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1. 发明专利

JP2014127045A Operation supporting system, and operation supporting method 有权
标题翻译：操作支持系统和操作支持方法
公开(公告)号：JP2014127045A
公开(公告)日：2014-07-07
申请号：JP2012283600
申请日：2012-12-26
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： NAKANO YOJI , FUKUDA NORIHIRO , YAMAGUCHI TETSUYA , NAKA TAKEHIRO , SAKAMOTO MUSASHI , ISHIKAWA AKIRA
IPC分类号： G06Q50/30
摘要： PROBLEM TO BE SOLVED: To modify an energy prediction model of a passenger boat to match with the reality by using monitoring data of a past record, and to present energy prediction with a higher degree of precision and a fuel optimum operation plan.SOLUTION: A demand for electric power is predicted with the use of an energy prediction model of a passenger boat, weather and marine phenomenon prediction data, and a plan of a sea route, and a fuel optimum operation plan which is an operation plan with the optimal fuel consumption efficiency is presented. Actual performance of energy of the passenger boat, weather and a marine phenomenon, and an operation state is monitored on the basis of the fuel optimum operation plan. A model corresponding to the fuel optimum operation plan is modified on the basis of the monitoring result. In that case, the model is modified by setting a correlation function with an individual parameter by multivariable analysis with the use of accumulated data of similar sea routes of the same ship in the same season, and by combining contribution of each parameter with the use of a contribution coefficient.
摘要翻译：要解决的问题：通过使用过去记录的监测数据来修改客船的能量预测模型以与现实相匹配，并以更高的精度和燃料最佳运行计划呈现能量预测。解决方案：A 通过使用客船的能量预测模型，天气和海洋现象预测数据以及海路计划以及具有最佳燃料消耗的操作计划的燃料最佳操作计划来预测电力需求提出了效率。根据燃油优化运行计划，对客船能源的实际表现，天气和海洋现象以及运行状况进行监测。根据监控结果对与燃料最优运行计划相对应的模型进行修改。在这种情况下，通过使用同一个季节同一艘船的类似海路的累积数据，通过多变量分析设置具有单个参数的相关函数，并通过将每个参数的贡献与使用贡献系数。

2. 发明专利

JP2006120747A Thin film silicon laminated solar cell 有权
标题翻译：薄膜硅层压太阳能电池
公开(公告)号：JP2006120747A
公开(公告)日：2006-05-11
申请号：JP2004305164
申请日：2004-10-20
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： NAKANO YOJI , YAMASHITA NOBUKI
IPC分类号： H01L31/04
CPC分类号： H01L31/077 , Y02E10/50
摘要： PROBLEM TO BE SOLVED: To provide a thin film silicon laminated solar cell and a method of designing it which has high efficiency through the year and high productivity. SOLUTION: In a solar cell with a tandem structure, a power generation current of the crystalline substrate solar cell which is a bottom cell and set smaller than the power generation current in an amorphous silicon solar cell which is a top cell, and the power generation current of the whole solar cell is regulated with the power generation current at the bottom cell. COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：提供一种薄膜硅层压太阳能电池及其设计方法，其年效率高，生产率高。解决方案：在具有串联结构的太阳能电池中，作为底部电池并且小于作为顶部电池的非晶硅太阳能电池中的发电电流的晶体衬底太阳能电池的发电电流，整个太阳能电池的发电电流由底部电池的发电电流调节。版权所有（C）2006，JPO＆NCIPI

