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1. 发明授权

US07157038B2 Ultraviolet laser ablative patterning of microstructures in semiconductors 有权
标题翻译：半导体微结构的紫外激光烧蚀图案化
公开(公告)号：US07157038B2
公开(公告)日：2007-01-02
申请号：US10017497
申请日：2001-12-14
申请人： Brian W. Baird , Michael J. Wolfe , Richard S. Harris , Kevin P. Fahey , Lian-Cheng Zou , Thomas R. McNeil
发明人： Brian W. Baird , Michael J. Wolfe , Richard S. Harris , Kevin P. Fahey , Lian-Cheng Zou , Thomas R. McNeil
IPC分类号： B23K26/38
CPC分类号： B23K26/0622 , B23K26/066 , B23K26/083 , B23K26/0869 , B23K26/364 , B23K26/40 , B23K2101/40 , B23K2103/50
摘要： Patterns with feature sizes of less than 50 microns are rapidly formed directly in semiconductors, particularly silicon, GaAs, indium phosphide, or single crystalline sapphire, using ultraviolet laser ablation. These patterns include very high aspect ratio cylindrical through-hole openings for integrated circuit connections; singulation of processed die contained on semiconductor wafers; and microtab cutting to separate microcircuit workpieces from a parent semiconductor wafer. Laser output pulses (32) from a diode-pumped, Q-switched frequency-tripled Nd:YAG, Nd:YVO4, or Nd:YLF is directed to the workpiece (12) with high speed precision using a compound beam positioner. The optical system produces a Gaussian spot size, or top hat beam profile, of about 10 microns. The pulse energy used for high-speed ablative processing of semiconductors using this focused spot size is greater than 200 μJ per pulse at pulse repetition frequencies greater than 5 kHz and preferably above 15 kHz. The laser pulsewidth measured at the full width half-maximum points is preferably less than 80 ns.
摘要翻译：特征尺寸小于50微米的图案使用紫外激光烧蚀直接在半导体，特别是硅，GaAs，磷化铟或单晶蓝宝石中形成。这些图案包括用于集成电路连接的非常高的纵横比圆柱形通孔开口; 包含在半导体晶片上的加工芯片的分割; 和微型切割以从母半导体晶片分离微电路工件。来自二极管泵浦Q开关频率三倍的Nd：YAG，Nd：YVO 4或Nd：YLF的激光输出脉冲（32）以高速精度被引导到工件（12）使用复合光束定位器。光学系统产生约10微米的高斯光点尺寸或顶帽光束轮廓。用于使用这种聚焦光点尺寸的半导体高速烧蚀处理的脉冲能量大于5kHz，优选高于15kHz的脉冲重复频率时，每脉冲大于200μJ。在全宽度半最大点处测量的激光脉冲宽度优选小于80ns。

2. 再颁专利

USRE43487E1 Laser segmented cutting 有权
标题翻译：激光分段切割
公开(公告)号：USRE43487E1
公开(公告)日：2012-06-26
申请号：US12350767
申请日：2009-01-08
申请人： James N. O'Brien , Lian-Cheng Zou , Yunlong Sun , Kevin P. Fahey , Michael J. Wolfe , Brian W. Baird , Richard S. Harris
发明人： James N. O'Brien , Lian-Cheng Zou , Yunlong Sun , Kevin P. Fahey , Michael J. Wolfe , Brian W. Baird , Richard S. Harris
IPC分类号： B23K26/04 , C04B41/91
CPC分类号： B23K26/0622 , B23K26/032 , B23K26/066 , B23K26/073 , B23K26/083 , B23K26/0869 , B23K26/364 , B23K26/38 , B23K26/40 , B23K2101/40 , B23K2103/50
摘要： UV laser cutting throughput through silicon and like materials is improved by dividing a long cut path (112) into short segments (122), from about 10 μm to 1 mm. The laser output (32) is scanned within a first short segment (122) for a predetermined number of passes before being moved to and scanned within a second short segment (122) for a predetermined number of passes. The bite size, segment size (126), and segment overlap (136) can be manipulated to minimize the amount and type of trench backfill. Real-time monitoring is employed to reduce rescanning portions of the cut path 112 (112) where the cut is already completed. Polarization direction of the laser output (32) is also correlated with the cutting direction to further enhance throughput. This technique can be employed to cut a variety of materials with a variety of different lasers and wavelengths. A multi-step process can optimize the laser processes for each individual layer.
摘要翻译：通过将长切割路径（112）分割成约10微米至1mm的短段（122）来提高通过硅等材料的UV激光切割吞吐量。激光输出（32）在第一短段（122）内扫描预定数量的通过，然后移动到第二短段（122）内并在第二短段（122）内扫描预定次数的通过次数。可以操纵咬合尺寸，段尺寸（126）和段重叠（136）以最小化沟槽回填的数量和类型。采用实时监测来减少已经完成切割的切割路径112（112）的重新扫描部分。激光输出（32）的极化方向也与切割方向相关，以进一步提高吞吐量。该技术可用于切割具有各种不同激光和波长的各种材料。多步骤过程可以优化每个单独层的激光工艺。

