The Experts below are selected from a list of 324 Experts worldwide ranked by ideXlab platform
B. Rech - One of the best experts on this subject based on the ideXlab platform.
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/muc-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/muc-Si:H modules on 30times30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/muc-Si:H modules. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/?c-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/?c-Si:H modules on 30×30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/?c-Si:H modules [1],[2]. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells.
Long Ma - One of the best experts on this subject based on the ideXlab platform.
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ICFCE - Study of the Oil Production Equipment Maintenance Information System Architecture
Frontiers in Computer Education, 2020Co-Authors: Ming Fang, Long MaAbstract:The traditional oil enterprise Production Equipment management information systems do not analysis and design from the enterprise information architecture. They are difficult to realize information sharing and system integration. In this paper, we combined the concept of the enterprise information system architecture and proposed a model of oil Production Equipment maintenance management information system architecture. By using of the SOA technology, we constructed the model of oil Production Equipment maintenance software architecture based on the SOA and the data information architecture. The system architecture can effectively enhance integration, maintainability, adaptability and data information sharing of the system from the whole consideration of enterprise information system architecture.
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Study of the oil Production Equipment maintenance information system architecture
Advances in Intelligent and Soft Computing, 2012Co-Authors: Long MaAbstract:The traditional oil enterprise Production Equipment management information systems do not analysis and design from the enterprise information architecture. They are difficult to realize information sharing and system integration. In this paper, we combined the concept of the enterprise information system architecture and proposed a model of oil Production Equipment maintenance management information system architecture. By using of the SOA technology, we constructed the model of oil Production Equipment maintenance software architecture based on the SOA and the data information architecture. The system architecture can effectively enhance integration, maintainability, adaptability and data information sharing of the system from the whole consideration of enterprise information system architecture. © 2012 Springer-Verlag GmbH Berlin Heidelberg.
T. Repmann - One of the best experts on this subject based on the ideXlab platform.
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/muc-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/muc-Si:H modules on 30times30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/muc-Si:H modules. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/?c-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/?c-Si:H modules on 30×30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/?c-Si:H modules [1],[2]. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells.
H. Stiebig - One of the best experts on this subject based on the ideXlab platform.
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/muc-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/muc-Si:H modules on 30times30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/muc-Si:H modules. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/?c-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/?c-Si:H modules on 30×30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/?c-Si:H modules [1],[2]. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells.
S. Klein - One of the best experts on this subject based on the ideXlab platform.
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/muc-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/muc-Si:H modules on 30times30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/muc-Si:H modules. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells
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Production Equipment for Large Area Deposition of Amorphous and Microcrystalline Silicon Thin-Film Solar Cells
2006 IEEE 4th World Conference on Photovoltaic Energy Conference, 2006Co-Authors: T. Repmann, S. Wieder, S. Klein, H. Stiebig, B. RechAbstract:This work addresses Applied Films (AF) work on the development of Production Equipment for silicon thin-film solar cells based on a tandem structure of amorphous silicon top and microcrystalline silicon bottom cells (a-Si:H/?c-Si:H) on glass substrates. Preceding work at the Institute of Photovoltaics (IPV) has demonstrated efficiencies >10% for a-Si:H/?c-Si:H modules on 30×30 cm2 substrate size. Recently, AF in close cooperation with the IPV succeeded to transfer the PECVD processes to a large area lab coater at AF and yielded initial efficiencies >10% for a-Si:H/?c-Si:H modules [1],[2]. Based on these results AF worked out a concept for mass Production Equipment for amorphous and microcrystalline silicon solar cells.
