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公开(公告)号:US5964156A
公开(公告)日:1999-10-12
申请号:US90070
申请日:1998-06-03
Applicant: David D. Smith , Jeremy C. Catt
Inventor: David D. Smith , Jeremy C. Catt
CPC classification number: G06K15/00 , B41B21/32 , G03F7/2053 , G06K15/02 , H04N1/3872 , G06K2215/0065 , G06K2215/0071
Abstract: A method for automatically processing a job in a prepress printing environment includes the steps of: moving an image receiving substrate from a storage bin to a staging area; moving the image receiving substrate from the staging area into a drum; imaging a predefined area of the image receiving substrate in the drum with a laser while simultaneously moving a next image receiving substrate from the storage bin to the staging area; upon completion of the imaging of the image receiving substrate in the drum, simultaneously (a) moving the image receiving substrate from the drum into a processing area for developing an image on the image receiving substrate, and (b) moving the next image receiving substrate from the staging area into the drum; and finally repeating the above steps until the job is completed. The method optionally includes: offsetting the position of the image receiving substrate to alter the location upon the image receiving substrate where the image will be burned; or offsetting the laser position to alter the location upon the image receiving substrate where the image will be burned. A slug line can also be printed at print time outside of the predefined area, and can include identifying information such as a job name, a print drive job identification, a time stamp, a plane name, a page number and user-defined graphics.
Abstract translation: 一种用于在印前打印环境中自动处理作业的方法包括以下步骤:将图像接收基板从存储箱移动到分段区; 将图像接收基板从分段区域移动到滚筒中; 用激光成像鼓中的图像接收基板的预定区域,同时将下一图像接收基板从存储箱移动到分段区域; 同时(a)将图像接收基板从滚筒移动到用于在图像接收基板上显影图像的处理区域中,以及(b)移动下一个图像接收基板 从舞台进入鼓; 最后重复上述步骤直到作业完成。 该方法可选地包括:抵消图像接收基板的位置以改变图像接收基板上将被烧毁的位置; 或抵消激光位置以改变图像被烧录的图像接收基板上的位置。 也可以在预定义区域之外的打印时间打印细线,并且可以包括识别信息,例如作业名称,打印驱动器作业标识,时间戳,平面名称,页码和用户定义的图形。
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42.发明申请公开(公告)号:US20170222072A1
公开(公告)日:2017-08-03
申请号:US15493021
申请日:2017-04-20
Applicant: Seung Bum Rim , David D. Smith , Taiqing Qiu , Staffan Westerberg , Kieran Mark Tracy , Venkatasubramani Balu
Inventor: Seung Bum Rim , David D. Smith , Taiqing Qiu , Staffan Westerberg , Kieran Mark Tracy , Venkatasubramani Balu
IPC: H01L31/0224 , H01L31/0216 , H01L31/0236 , H01L31/18 , H01L31/0368
CPC classification number: H01L31/022441 , H01L31/02167 , H01L31/02168 , H01L31/02363 , H01L31/03682 , H01L31/068 , H01L31/0682 , H01L31/0745 , H01L31/0747 , H01L31/1804 , H01L31/182 , H01L31/202 , H01L31/208 , Y02E10/547 , Y02P70/521
Abstract: Methods of fabricating solar cell emitter regions with differentiated P-type and N-type regions architectures, and resulting solar cells, are described. In an example, a back contact solar cell includes a substrate having a light-receiving surface and a back surface. A first polycrystalline silicon emitter region of a first conductivity type is disposed on a first thin dielectric layer disposed on the back surface of the substrate. A second polycrystalline silicon emitter region of a second, different, conductivity type is disposed on a second thin dielectric layer disposed on the back surface of the substrate. A third thin dielectric layer is disposed laterally directly between the first and second polycrystalline silicon emitter regions. A first conductive contact structure is disposed on the first polycrystalline silicon emitter region. A second conductive contact structure is disposed on the second polycrystalline silicon emitter region.
