaxially grown. The cap layer and the upper portion of the p-type cladding layer are formed as a stripe-shaped mesa structure. An SiN passivation film (42) is formed on the areas except for the top of the cap layer. On the exposed cap layer and the passivation layer a p-side electrode (44) is formed. On the bottom surface of the substrate an n-side electrode (46) including layered metal films of In/AuGe/Ni/Au is formed. An absorption medium layer is interposed between the GaAs substrate and the n-side electrode.
    • 半导体激光装置(30)包括形成在具有带隙能量Eg1并且包括n型AlGaAs包层(34)的n型GaAs衬底(32)上的分层结构,包括量子阱的有源层(36) 具有小于Eg1的带隙能量Eg2,p型AlGaAs覆层(38)和p型GaAs覆盖层(40)的两层InGaAs / GaAs的阱结构,其被连续地外延生长。 覆盖层和p型覆层的上部形成为条状台面结构。 在除了盖层的顶部之外的区域上形成SiN钝化膜(42)。 在露出的盖层和钝化层上形成p侧电极(44)。 在基板的底面形成有包含In / AuGe / Ni / Au的层叠金属膜的n侧电极(46)。 吸收介质层介于GaAs衬底和n侧电极之间。
    • 6. 发明授权
    • Semiconductor laser module
    • 半导体激光模块
    • US06683902B1
    • 2004-01-27
    • US09662118
    • 2000-09-14
    • Yutaka OhkiTakeharu YamaguchiYuichiro Irie
    • Yutaka OhkiTakeharu YamaguchiYuichiro Irie
    • H01S308
    • G02B6/4216G02B6/421H01S5/146
    • The present invention provides a semiconductor laser module. A semiconductor laser module (1A) comprising a semiconductor laser element (2a) and an optical fiber (3a) optically coupled by an optical coupling means (2b) is provided, wherein on the optical fiber (3a), a reflective portion (4) and a birefringence fiber (3a) are provided, the birefringence fiber (3a) is provided at least from the incident end on the side of the optical coupling means (2b) to immediately before the reflective portion (4), a connection portion (6) is provided at least at one point in the longitudinal direction of the birefringence fiber (3a), and in the connection portion (6), two eigen axes of X axes and Y axes are connected so that the eigen axes intersect each other at an established angle &thgr;.
    • 本发明提供一种半导体激光器模块。 提供一种包括半导体激光元件(2a)和通过光耦合装置(2b)光耦合的光纤(3a)的半导体激光器模块(1A),其中在光纤(3a)上,反射部分(4) 和双折射纤维(3a),双折射纤维(3a)至少从光耦合装置(2b)侧的入射端到反射部分(4)之前至少设置有连接部分(6) )至少在双折射纤维(3a)的纵向方向的一个点处设置,并且在连接部分(6)中,X轴和Y轴的两个本征轴被连接,使得本征轴线彼此相交 建立角度θ。
    • 9. 发明授权
    • Multi-frequency transmission/reception apparatus
    • 多频发送接收装置
    • US07443081B2
    • 2008-10-28
    • US10471700
    • 2002-04-11
    • Kazuhiko KameiRyouichi SuetoshiTakeharu Yamaguchi
    • Kazuhiko KameiRyouichi SuetoshiTakeharu Yamaguchi
    • H01L41/08
    • B06B1/0622B06B1/06B06B2201/74G01S7/521G01S15/96
    • The invention provides a multi-frequency transducer capable of obtaining desired directivity regardless of frequencies. Parallelepiped-shaped transducer elements (1) are used as transducer elements and a plurality of such transducer elements (1) are arranged in an array. The transducer elements (1) are caused to resonate using a resonant frequency in fundamental vibration mode and a resonant frequency in harmonic vibration mode determined by the dimensions (A, B) of a short edge (1a) and a long edge (1b) perpendicular to a longitudinal edge (1c) of each transducer element (1) to transmit and receive at multiple frequencies. The angle of directivity (θ) of the transducer elements is controlled by the dimension (C) of the longitudinal edge which is set to a value which does not affect resonance in either the fundamental vibration mode or the harmonic vibration mode.
    • 本发明提供一种能够获得所需方向性而不考虑频率的多频换能器。 使用平行六面体形状的换能器元件(1)作为换能器元件,并且将多个这样的换能器元件(1)排列成阵列。 使用基本振动模式的谐振频率和由短边(1a)和长边(1b)的尺寸(A,B)确定的谐波振动模式的谐振频率使换能器元件(1)谐振 )垂直于每个换能器元件(1)的纵向边缘(1c)以在多个频率处发送和接收。 换能器元件的方位角(θ)由纵向边缘的尺寸(C)控制,纵向边缘的尺寸被设定为不影响基本振动模式或谐波振动模式中的谐振的值。