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1.发明申请WIND TURBINE GENERATOR AND VALVE FUNCTION CHECKING METHOD FOR WIND TURBINE GENERATOR 审中-公开风力发电机风力发电机和阀功能检查方法公开(公告)号:US20130323051A1
公开(公告)日:2013-12-05
申请号:US13484373
申请日:2012-05-31
申请人: Atsushi YUGE , Toshikazu HAYASHI , Masato YAMADA
发明人: Atsushi YUGE , Toshikazu HAYASHI , Masato YAMADA
CPC分类号: F03D7/0224 , F03D17/00 , F05B2260/76 , F05B2260/83 , F05B2270/604 , Y02E10/721 , Y02E10/723
摘要: An object is to facilitate checking of functional normality of a pilot check valve. A wind turbine generator includes a pilot check valve for restricting a flow of hydraulic oil relative to each oil hydraulic cylinder for changing a pitch angle of each blade, and the pilot check valve functions for fixing the pitch angle of the blade to a feather position in a state in which rotation of the blade is stopped. The function of the pilot check valve may be hindered. The wind turbine generator detects an operation state of the blade during a process of changing the pitch angle of the blade from the feather position to a fine position, and compares the detected operation state of the blade to an operation state of the blade when the pilot check valve functions normally, to determine whether or not there is any abnormality in the pilot check valve.
摘要翻译: 目的是为了便于检查先导式止回阀的功能正常性。 风力涡轮发电机包括用于限制相对于每个油压缸的液压油流动用于改变每个叶片的俯仰角的导向止回阀,以及用于将叶片的俯仰角固定到羽毛位置的导向止回阀的功能 叶片的旋转停止的状态。 导向止回阀的功能可能受到阻碍。 风力涡轮发电机在将叶片的俯仰角从羽毛位置变更为精细位置的过程中检测到叶片的动作状态,并且当飞行员的飞行员将飞行员的操作状态与叶片的操作状态进行比较 止回阀功能正常,以确定先导式止回阀是否有异常。
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公开(公告)号:US20120187283A1
公开(公告)日:2012-07-26
申请号:US13358649
申请日:2012-01-26
申请人: Masato Yamada , Yoshiaki Maeno
发明人: Masato Yamada , Yoshiaki Maeno
IPC分类号: H01J40/14
CPC分类号: G01S17/936 , G01S7/4813 , G01S7/4816 , G01S7/4817 , G01S7/4876
摘要: A laser radar system is provided with a laser light source which emits laser light, a light scanning portion which causes the laser light to scan a target area, an optical filter which removes light of an angle component different from an angle component of reflected light of the laser light from the target area, a photodetector which receives the reflected light transmitted through the optical filter, and a light collecting element which collects the reflected light on the photodetector.
摘要翻译: 激光雷达系统设置有发射激光的激光光源,使激光扫描目标区域的光扫描部分,除去不同于反射光的角度分量的角度分量的光的滤光器 来自目标区域的激光,接收透过滤光器的反射光的光电检测器,以及在光检测器上聚集反射光的聚光元件。
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公开(公告)号:US07972892B2
公开(公告)日:2011-07-05
申请号:US10590325
申请日:2005-02-25
申请人: Masato Yamada , Masanobu Takahashi
发明人: Masato Yamada , Masanobu Takahashi
IPC分类号: H01L21/00
CPC分类号: H01L33/0079 , H01L24/32 , H01L33/405 , H01L2224/32245 , H01L2224/45144 , H01L2224/48091 , H01L2224/48137 , H01L2224/48247 , H01L2224/48463 , H01L2224/49107 , H01L2224/73265 , H01L2224/92247 , Y10S438/97 , Y10S438/977 , H01L2924/00014 , H01L2924/00
摘要: A composite growth-assisting substrate 10 is formed by epitaxially growing a separation-assisting compound semiconductor layer 10k composed of a non-GaAs III-V compound semiconductor single crystal, and then a sub-substrate 10e composed of a GaAs single crystal in this order, on a first main surface of a substrate bulk 10m composed of a GaAs single crystal. The sub-substrate portion 10e is then separated from the composite growth-assisting substrate 10, so as to be left as a residual substrate portion 1 on a second main surface of the main compound semiconductor layer 40, and a portion of the residual substrate portion 1 is cut off to thereby form a cut-off portion 1j having a bottom surface used as a light extraction surface. By this configuration, the light emitting device is provided as allowing effective use of the GaAs substrate, and increasing the light extraction efficiency.