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公开(公告)号:US20170077336A1
公开(公告)日:2017-03-16
申请号:US14852315
申请日:2015-09-11
Applicant: David D. Smith , Sung Dug Kim , Joseph Behnke , Hung-Ming Wang
Inventor: David D. Smith , Sung Dug Kim , Joseph Behnke , Hung-Ming Wang
IPC: H01L31/054 , H01L31/068 , H01L31/0224 , H01L31/18 , H01L31/048 , H01L31/0236
CPC classification number: H01L31/0547 , H01L31/022441 , H01L31/02366 , H01L31/048 , H01L31/0684 , H01L31/18 , Y02E10/52 , Y02E10/547
Abstract: A solar cell and a solar laminate are described. The solar cell can have a front side which faces the sun during normal operation and a back side opposite front side. The solar cell can include conductive contacts having substantially reflective outer regions disposed on the back side of the solar cell. The solar laminate can include a first encapsulant, the first encapsulant disposed on the back side of the solar cell and a second encapsulant. The solar laminate can include the solar cell laminated between the first and second encapsulant. The substantially reflective outer regions of the conductive contacts and the first encapsulant can be configured to scatter and/or diffuse light at the back side of the solar laminate for substantial light collection at the back side of the solar cell. Methods of fabricating the solar cell are also described herein.
Abstract translation: 描述了太阳能电池和太阳能层压板。 太阳能电池可以在正常操作期间具有面向太阳的前侧和与前侧相反的背面。 太阳能电池可以包括具有设置在太阳能电池的背面上的基本上反射的外部区域的导电触点。 太阳能层压板可以包括第一密封剂,设置在太阳能电池的背面上的第一密封剂和第二密封剂。 太阳能层压板可以包括层压在第一和第二密封剂之间的太阳能电池。 导电触点和第一密封剂的基本上反射的外部区域可以被配置为在太阳能电池层的背面散射和/或漫射光,以在太阳能电池的背面进行实质的光收集。 本文还描述了制造太阳能电池的方法。
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公开(公告)号:US09577126B2
公开(公告)日:2017-02-21
申请号:US15000492
申请日:2016-01-19
Applicant: David D. Smith , Timothy Weidman , Staffan Westerberg
Inventor: David D. Smith , Timothy Weidman , Staffan Westerberg
IPC: H01L31/0368 , H01L31/18 , H01L31/0224 , H01L31/0236 , H01L31/0288 , H01L31/0745 , H01L31/0747
CPC classification number: H01L31/03685 , H01L31/022441 , H01L31/022458 , H01L31/02363 , H01L31/02366 , H01L31/0288 , H01L31/0745 , H01L31/0747 , H01L31/1804 , H01L31/1824 , H01L31/1864 , H01L31/1872 , Y02E10/50 , Y02E10/547 , Y02P70/521
Abstract: Methods of fabricating solar cell emitter regions using ion implantation, and resulting solar cells, are described. In an example, a back contact solar cell includes a crystalline silicon substrate having a light-receiving surface and a back surface. A first polycrystalline silicon emitter region is disposed above the crystalline silicon substrate. The first polycrystalline silicon emitter region is doped with dopant impurity species of a first conductivity type and further includes ancillary impurity species different from the dopant impurity species of the first conductivity type. A second polycrystalline silicon emitter region is disposed above the crystalline silicon substrate and is adjacent to but separated from the first polycrystalline silicon emitter region. The second polycrystalline silicon emitter region is doped with dopant impurity species of a second, opposite, conductivity type. First and second conductive contact structures are electrically connected to the first and second polycrystalline silicon emitter regions, respectively.