3. 发明专利

JP2006032720A Plasma treatment device and solar cell 有权
标题翻译：等离子体处理装置和太阳能电池
公开(公告)号：JP2006032720A
公开(公告)日：2006-02-02
申请号：JP2004210469
申请日：2004-07-16
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： WATANABE TOSHIYA , SATAKE KOJI , YAMAKOSHI HIDEO , SHIGENAKA TOSHIAKI , NAKANO YOJI , TAKEUCHI YOSHIAKI
IPC分类号： H01L21/205 , C23C16/509 , H01L31/04 , H05H1/46
CPC分类号： Y02E10/50
摘要： PROBLEM TO BE SOLVED: To provide a plasma treatment device in which the improvement of film forming speed, the reduction of manufacturing cost and the improvement of film forming quality can effectively be performed. SOLUTION: The plasma treatment device is provided with a chamber 10 where inner pressure can be adjusted, a substrate electrode 3 which is arranged in the chamber 10 to hold a substrate 11 and grounded and counterelectrodes 15 arranged in the chamber 10 by making them confront with the substrate electrode 3 by leaving intervals. The counterelectrodes 15 are provided with first electric discharge electrodes 17 which are disposed on a substrate electrode side and to which ultrahigh frequency electric power is supplied, second electric discharge electrodes 21 which are installed on a side opposite to the substrate electrode 3 of the first electric discharge electrodes 17 through insulators 19 and grounded and a plurality of gas jet holes 25 which pass through at least the insulators 19 and the first electric discharge electrodes 17 and supply film-forming gas into the interval. COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：解决的问题：提供一种等离子体处理装置，其中可以有效地进行成膜速度的提高，制造成本的降低和成膜质量的提高。解决方案：等离子体处理装置设置有可以调节内部压力的室10，布置在室10中的基板电极3，用于保持布置在室10中的基板11和接地的反电极15，它们通过留下间隔与衬底电极3相对。反电极15设置有设置在基板电极侧并且被提供超高频电力的第一放电电极17，安装在与第一电极的基板电极3相反的一侧的第二放电电极21 放电电极17通过绝缘体19并接地，并且多个气体喷射孔25穿过至少绝缘体19和第一放电电极17，并将成膜气体供应到间隔中。版权所有（C）2006，JPO＆NCIPI

4. 发明专利

JP2014127047A Operation supporting system and operation supporting method 有权
标题翻译：操作支持系统和操作支持方法
公开(公告)号：JP2014127047A
公开(公告)日：2014-07-07
申请号：JP2012283620
申请日：2012-12-26
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： NAKANO YOJI , FUKUDA NORIHIRO , YAMAGUCHI TETSUYA , NAKA TAKEHIRO , SAKAMOTO MUSASHI
IPC分类号： G06Q50/30 , G01C21/20 , G08G3/00
摘要： PROBLEM TO BE SOLVED: To secure an operation schedule of a ship and save a fuel cost for an electric propulsion ship.SOLUTION: When operation support is provided to an electric propulsion ship, a schedule of a voyage is divided into several zones in terms of time or position. For each of the zones, propulsion resistance is predicted from weather and hydrographic information, and propulsion output corresponding to the propulsion resistance is calculated. For each of the zones, inboard electric power is predicted from weather information and an event plan. For each of the zones, the best combination of power generation efficiency of an engine is calculated. In order to create an operation plan while securing a schedule of the voyage and selecting a sea route and allocation of vessel speed which minimize total fuel consumption for each of the zones, by using a stationary value of variation method, a combination of parameters which maximize or minimize the current points is obtained by minutely adjusting each of the parameters, and a combination of operation plans of the zones is optimized, so that an operation plan of the voyage is created.
摘要翻译：要解决的问题：确保船舶的运行时间表并节省电动推进船的燃料成本。解决方案：当向电力推进船提供操作支持时，将航行时间表划分为几个区域时间或位置对于每个区域，根据天气和水文信息预测推进阻力，并计算与推进阻力相对应的推进输出。对于每个区域，根据天气信息和事件计划预测内部电力。对于每个区域，计算发动机的发电效率的最佳组合。为了创建一个运行计划，同时确保航行时间表，并选择一条海路和分配船舶速度，以最小化每个区域的总燃料消耗，通过使用变化方法的稳定值，最大化参数的组合或通过微调每个参数获得当前点的最小化，并优化区域的操作计划的组合，从而创建航行的操作计划。