摘要翻译: 通过外延生长由非GaAs III-V化合物半导体单晶组成的分离辅助化合物半导体层10k,然后依次由GaAs单晶构成的子基板10e,形成复合增长辅助基板10 在由GaAs单晶构成的衬底体10m的第一主表面上。 然后将副基板部分10e与复合增长辅助基板10分离,以便在主化合物半导体层40的第二主表面上作为剩余基板部分1留下,并且残留基板部分的一部分 切断1,从而形成具有用作光提取表面的底表面的截止部分1j。 通过这种配置,发光器件被设置为允许有效地使用GaAs衬底,并且提高光提取效率。
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公开(公告)号:US20100188722A1
公开(公告)日:2010-07-29
申请号:US12688247
申请日:2010-01-15
申请人: Masato Yamada , Yoshihisa Suzuki
发明人: Masato Yamada , Yoshihisa Suzuki
IPC分类号: G02B26/08
CPC分类号: G02B26/101 , G01S7/4811 , G01S7/4817 , G01S17/936
摘要: An attachment lens is arranged in a stage subsequent to a scanning lens. After a laser beam is converged by the scanning lens, the laser beam is converted into a parallel beam by the attachment lens. When the scanning lens is displaced in a direction perpendicular to an optical axis of the laser beam, a traveling direction of the laser beam is bent by a predetermined angle immediately after the laser beam passes through the scanning lens. Then, the traveling direction of the laser beam is further bent by a predetermined angle in the same direction by the passage of the laser beam through the attachment lens. Accordingly, a final swing angle of the laser beam outgoing from an outgoing window is increased by a swing angle imparted by the attachment lens compared with the case where the attachment lens is not arranged. One of lens surfaces of the attachment lens is formed in a toroidal surface, which allows the laser beam to have a long outline in a vertical direction.
摘要翻译: 附着透镜布置在扫描透镜之后的阶段中。 在激光束被扫描透镜会聚之后,激光束被附着透镜转换成平行光束。 当扫描透镜在与激光束的光轴垂直的方向上移位时,激光束的行进方向在激光束通过扫描透镜之后立即弯曲预定角度。 然后,激光束的行进方向通过激光束通过附着透镜而沿相同方向进一步弯曲预定角度。 因此,与未配置附件镜头的情况相比,从出射窗口射出的激光束的最终摆动角度增加了由附着镜头施加的摆动角度。 附着透镜的透镜表面之一形成在环形表面中,这允许激光束在垂直方向上具有长轮廓。
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公开(公告)号:US07570346B2
公开(公告)日:2009-08-04
申请号:US11377449
申请日:2006-03-17
IPC分类号: G01C3/08
CPC分类号: G01S17/936 , G01C3/08 , G01S17/46
摘要: A scan trajectory of a laser beam is controlled based on external signals each related to a driving direction and a driving speed, a result obtained by detection of an obstacle, and signals related to distances to the obstacle. For example, at the time of a right turn, a scan trajectory for increasing scan frequency on a portion shifted in a right-turn direction from a center axis in a driving direction is set. At the time of high-speed driving, a scan trajectory for increasing scan frequency on a center portion in the driving direction is set. When the obstacle is detected at a position corresponding to a distance shorter than a threshold distance, a scan trajectory for increasing scan frequency in the vicinity of the obstacle is set. Detection and monitoring are performed at the time of: changing of the driving direction, the high-speed driving, and the detection of the obstacle.
摘要翻译: 基于与驱动方向和驱动速度相关的外部信号,通过检测障碍物获得的结果以及与障碍物的距离相关的信号来控制激光束的扫描轨迹。 例如,在右转时,设定用于增加扫描频率的扫描轨迹,该扫描轨迹用于沿着驱动方向从中心轴沿右转方向移动的部分增加扫描频率。 在高速驱动时,设定用于增加驱动方向上的中心部分的扫描频率的扫描轨迹。 当在对应于比阈值距离短的距离的位置处检测到障碍物时,设置用于增加障碍物附近的扫描频率的扫描轨迹。 在改变驾驶方向,高速驾驶和障碍物的检测时进行检测和监视。
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公开(公告)号:US07511314B2
公开(公告)日:2009-03-31
申请号:US10575853
申请日:2004-10-15
IPC分类号: H01L29/26
CPC分类号: H01L33/30 , H01L21/02392 , H01L21/02395 , H01L21/02461 , H01L21/02505 , H01L21/02543 , H01L21/02579 , H01L21/0262 , H01L33/0079 , H01L33/14 , H01L33/405 , Y10S438/936
摘要: Disclosed is a light-emitting device (100) has a light-emitting layer portion (24) which is composed of a group III-V compound semiconductor and a transparent thick-film semiconductor layer (90) with a thickness of not less than 40 μm which is formed on at least one major surface side of the light-emitting layer portion (24) and composed of a group III-V compound semiconductor having a band gap energy larger than the photon energy equivalent of the peak wavelength of emission flux from the light-emitting layer portion (24). The transparent thick-film semiconductor layer (90) has a lateral surface portion (90S) which is a chemically etched surface. The dopant concentration of the transparent thick-film semiconductor layer (90) is not less than 5×1016/cm3 and not more than 2×1018/cm3. The light-emitting device can have a transparent thick-film semiconductor layer while being significantly improved in light taking-out efficiency from the lateral surface portion.
