WIPO logo
Mobile | Deutsch | Español | Français | 日本語 | 한국어 | Português | Русский | 中文 |
PATENTSCOPE

Search International and National Patent Collections
World Intellectual Property Organization
Search
 
Browse
 
Translate
 
Options
 
News
 
Login
 
Help
 
Results 1-10 of 57,138 for Criteria: Office(s):all Language:EN Stemming: true maximize
prev 1 2 3 4 5 6 7 8 9 10 next
Page: / 5714  Go >
RSS iconmap icon 

Analysis
Analysis

List Length
Machine translation
TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. WO/2015/096112 SOLAR CELLWO02.07.2015
H01L 31/0224
PCT/CN2013/090612AU OPTRONICS CORPORATIONCHIEN, Yijiunn
A solar cell comprise: a photoelectric conversion structure (100), a first conductive structure (200) and a second conductive structure (300). The photoelectric conversion structure comprises a light incidence surface (110) and a back surface (120) opposite to the light incidence surface. The first conductive structure is placed on the light incidence surface of the photoelectric conversion structure and electrically connected with the photoelectric conversion structure. The first conductive structure comprises a first transparent conductive layer (210), an electrode structure (220) and a second transparent conductive layer (230). The first transparent conductive layer is placed on the light incidence surface of the photoelectric conversion structure, and at least a part of the first transparent conductive layer is placed between the electrode structure and the light incidence surface of the photoelectric conversion structure. The second transparent conductive layer covers the electrode structure and the first transparent conductive layer. The second conductive structure is placed on the back surface of the photoelectric conversion structure. The conversion efficiency can be improved with the solar cell.

2. WO/2015/099567 PHOTOELECTRIC CONVERTERWO02.07.2015
H01L 31/04
PCT/RU2013/001173LIMITED LIABILITY COMPANY "SMS TENZOTHERM RUS"KAMINSKII, Vladimir Vasil'evich
The invention of the hybrid photoelectric converter relates to the field of conversion the light energy into the electrical energy. To increase the conversion efficiency by harvesting the heat, the photovoltaic converter based on the photovoltaic effect in semiconductors, is accomplished by the thermoelectric converter using the thermovoltaic effect, as the final stage.

3. WO/2015/096484 DOUBLE INITIATED FAST CROSSLINKING EVA ADHESIVE FILMWO02.07.2015
C09J 7/00
PCT/CN2014/083889HANGZHOU FIRST PV MATERIAL CO. LTD.JIN, Ping
The present invention provides a double initiated fast crosslinking ethylene-vinyl acetate copolymer (EVA) adhesive film, which is used for encapsulating a solar cell component, and can greatly improve a current encapsulation speed of the solar cell component. The EVA adhesive film is mainly prepared from raw materials in mass proportions as follows: 100 phr of EVA, 0.01-1.5 phr of a free radical photoinitiator, 0.01-1.5 phr of a free radical thermal initiator, 0.5-10 phr of a assistant crosslinker, 0.1-5 phr of an adhesion promotor, and 0.01-5 phr of a light stabilizer. The present invention adds photothermal double initiated free radical initiators and the assistant crosslinker of multi-functional acrylic acid ester or methyl acrylate to the EVA and use an ultraviolet and hot pressing double curing process to prepare the solar cell component. Curing time is reduced to 5-10min, a curing yield is high, curing is even, a crosslinking density is high, adhesive strength with glass is higher, and aging resistance performance is good.

4. WO/2015/096489 DUAL-GLASS PHOTOVOLTAIC MODULEWO02.07.2015
H01L 31/048
PCT/CN2014/084537SHENZHEN BYD AUTO R & D COMPANY LIMITEDWANG, Shencun
A dual-glass photovoltaic module, comprising a body (1), said body (1) comprising a first glass layer (11), a first encapsulation layer (12), a cell group layer (13), a second encapsulation layer (14), and a second glass layer (15) arranged in a sequential stack, said cell group layer (13) drawing a current by means of a busbar (131), said busbar (131) being between the first glass layer (11) and the second glass layer (15) and drawing from the sides of the body (1); a rim (6), said rim (6) encapsulating the outer perimeter of the body (1) by means of a sealant, the rim (6) having a notch (60); and a junction box (4), said junction box (4) being disposed at the notch (60), the junction box (4) being in sealed communication with the body (1) and the rim (6), the busbar (131) being in electrical communication with the junction box (4).

5. WO/2015/096488 DUAL-GLASS PHOTOVOLTAIC CELL MODULE AND RIM FOR SAMEWO02.07.2015
H01L 31/048
PCT/CN2014/084531SHENZHEN BYD AUTO R & D COMPANY LIMITEDWANG, Shencun
A dual-glass photovoltaic cell module and rim (6) for same. The rim (6) is a sealing strip bent to form an integral rim, said rim (6) forming a frame structure, the cross-section of the rim (6) having a U-shaped groove (61).