5. 发明专利

JP2012195620A Method for manufacturing photoelectric conversion device and photoelectric conversion device 审中-公开
标题翻译：制造光电转换装置和光电转换装置的方法
公开(公告)号：JP2012195620A
公开(公告)日：2012-10-11
申请号：JP2012160715
申请日：2012-07-19
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： NAKANO YOJI , TAKEUCHI YOSHIAKI , YAMAGUCHI KENGO , YAMAUCHI YASUHIRO
IPC分类号： H01L31/04 , H01L31/076 , H01L31/077
CPC分类号： H01L31/077 , H01L31/0236 , H01L31/056 , H01L31/076 , H01L31/182 , H01L31/1884 , Y02E10/52 , Y02E10/546 , Y02E10/548 , Y02P70/521
摘要： PROBLEM TO BE SOLVED: To provide a photoelectric conversion device capable of satisfying both high photoelectric conversion efficiency and high productivity, and a method for manufacturing the same.SOLUTION: A photoelectric conversion device 90 comprises at least of a substrate with a transparent electrode in which a transparent electrode layer 2 is provided on a transparent insulating substrate 1, a photoelectric conversion layer 91 mainly having an amorphous silicon-based semiconductor and a back electrode layer 4. The substrate with the transparent electrode has a surface where lots of large and small recesses and projections are mixed together, and a spectral haze rate of the photoelectric conversion device 90 at wavelength more than 550 nm and less than 800 nm is more than 20%. A different-phase block layer for blocking a differential-phase penetrating from a surface at the transparent electrode layer 2 of the photoelectric conversion layer 91 to a surface at the back electrode layer 4, is provided in the photoelectric conversion layer 91, or a different-phase prevention layer for preventing a generation of the different-phase penetrating from the surface at the transparent electrode layer 2 of the photoelectric conversion layer 91 to the surface at the back electrode layer 4 of the photoelectric conversion layer 91 is provided between the transparent electrode layer 2 and the photoelectric conversion layer 91.
摘要翻译：要解决的问题：提供一种能够满足高光电转换效率和高生产率的光电转换装置及其制造方法。解决方案：光电转换装置90至少包括具有透明电极的基板，透明电极层2设置在透明绝缘基板1上，主要具有非晶硅基半导体的光电转换层91和背面电极层4.具有透明电极的基板具有许多大的和小的凹部和突起被混合在一起的表面，并且光电转换装置90的波长大于550nm且小于800nm的光谱雾度超过20％。在光电转换层91中设置用于阻挡从光电转换层91的透明电极层2的表面向背面电极层4的表面渗透的微分相的不同相位阻挡层，在光电转换层91的背面电极层4的表面上防止从光电转换层91的透明电极层2的表面渗透的不同相的相位防止层设置在透明电极层2和光电转换层91.版权所有（C）2013，JPO＆INPIT

6. 发明专利

JP2007266095A Photoelectric conversion cell, photoelectric conversion module, photoelectric conversion panel and photoelectric conversion system 审中-公开
标题翻译：光电转换单元，光电转换模块，光电转换面板和光电转换系统
公开(公告)号：JP2007266095A
公开(公告)日：2007-10-11
申请号：JP2006085931
申请日：2006-03-27
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： SAKAI TOMOTSUGU , KOBAYASHI YASUYUKI , KUREYA MASAYUKI , NAKANO YOJI
IPC分类号： H01L31/04
CPC分类号： H01L31/056 , H01L31/0236 , Y02E10/52
摘要： PROBLEM TO BE SOLVED: To provide a photoelectric conversion cell, a photoelectric conversion module, a photoelectric conversion panel and a photoelectric conversion system that can make the efficiency of a thin-film Si solar cell improved and are capable of enhancing the efficiency of a photoelectric conversion. SOLUTION: A refractive-index adjusting layer consisting of the quality of the material, having a refractive index smaller than a transparent conductive film, is inserted between a rear electrode and the transparent conductive film formed on the surface side of the rear electrode. When the transparent conductive film, consisting of GZO, SiO 2 , is inserted between the transparent conductive film and the rear electrode consisting of Ag. Consequently, light penetrated into the rear electrode and absorbed is reduced, and the reflectance of the light on the rear electrode is improved. COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：要解决的问题：提供一种可以使薄膜Si太阳能电池的效率提高并且能够提高效率的光电转换单元，光电转换模块，光电转换面板和光电转换系统的光电转换。解决方案：将折射率小于透明导电膜的材料的质量组成的折射率调节层插入在后电极和形成在后电极表面侧的透明导电膜之间。当由透明导电膜和由Ag组成的后电极之间插入由GZO，SiO 2 组成的透明导电膜时，因此，光穿透到后电极中被吸收，并且后电极上的光的反射率得到改善。版权所有（C）2008，JPO＆INPIT