Abstract translation: 描述了使用离子注入制造太阳能电池发射极区域的方法,以及所得到的太阳能电池。 在一个示例中,背接触太阳能电池包括具有光接收表面和背表面的晶体硅衬底。 第一多晶硅发射极区域设置在晶体硅衬底之上。 第一多晶硅发射极区掺杂有第一导电类型的掺杂剂杂质种类,并且还包括与第一导电类型的掺杂杂质种类不同的辅助杂质种类。 第二多晶硅发射极区域设置在晶体硅衬底之上并且与第一多晶硅发射极区域相邻但分离。 第二多晶硅发射极区掺杂有第二相反导电类型的掺杂杂质物质。 第一和第二导电接触结构分别电连接到第一和第二多晶硅发射极区域。
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公开(公告)号:US20160315214A1
公开(公告)日:2016-10-27
申请号:US15197616
申请日:2016-06-29
Applicant: Timothy Weidman , David D. Smith
Inventor: Timothy Weidman , David D. Smith
IPC: H01L31/18 , H01L31/068
CPC classification number: H01L31/182 , H01L31/022441 , H01L31/035272 , H01L31/0682 , H01L31/1864 , H01L31/1872 , H01L31/1876 , Y02E10/546 , Y02E10/547 , Y02P70/521
Abstract: Methods of fabricating solar cell emitter regions using ion implantation, and resulting solar cells, are described. In an example, a method of fabricating alternating N-type and P-type emitter regions of a solar cell involves forming a silicon layer above a substrate. Dopant impurity atoms of a first conductivity type are implanted, through a first shadow mask, in the silicon layer to form first implanted regions and resulting in non-implanted regions of the silicon layer. Dopant impurity atoms of a second, opposite, conductivity type are implanted, through a second shadow mask, in portions of the non-implanted regions of the silicon layer to form second implanted regions and resulting in remaining non-implanted regions of the silicon layer. The remaining non-implanted regions of the silicon layer are removed with a selective etch process, while the first and second implanted regions of the silicon layer are annealed to form doped polycrystalline silicon emitter regions.
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Patent Agency Ranking
公开(公告)号:US09466750B2
公开(公告)日:2016-10-11
申请号:US14614355
申请日:2015-02-04
Applicant: Peter J. Cousins , David D. Smith , Seung Bum Rim
Inventor: Peter J. Cousins , David D. Smith , Seung Bum Rim
IPC: H01L21/00 , H01L31/0747 , H01L31/0236 , H01L31/0368 , H01L31/0216 , H01L31/068 , H01L31/18 , H01L31/0224 , H01L31/20
CPC classification number: H01L31/0747 , H01L31/02167 , H01L31/02168 , H01L31/022425 , H01L31/022433 , H01L31/02363 , H01L31/03682 , H01L31/0682 , H01L31/1804 , H01L31/182 , H01L31/202 , Y02E10/52 , Y02E10/546 , Y02E10/547 , Y02P70/521
Abstract: A method for manufacturing high efficiency solar cells is disclosed. The method comprises providing a thin dielectric layer and a doped polysilicon layer on the back side of a silicon substrate. Subsequently, a high quality oxide layer and a wide band gap doped semiconductor layer can both be formed on the back and front sides of the silicon substrate. A metallization process to plate metal fingers onto the doped polysilicon layer through contact openings can then be performed. The plated metal fingers can form a first metal gridline. A second metal gridline can be formed by directly plating metal to an emitter region on the back side of the silicon substrate, eliminating the need for contact openings for the second metal gridline. Among the advantages, the method for manufacture provides decreased thermal processes, decreased etching steps, increased efficiency and a simplified procedure for the manufacture of high efficiency solar cells.
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公开(公告)号:US20160181444A1
公开(公告)日:2016-06-23
申请号:US14579935
申请日:2014-12-22
Applicant: David D. Smith , Tim Dennis , Russelle De Jesus Tabajonda
Inventor: David D. Smith , Tim Dennis , Russelle De Jesus Tabajonda
IPC: H01L31/02 , H01L31/0368 , H01L31/0224 , H01L31/18
CPC classification number: H01L31/02008 , H01L21/3221 , H01L31/02167 , H01L31/022441 , H01L31/0368 , H01L31/03682 , H01L31/068 , H01L31/0745 , H01L31/0747 , H01L31/1804 , H01L31/186 , H01L31/1864 , H01L31/1872 , Y02E10/547 , Y02P70/521
Abstract: A method of fabricating a solar cell can include forming a dielectric region on a silicon substrate. The method can also include forming an emitter region over the dielectric region and forming a dopant region on a surface of the silicon substrate. In an embodiment, the method can include heating the silicon substrate at a temperature above 900 degrees Celsius to getter impurities to the emitter region and drive dopants from the dopant region to a portion of the silicon substrate.