摘要翻译: 公开了一种发光器件(100),其具有由III-V族化合物半导体和厚度不小于40的透明厚膜半导体层(90)组成的发光层部分(24) 形成在发光层部分(24)的至少一个主表面侧上并且由具有比从其发射波长的峰值波长的光子能量当量的能隙大的III-V族化合物半导体构成的母体 发光层部分(24)。 透明厚膜半导体层(90)具有作为化学蚀刻表面的侧表面部分(90S)。 透明厚膜半导体层(90)的掺杂浓度为5×10 16 / cm 3以上2×10 18 / cm 3以下。 发光装置可以具有透明的厚膜半导体层,同时从侧面部分的光取出效率显着提高。
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公开(公告)号:US07351944B2
公开(公告)日:2008-04-01
申请号:US11283999
申请日:2005-11-22
申请人: Masato Yamada , Hitoshi Terasaki , Yoichi Tsuchiya , Shuichi Ichiura , Masahiro Higuchi , Mikio Ichihashi , Youichiro Goto , Yoshiaki Maeno
发明人: Masato Yamada , Hitoshi Terasaki , Yoichi Tsuchiya , Shuichi Ichiura , Masahiro Higuchi , Mikio Ichihashi , Youichiro Goto , Yoshiaki Maeno
CPC分类号: G01S17/42 , G01S7/4811 , G01S7/4817 , G01S7/491 , G01S17/48
摘要: In a beam irradiation device of the present invention, laser beams emitted from a semiconductor laser impinge on an irradiation lens supported by a lens actuator. The laser beams that have passed through the irradiation lens change in outgoing angle in the direction of a y-z plane as the lens actuator is driven. A laser beam scan in the target region is thus performed. A part of the laser beams that have passed through the irradiation lens is reflected and separated by a beam splitter. The separated beams are converged on a PSD through a converging lens. A DSP control circuit monitors a scan position of the laser beams that have passed through the irradiation lens based on a signal from the PSD. When an irradiation position has deviated from a scan trajectory, the DSP control circuit controls an actuator driving circuit to draw the irradiation position back onto the scan trajectory. This beam irradiation device can realize a smooth and stable beam scan operation with a simple construction.
摘要翻译: 在本发明的光束照射装置中,从半导体激光器发射的激光束照射在由透镜致动器支撑的照射透镜上。 当透镜致动器被驱动时,穿过照射透镜的激光束在y-z平面的方向上以出射角度改变。 因此执行目标区域中的激光束扫描。 已经通过照射透镜的激光束的一部分被分束器反射和分离。 分离的光束通过会聚透镜会聚在PSD上。 DSP控制电路基于来自PSD的信号监视已经通过照射透镜的激光束的扫描位置。 当照射位置偏离扫描轨迹时,DSP控制电路控制致动器驱动电路将照射位置反射回扫描轨迹。 该光束照射装置能够以简单的结构实现平稳稳定的束扫描操作。
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公开(公告)号:US20070145405A1
公开(公告)日:2007-06-28
申请号:US10575853
申请日:2004-10-15
IPC分类号: H01L33/00
CPC分类号: H01L33/30 , H01L21/02392 , H01L21/02395 , H01L21/02461 , H01L21/02505 , H01L21/02543 , H01L21/02579 , H01L21/0262 , H01L33/0079 , H01L33/14 , H01L33/405 , Y10S438/936
摘要: Disclosed is a light-emitting device (100) has a light-emitting layer portion (24) which is composed of a group III-V compound semiconductor and a transparent thick-film semiconductor layer (90) with a thickness of not less than 40 μm which is formed on at least one major surface side of the light-emitting layer portion (24) and composed of a group III-V compound semiconductor having a band gap energy larger than the photon energy equivalent of the peak wavelength of emission flux from the light-emitting layer portion (24). The transparent thick-film semiconductor layer (90) has a lateral surface portion (90S) which is a chemically etched surface. The dopant concentration of the transparent thick-film semiconductor layer (90) is not less than 5×1016/cm3 and not more than 2×1018/cm3. The light-emitting device can have a transparent thick-film semiconductor layer while being significantly improved in light taking-out efficiency from the lateral surface portion.