7. 发明专利

JP2006032800A Plasma treatment device, solar cell and manufacturing method of solar cell 有权
标题翻译：等离子体处理装置，太阳能电池和太阳能电池的制造方法
公开(公告)号：JP2006032800A
公开(公告)日：2006-02-02
申请号：JP2004212167
申请日：2004-07-20
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： WATANABE TOSHIYA , YAMAKOSHI HIDEO , SATAKE KOJI , SHIGENAKA TOSHIAKI , NAKANO YOJI , TAKEUCHI YOSHIAKI , NODA SHOHEI
IPC分类号： H01L31/04 , C23C16/509 , C23F4/00 , H01L21/205 , H05H1/46
CPC分类号： Y02E10/50
摘要： PROBLEM TO BE SOLVED: To improve the film-forming quality of plasma treatment with respect to a substrate to be treated whose area is made large. SOLUTION: The plasma treatment device is provided with a chamber 10 where inner pressure can be adjusted, a substrate electrode 3 which is arranged in the chamber 10 to hold the substrate to be treated 11 and grounded, a counterelectrode 21 which is disposed in the chamber 10 to face the substrate electrode 11 by leaving an interval, receives the supply of high-frequency power 26 and discharges the power. Four supply points 24 are installed in the lengthwise direction of the counterelectrode 21. When the length L of a cable 25 supplying power to the supply points 24 is set to be L and a wavelength of high frequency power of the cable 25 which is decided by a frequency of the high frequency power supply 26 and a structure of the cable 25 is set to be λ, almost the same length shown by L=nλ/2 (n is positive integer and n≠0) is set. The four supply points 24 are divided into two power supply systems E1 and E2 different in phases. The phases of the adjacent supply points 24 are made to differ from each other. COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：为了提高等离子体处理相对于面积大的被处理基板的成膜质量。解决方案：等离子体处理装置设置有可以调节内部压力的室10，布置在室10中以保持被处理基板11并接地的基板电极3，设置的反电极21 在室10中通过留下间隔面对基板电极11，接收高频电源26的供给并放电。四个供应点24安装在反电极21的长度方向上。当向供应点24供电的电缆25的长度L被设置为L并且电缆25的高频功率的波长由将高频电源26的频率和电缆25的结构设定为λ，设定与L =nλ/ 2（n为正整数，n≠0）所示的几乎相同的长度。四个供给点24分成两个不同的供电系统E1和E2。使相邻的供给点24的相位彼此不同。版权所有（C）2006，JPO＆NCIPI

8. 发明专利

JP2006032795A Feeder system, plasma treatment device equipped with the same and plasma treatment method 有权
标题翻译：进料系统，等离子体处理装置及其等离子体处理方法
公开(公告)号：JP2006032795A
公开(公告)日：2006-02-02
申请号：JP2004212099
申请日：2004-07-20
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： WATANABE TOSHIYA , YAMAKOSHI HIDEO , SATAKE KOJI , SHIGENAKA TOSHIAKI , NAKANO YOJI , TAKEUCHI YOSHIAKI , NODA SHOHEI
IPC分类号： H01L21/205 , C23C16/509 , H05H1/46
摘要： PROBLEM TO BE SOLVED: To provide a plasma treatment device in which the improvement of film-forming speed, the reduction of manufacturing cost and the improvement of film-forming quality can effectively be performed. SOLUTION: A feeder system 9 is provided with a signal generator 8 emitting high frequency power and a power electrode to which the high frequency power from the signal generator 8 is supplied. Plasma 2 is formed a substrate 11 which is arranged oppositely to the power electrode and which relatively moves, and the the power electrode. The feeder system used for a plasma CVD device performing plasma treatment is installed on the substrate 11. The power electrode is formed of a plurality of small divided electrodes. Gaps are formed between the small electrodes. The gaps are inclined and arranged with respect to the moving direction of the substrate 11. COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：解决的问题：提供一种等离子体处理装置，其中可以有效地进行成膜速度的提高，制造成本的降低和成膜质量的提高。解决方案：馈线系统9设置有发射高频功率的信号发生器8和来自信号发生器8的高频功率的功率电极。等离子体2形成为与功率电极相对配置并相对移动的基板11和功率电极。用于执行等离子体处理的等离子体CVD装置的馈送系统安装在基板11上。功率电极由多个小分割电极形成。在小电极之间形成间隙。间隙相对于基板11的移动方向倾斜并布置。版权所有（C）2006，JPO＆NCIPI