Abstract translation: 制造太阳能电池的方法可以包括在硅衬底上形成电介质区域。 该方法还可以包括在电介质区域上形成发射极区域,并在硅衬底的表面上形成掺杂区域。 在一个实施例中,该方法可以包括在高于900摄氏度的温度下加热硅衬底以将杂质吸收到发射极区域,并将掺杂剂从掺杂剂区域驱动到硅衬底的一部分。
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公开(公告)号:US09219173B2
公开(公告)日:2015-12-22
申请号:US14706773
申请日:2015-05-07
Applicant: Richard M. Swanson , Marius M. Bunea , Michael C. Johnson , David D. Smith , Yu-Chen Shen , Peter J. Cousins , Tim Dennis
Inventor: Richard M. Swanson , Marius M. Bunea , Michael C. Johnson , David D. Smith , Yu-Chen Shen , Peter J. Cousins , Tim Dennis
IPC: H01L21/00 , H01L31/0216 , H01L31/068 , H01L31/18
CPC classification number: H01L31/0747 , H01L31/02167 , H01L31/022441 , H01L31/02363 , H01L31/068 , H01L31/0682 , H01L31/072 , H01L31/0745 , H01L31/18 , H01L31/1804 , Y02E10/547 , Y02P70/521
Abstract: Solar cells having emitter regions composed of wide bandgap semiconductor material are described. In an example, a method includes forming, in a process tool having a controlled atmosphere, a thin dielectric layer on a surface of a semiconductor substrate of the solar cell. The semiconductor substrate has a bandgap. Without removing the semiconductor substrate from the controlled atmosphere of the process tool, a semiconductor layer is formed on the thin dielectric layer. The semiconductor layer has a bandgap at least approximately 0.2 electron Volts (eV) above the bandgap of the semiconductor substrate.
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公开(公告)号:US20150349180A1
公开(公告)日:2015-12-03
申请号:US14292454
申请日:2014-05-30
Applicant: David D. Smith , Staffan Westerberg
Inventor: David D. Smith , Staffan Westerberg
IPC: H01L31/065 , H01L31/0288 , H01L31/18 , H01L31/0368
CPC classification number: H01L31/065 , H01L31/0288 , H01L31/03682 , H01L31/1804 , H01L31/182 , H01L31/1868 , Y02E10/546 , Y02E10/547 , Y02P70/521
Abstract: A solar cell may include a substrate having a front side facing the sun to receive solar radiation during normal operation and a backside opposite the front side. The solar cell may further include a polysilicon layer formed over the backside of the substrate. A P-type diffusion region and an N-type diffusion region may be formed in the polysilicon layer to provide a butting PN junction. The P-type diffusion region may have a first dopant concentration level and the N-type diffusion region may have a second dopant concentration level such that the first dopant concentration level is less than the second dopant concentration level.
Abstract translation: 太阳能电池可以包括在正常操作期间具有面向太阳以接收太阳辐射的正面的基板和与正面相反的背面。 太阳能电池还可以包括形成在衬底背面上的多晶硅层。 可以在多晶硅层中形成P型扩散区和N型扩散区,以提供对接PN结。 P型扩散区可以具有第一掺杂剂浓度水平,并且N型扩散区可以具有第二掺杂剂浓度水平,使得第一掺杂剂浓度水平小于第二掺杂剂浓度水平。
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公开(公告)号:US20150318822A1
公开(公告)日:2015-11-05
申请号:US14320475
申请日:2014-06-30
Applicant: Xiuwen Tu , David D. Smith , David Aitan Soltz
Inventor: Xiuwen Tu , David D. Smith , David Aitan Soltz
Abstract: A solar cell testing apparatus can include a first electrical probe configured to receive a first voltage at a first location of a solar cell. The solar cell testing apparatus can also include a second electrical probe configured to receive a second voltage at a second location of the solar cell, where the second location is of the same polarity as the first location.
Abstract translation: 太阳能电池测试装置可以包括被配置为在太阳能电池的第一位置处接收第一电压的第一电探针。 太阳能电池测试装置还可以包括配置成在太阳能电池的第二位置处接收第二电压的第二电探针,其中第二位置与第一位置具有相同的极性。
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