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Results 1-10 of 79,954 for Criteria: Office(s):all Language:EN Stemming: true maximize
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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. WO/2016/131190 METHOD AND SYSTEM FOR IMPROVING SOLAR CELL MANUFACTURING YIELDWO25.08.2016
H01L 31/18
PCT/CN2015/073221SOLARCITY CORPORATIONHENG, Jiunn Benjamin
A system is described for fabricating solar cells in a large-scale solar cell fabrication facility. The system includes a first processing station, a second processing station, and a wafer-storage apparatus positioned between the first processing station and the second processing station. A microenvironment within the wafer-storage apparatus is substantially separate from a large environment of the large-scale solar cell fabrication facility, and the microenvironment is filtered to reduce chemicals, moisture, and volatile organic compound. The wafer-storage apparatus is configured to temporarily store wafers emerging from the first processing station and queuing for processing at the second processing station.

2. WO/2016/133239 WINDING ROLLER OF WIRE SAWWO25.08.2016
H01L 31/18
PCT/KR2015/003017SHINKEE INDUSTRY CO., LTD.JUNG, Jin Dong
The present invention relates to a winding roller of a wire saw which is light and has sufficient strength because the outer body of the winding roller, which is formed of carbon fiber and around which a wire for cutting an ingot at a thin thickness is wound, enables the outer body formed of carbon fiber and a fixation flange formed of a metal to be simply and solidly bonded by an adhesive, and may enhance assemblability while economically reducing costs. The present invention comprises: an outer body (210), formed of carbon fiber, which has a hollow cylindrical shape; a central shaft (220) which is installed within the outer body (210) and has a plurality of reinforcement wings (221); and fixation flanges (230) including insertion members (231), in which a beveled surface (231b) is formed extending in the length direction (L) from the inner side to the outer side on an inner peripheral surface so as to be fitted into both ends of the outer body (210) and fixed with an adhesive, locking members (232) in close contact with a side of the outer body (210), and a shaft hole (233) into which the central shaft (220) is inserted.

3. WO/2016/134319 METHOD AND APPARATUS FOR TIME-DOMAIN DROOP CONTROL WITH INTEGRATED PHASOR CURRENT CONTROLWO25.08.2016
H02M 1/42
PCT/US2016/018781ENPHASE ENERGY, INC.ZIMMANCK, Donald Richard
A method and apparatus for power converter current control. In one embodiment, the method comprises controlling an instantaneous current generated by a power converter such that power converter appears, from the perspective of an AC line coupled to the power converter, as a virtual AC voltage source in series with a virtual impedance, wherein real and reactive phasor currents for the power converter are indirectly controlled by modifying amplitude and phase of a virtual AC voltage waveform that defines the virtual AC voltage source.

4. WO/2016/133973 A PROCESS FOR MAKING POWDER ALLOYS CONTAINING CADMIUM AND SELENIUMWO25.08.2016
C01B 19/00
PCT/US2016/018188FIRST SOLAR, INC.GOVINDARAJAN, Shrinivas
A process for preparing alloy products powders is described using a self-sustaining or self -propagating SHS-type combustion process. Binary, ternary and quaternary alloy having cadmium, selenium and optionally a third element X or Y selected from Group VIA (such as S or Te) or from group IIB (such as Zn or Hg). The alloy products may be doped or not with a wide variety of other elements. The process involves heating to ignition, maintaining an elevated temperature less than melting for homogenization, followed by cooling and crushing An optional de-oxidation process may follow to further purify the alloy and balance the stoichiometry.

5. WO/2016/133864 COMPOSITIONS AND METHODS FOR THE DOWNCONVERSION OF LIGHTWO25.08.2016
H01L 33/50
PCT/US2016/018004MASSACHUSETTS INSTITUTE OF TECHNOLOGYCONGREVE, Daniel, N
The present invention generally relates to composition and methods for downconverting light. In some embodiments, the composition and methods comprise an organic material, a nanocrystal, and a ligand capable of facilitating energy transfer between the organic material and the nanocrystal. In certain embodiments, the nanocrystal has a first excited energy state with an energy less than a triplet energy state of the organic material. The organic material, in some embodiments, may be aromatic and/or include one or more pi-conjugated carbon-carbon double bonds. In some cases, incident light may be absorbed by the organic material to produce two triplet excitons. The triplet excitons may then transfer to the nanocrystal via the ligand, where they can undergo recombination, resulting in the formation low energy photons.