9. 发明专利

JP2004079744A Plasma enhanced cvd film forming system 审中-公开
公开(公告)号：JP2004079744A
公开(公告)日：2004-03-11
申请号：JP2002237380
申请日：2002-08-16
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： MORITA SHOJI , YONEKURA YOSHIMICHI , NAKANO YOJI , KUREYA MASAYUKI , NISHIMIYA TATSUYUKI , YAMAGUCHI KENGO
IPC分类号： H05H1/46 , B01J3/00 , B01J19/08 , C23C16/509 , H01L21/205 , H01L31/04
CPC分类号： Y02E10/50
摘要： PROBLEM TO BE SOLVED: To improve a film forming speed of a plasma enhanced CVD film forming system and further improve the uniformity of thickness of a film formed by means of the film forming device. SOLUTION: The plasma enhanced CVD film forming system is provided with a vacuum vessel 11, an introducing means which introduces a gas into the vessel 11, and an exhausting means which exhausts the gas in the vessel 11. The system is also provided with a substrate heating heater 21 which is arranged in the vessel 11 and supports a substrate, a discharge electrode 14 arranged in the vessel 11 to face the substrate, and a high-frequency power source 20 connected to the discharge electrode 14. In addition, the system is also provided with a film forming unit 16 arranged in the vessel 11 to surround the side of the electrode 14 opposite to the substrate side and a grounding strengthening connecting means 21 which electrically connects the substrate heating heater 21 and film forming unit 16 to each other. In the device, the length of a route from the reference point of a power feeding section to a grounding reference point is adjusted within 1/2 of the wavelength. COPYRIGHT: (C)2004,JPO

10. 发明专利

JP2004064019A Manufacturing apparatus for plasma cvd thin film 审中-公开
公开(公告)号：JP2004064019A
公开(公告)日：2004-02-26
申请号：JP2002223882
申请日：2002-07-31
申请人： Mitsubishi Heavy Ind Ltd , 三菱重工業株式会社
发明人： MORITA SHOJI , YONEKURA YOSHIMICHI , NAKANO YOJI , KUREYA MASAYUKI , NISHIMIYA TATSUYUKI , YAMAGUCHI KENGO
IPC分类号： C23C16/50 , H01L21/205
摘要： PROBLEM TO BE SOLVED: To provide a manufacturing apparatus for a plasma CVD thin film in which, with such electrode as a plurality of slits are formed being used as a discharge electrode, the time variation in amplitude of standing wave is eliminated to negate a voltage distribution on the discharge electrode, resulting in a uniform plasma.
SOLUTION: The apparatus comprises a vacuum vessel 21, a guiding means 27 for guiding gas in the vacuum vessel 21, an exhausting means 31 which evacuates the vacuum vessel, a heater 22 for heating a substrate that is disposed in the vacuum vessel 21 and supports a substrate 25, a discharge electrode 24 arranged in the vacuum vessel 21 to face the substrate 25, and a high-frequency power source 30 connected to the discharge electrode 24. The discharge electrode 24 is featured by having a plurality of slits 23.
COPYRIGHT: (C)2004,JPO

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