摘要翻译: 公开了一种发光器件(100),其具有由III-V族化合物半导体和厚度不小于40的透明厚膜半导体层(90)组成的发光层部分(24) 形成在发光层部分(24)的至少一个主表面侧上并且由具有比从其来源的发射光束的峰值波长的光子能量当量的能隙大的III-V族化合物半导体构成的母体 发光层部分(24)。 透明厚膜半导体层(90)具有作为化学蚀刻表面的侧面部(90S)。 透明厚膜半导体层(90)的掺杂浓度为5×10 16 / cm 3以上,2×10 18 / / cm 3。 发光装置可以具有透明的厚膜半导体层,同时从侧面部分的光取出效率显着提高。
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公开(公告)号:US20060244978A1
公开(公告)日:2006-11-02
申请号:US11410049
申请日:2006-04-25
申请人: Masato Yamada , Shuichi Ichiura
发明人: Masato Yamada , Shuichi Ichiura
IPC分类号: G01B11/14
CPC分类号: G01S17/936 , G01S7/481 , G01S7/4972
摘要: An irradiation pattern of a laser beam within a target region is controlled based on external signals each related to a driving direction and a driving speed, a result obtained by detection of an obstacle, and signals related to distances to the obstacle. For example, at the time of a right turn, an irradiation pattern for increasing irradiation frequency on a portion shifted in a right-turn direction from a center axis in a driving direction is set. At the time of high-speed driving, an irradiation pattern for increasing irradiation frequency on a center portion of a forward region in the driving direction is set. When the obstacle is detected and a distance to the obstacle is shorter than a threshold distance, an irradiation pattern for increasing irradiation frequency in the vicinity of the obstacle is set. Detection of the obstacle and monitoring of a state thereof are adequately and smoothly performed at the time of changing of the driving direction, the time of high-speed driving, and the time of detection of the obstacle.
摘要翻译: 基于与驱动方向和驱动速度相关的外部信号,通过检测障碍物获得的结果以及与障碍物的距离有关的信号来控制目标区域内的激光束的照射图案。 例如,在右转时,设定用于增加沿着驱动方向的中心轴在右转方向上偏移的部分上的照射频率的照射图案。 在高速驱动时,设定用于在驱动方向的前方区域的中心部分增加照射频率的照射图案。 当检测到障碍物并且与障碍物的距离小于阈值距离时,设置用于增加障碍物附近的照射频率的照射模式。 在改变行驶方向,高速行驶时间和障碍物的检测时间时,对障碍物的检测和状态的监视能够充分而平稳地进行。
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公开(公告)号:US07041529B2
公开(公告)日:2006-05-09
申请号:US10690453
申请日:2003-10-22
申请人: Masato Yamada , Jun-ya Ishizaki , Nobuhiko Noto , Kazunori Hagimoto , Shinji Nozaki , Kazuo Uchida , Hiroshi Morisaki
发明人: Masato Yamada , Jun-ya Ishizaki , Nobuhiko Noto , Kazunori Hagimoto , Shinji Nozaki , Kazuo Uchida , Hiroshi Morisaki
CPC分类号: H01L33/42 , H01L33/0079 , H01L33/10 , H01L33/145 , H01L33/387 , H01L33/405 , H01L2933/0016
摘要: In a light-emitting device, a light-emitting layer portion composed of a compound semiconductor is bonded on one main surface of a transparent conductive semiconductor substrate while placing a substrate-bonding conductive oxide layer composed of a conductive oxide in between. Between the light-emitting layer portion and the substrate-bonding conductive oxide layer, a contact layer for reducing junction resistance with the substrate-bonding conductive oxide layer so as to contact with the substrate-bonding conductive oxide layer. This is successful in providing the light-emitting device which is producible at low costs, has a low series resistance, and can attain a sufficient emission efficiency despite it has a thick current-spreading layer.
摘要翻译: 在发光装置中,将由化合物半导体构成的发光层部分接合在透明导电半导体衬底的一个主表面上,同时将由导电氧化物构成的衬底接合导电氧化物层放置在其间。 在发光层部分和与衬底结合的导电氧化物层之间,具有用于与衬底结合导电氧化物层降低结电阻以与衬底结合导电氧化物层接触的接触层。 这是成功地提供了可以低成本生产的低发光装置,具有低串联电阻,并且尽管具有厚的电流扩展层,但是可以获得足够的发光效率。
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