6. WO/2016/133695 DAMAGE BUFFER FOR SOLAR CELL METALLIZATIONWO25.08.2016
H01L 31/0392
PCT/US2016/016229SUNPOWER CORPORATIONPASS, Thomas P.
A solar cell structure includes a semiconductor region disposed in or above a substrate. A damage buffer can be disposed above the semiconductor region. First and second conductive layers can be bonded together at a location above the damage buffer.

7. WO/2016/131400 HIGHLY SENSITIVE NANO PHOTO-TRANSISTOR AND MANUFACTURING METHOD THEREFOR, AND PHOTO-COMMUNICATION DEVICE AND SPECTRUM SPLITTER DEVICE USING SAMEWO25.08.2016
H01L 31/0232
PCT/CN2016/073655SHANGHAI JIAO TONG UNIVERSITYDAN, Yaping
A photo-transistor, comprising a collector region (212), a base region (211) and an emitter region (213).There is a first PN junction between the collector region and the base region, and a second PN junction between the emitter region and the base region. The collector region, the base region and the emitter region are formed on a strip nano-structure, and the first PN junction and the second PN junction are formed on cross sections of the nano-structure, the junction areas of which are equal to the areas of the cross sections. Furthermore, by designing the length (L2) of the base region and the length (L1) of the collector region, arranging a transition region (214) on the nano-structure, arranging a passivation layer on the surface of the nano-structure and arranging a plurality of metal nano-particles (315) on the surface of the nano-structure, especially the surface of the collector region, the frequency response characteristic and the photoelectric conversion efficiency of the photo-transistor are effectively improved, and the silicon-based photo transistor is enabled to have a very high absorption rate for light in photo-communication wavebands. Also disclosed is a manufacturing method for a photo-transistor, a photo-communication device and a spectrum splitter device using same.

8. 09425340 Solar cell and solar cell moduleUS23.08.2016
H01L 31/056
13927409Sanyo Electric Co., Ltd.Shigeharu Taira

To provide a solar cell having improved photoelectric conversion efficiency and a solar cell module. A solar cell (10) is provided with a photoelectric conversion portion (20), a light receiving surface electrode (21a) and a back surface electrode (21b). The light receiving surface electrode (21a) is arranged on the light receiving surface (20a) of the photoelectric conversion portion (20). The back surface electrode (21b) is arranged on the back surface (20b) of the photoelectric conversion portion (20). The back surface electrode (21b) includes metal film (21b1) and an electrical connection electrode (21b2). The metal film (21b1) at least partially covers the back surface (20b). The electrical connection electrode (21b2) is arranged on the metal film (21b1).


9. 20160240722 SYSTEM FOR IMPROVING SOLAR CELL MANUFACTURING YIELDUS18.08.2016
H01L 31/18
14830589Silevo, Inc.Jiunn Benjamin Heng

A system is described for fabricating photovoltaic structures. The system can include a photovoltaic cell enclosure that communicatively couples a first processing station and a second processing station while providing a microenvironment for a plurality of photovoltaic cells. The microenvironment can be separated from a surrounding environment. Furthermore, a microenvironment controller can control density of at least one chemical that could contaminate or react with an oxide layer on a respective photovoltaic cell, thereby protecting the photovoltaic cell between processes.


10. 20160240705 SOLAR CELL, SOLAR CELL MODULE, AND MANUFACTURING METHOD FOR SOLAR CELLUS18.08.2016
H01L 31/0224
15064172Panasonic Intellectual Property Management Co., Ltd.Tsuyoshi TAKAHAMA

A solar cell includes a photoelectric converter having n-type regions and p-type regions alternately arranged in a first direction on a back surface and an electrode layer provided on the back surface. The photoelectric converter includes a plurality of sub-cells arranged in a second direction intersecting with the first direction and an isolation region provided on a boundary between adjacent sub-cells. The electrode layer includes an n-side electrode provided on the n-type region in the sub-cell at the end of the sub-cells, a p-side electrode provided on the p-type region in the sub-cell at the other end, and a sub-electrode provided over two adjacent sub-cells. The sub-electrode connects the n-type region provided in one sub-cell of the two adjacent sub-cells to the p-type region provided in the other sub-cell.



Results 1-10 of 79,954 for Criteria: Office(s):all Language:EN Stemming: true
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