6. WO/2015/096493 PHOTOVOLTAIC CELL MODULEWO02.07.2015
H01L 31/048
PCT/CN2014/084564SHENZHEN BYD AUTO R & D COMPANY LIMITEDWANG, Shencun
A photovoltaic cell module, comprising: a transparent upper cover plate (11), a first liquid silica gel encapsulation layer (12), a cell group layer (13), a second liquid silica gel encapsulation layer (14), and a back plate (15) arranged in a sequential stack, the outer edges of the transparent upper cover plate (11) and the back plate (15) extending past the outer edges of the first liquid silica gel encapsulation layer (12), the cell group layer (13), and the second liquid silica gel encapsulation layer (14), and an end sealing block being (3) arranged between the transparent upper cover plate (11) and the back plate, the end sealing block (3) being positioned at the outer periphery of the first liquid silica gel encapsulation layer (12), the cell group layer (13), and the second liquid silica gel encapsulation layer (14).

7. WO/2015/098203 SOLAR CELL MODULEWO02.07.2015
H02S 40/34
PCT/JP2014/074396PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.ISHII, Yousuke
Provided is a solar cell module wherein the number of solar cell sub-groups can be increased, while suppressing increase of the area of the solar cell module. This solar cell module is provided with: a first solar cell group (101) wherein a plurality of solar cells (1) are connected by wiring materials (4, 31-36); a second solar cell group (102) wherein a plurality of solar cells (1) are connected by wiring materials (4, 37-41); a front surface member that is arranged on the front surface side of the first solar cell group (101) and the second solar cell group (102); a back surface member that is arranged on the back surface side of the first solar cell group (101) and the second solar cell group (102); one or more first terminal boxes (21) that are provided on the back surface side of the back surface member; one or more second terminal boxes (22) that are provided on the back surface side of the back surface member; and an external wiring line (20) that is provided on the back surface side of the back surface member and electrically connects at least one of the first terminal boxes (21) and at least one of the second terminal boxes (22) with each other.

8. WO/2015/096492 PHOTOVOLTAIC CELL MODULEWO02.07.2015
H01L 31/048
PCT/CN2014/084561SHENZHEN BYD AUTO R & D COMPANY LIMITEDWANG, Shencun
A photovoltaic cell module, comprising: a transparent upper cover plate (11), a first polyolefin encapsulation layer (12), a cell group layer (13), a second polyolefin encapsulation layer (14), and a back plate (15) arranged in a sequential stack, the outer edges of the transparent upper cover plate (11) and the back plate extending past the outer edges of the first polyolefin encapsulation layer (12), the cell group layer (13), and the second polyolefin encapsulation layer (14), and an end sealing block being arranged between the transparent upper cover plate (11) and the back plate, the end sealing block being positioned at the outer periphery of the first polyolefin encapsulation layer (12), the cell group layer (13), and the second polyolefin encapsulation layer (14).

9. WO/2015/098426 SOLAR CELL AND METHOD FOR MANUFACTURING SAMEWO02.07.2015
H01L 31/068
PCT/JP2014/081450KUBO, MasaharuKUBO, Masaharu
[Problem] To provide a solar cell in which conditions that inhibit improvements in photoelectric conversion efficiency are reduced. [Solution] This solar cell is provided with: a first conductivity type semiconductor substrate (101); a second conductivity type first semiconductor layer (102A) that is formed on the light transmissive surface of the semiconductor substrate (101) and gathers photogenerated carriers based on medium wavelength sunlight; and a second conductivity type second semiconductor layer (102B) that is formed on the light incident surface of the semiconductor substrate (101), gathers photogenerated carriers based on short wavelength sunlight, and also gathers those photogenerated carriers that do not reach the first semiconductor layer (102A) among the photogenerated carriers based on the medium wavelength sunlight.

10. WO/2015/097518 ASSEMBLY METHOD OF A PHOTOVOLTAIC PANEL OF THE BACK-CONTACT TYPE WITH PRE-FIXING OF THE CELLS, AND COMBINED LOADING AND PRE-FIXING STATIONWO02.07.2015
H01L 31/18
PCT/IB2014/002802VISMUNDA SRLDAVIDE, Spotti
Automatic assembly method (10, 11 ) of a photovoltaic panel with cells of the back-contact type provided with a conductive backsheet (300) with a thermoplastic encapsulating layer; the loading of the cells (306) occurs in combination with their pre-fixing (11 ) in a combined station (20) sequentially placed before the superimposition of the upper encapsulating layer and after the laying of the conductive adhesive (310). Said loading is carried out with a first device (210) of the automatic mechanical hand type which takes a group of cells (306), aligns them with the back contacts (307) in correspondence of the holes (305) and lays them vertically from above; furthermore, a second device (220) of the presser-heater type carries out the pre-fixing of said cells holding them in the final position also with localised heating on at least one portion of each cell in such a way as to activate the adhesive function of the underlying thermoplastic encapsulating layer (304). The present invention also describes the combined loading and pre-fixing station (20).


Results 1-10 of 57,138 for Criteria: Office(s):all Language:EN Stemming: true
prev 1 2 3 4 5 6 7 8 9 10 next