3. 再颁专利

USRE43605E1 Laser segmented cutting, multi-step cutting, or both 有权
标题翻译：激光分段切割，多步切割或两者兼容
公开(公告)号：USRE43605E1
公开(公告)日：2012-08-28
申请号：US12351562
申请日：2009-01-09
申请人： James N. O'Brien , Lian-Cheng Zou , Yunlong Sun , Kevin P. Fahey , Michael J. Wolfe , Brian W. Baird , Richard S. Harris
发明人： James N. O'Brien , Lian-Cheng Zou , Yunlong Sun , Kevin P. Fahey , Michael J. Wolfe , Brian W. Baird , Richard S. Harris
IPC分类号： B23K26/04 , C04B41/91
CPC分类号： B23K26/0622 , B23K26/032 , B23K26/066 , B23K26/073 , B23K26/083 , B23K26/0869 , B23K26/364 , B23K26/38 , B23K26/40 , B23K2101/40 , B23K2103/50
摘要： UV laser cutting throughput through silicon and like materials is improved by dividing a long cut path (112) into short segments (122), from about 10 μm to 1 mm. The laser output (32) is scanned within a first short segment (122) for a predetermined number of passes before being moved to and scanned within a second short segment (122) for a predetermined number of passes. The bite size, segment size (126), and segment overlap (136) can be manipulated to minimize the amount and type of trench backfill. Real-time monitoring is employed to reduce rescanning portions of the cut path 112 (112) where the cut is already completed. Polarization direction of the laser output (32) is also correlated with the cutting direction to further enhance throughput. This technique can be employed to cut a variety of materials with a variety of different lasers and wavelengths. A multi-step process can optimize the laser processes for each individual layer.
摘要翻译：通过将长切割路径（112）分割成约10微米至1mm的短段（122）来提高通过硅等材料的UV激光切割吞吐量。激光输出（32）在第一短段（122）内扫描预定数量的通过，然后移动到第二短段（122）内并在第二短段（122）内扫描预定次数的通过次数。可以操纵咬合尺寸，段尺寸（126）和段重叠（136）以最小化沟槽回填的数量和类型。采用实时监测来减少已经完成切割的切割路径112（112）的重新扫描部分。激光输出（32）的极化方向也与切割方向相关，以进一步提高吞吐量。该技术可用于切割具有各种不同激光和波长的各种材料。多步骤过程可以优化每个单独层的激光工艺。

4. 再颁专利

USRE43400E1 Laser segmented cutting, multi-step cutting, or both 有权
公开(公告)号：USRE43400E1
公开(公告)日：2012-05-22
申请号：US11332815
申请日：2006-01-13
申请人： James N. O'Brien , Lian-Cheng Zou , Yunlong Sun , Kevin P. Fahey , Michael J. Wolfe , Brian W. Baird , Richard S. Harris
发明人： James N. O'Brien , Lian-Cheng Zou , Yunlong Sun , Kevin P. Fahey , Michael J. Wolfe , Brian W. Baird , Richard S. Harris
IPC分类号： B23K26/04 , C04B41/91
CPC分类号： B23K26/0622 , B23K26/032 , B23K26/066 , B23K26/073 , B23K26/083 , B23K26/0869 , B23K26/364 , B23K26/38 , B23K26/40 , B23K2101/40 , B23K2103/50
摘要： UV laser cutting throughput through silicon and like materials is improved by dividing a long cut path (112) into short segments (122), from about 10 μm to 1 mm. The laser output (32) is scanned within a first short segment (122) for a predetermined number of passes before being moved to and scanned within a second short segment (122) for a predetermined number of passes. The bite size, segment size (126), and segment overlap (136) can be manipulated to minimize the amount and type of trench backfill. Real-time monitoring is employed to reduce rescanning portions of the cut path 112 (112) where the cut is already completed. Polarization direction of the laser output (32) is also correlated with the cutting direction to further enhance throughput. This technique can be employed to cut a variety of materials with a variety of different lasers and wavelengths. A multi-step process can optimize the laser processes for each individual layer.

5. 发明授权

US08727759B1 Fully integrated structural building system 有权
标题翻译：综合结构建筑系统
公开(公告)号：US08727759B1
公开(公告)日：2014-05-20
申请号：US12802171
申请日：2010-06-01
申请人： Michael J. Wolfe
发明人： Michael J. Wolfe
IPC分类号： E04B1/02
CPC分类号： E04B7/22 , E04B1/14 , E04B1/615 , E04B5/04 , E04B7/04 , E04C2003/0452 , E04D3/352 , E04D3/38 , E04D3/40
摘要： A Fully Integrated Structural Building System has a pair of pre-stressed multi-stemmed concrete floors. The pre-stressed multi-stemmed concrete floors are adapted to contact each other on one parallel side edge to form peripheral edges and a central joining edge. A part of a building is coupled to a pre-stressed multi-stemmed concrete floor. The building is constructed with a primary structural frame and a secondary structural frame separated by a rigid foam spacer. The spacer is a Class I non-combustible closed-cell foam. The building is strong, energy efficient, non-combustible and easily transported from the factory to the building site. The building is Green and constructed only with renewable and recyclable materials.
摘要翻译：一个完全一体化的结构建筑系统有一对预应力多主干混凝土地板。预应力多茎混凝土地板适于在一个平行的侧边缘上彼此接触以形成周边边缘和中心连接边缘。建筑物的一部分与预应力的多茎混凝土地板相连。该建筑物具有主要结构框架和由刚性泡沫间隔件隔开的二级结构框架。间隔物是I类不可燃闭孔泡沫。建筑坚固，节能，不易燃，易于从工厂运到建筑工地。该建筑是绿色建筑，只有可再生和可回收的材料。

6. 发明授权

US07774767B2 System and method for compiler interprocedural optimization having support for object files in libraries 有权
标题翻译：用于编译器过程间优化的系统和方法，支持库中的对象文件
公开(公告)号：US07774767B2
公开(公告)日：2010-08-10
申请号：US11347108
申请日：2006-02-03
申请人： Michael J. Wolfe
发明人： Michael J. Wolfe
IPC分类号： G06F9/45
CPC分类号： G06F8/71 , G06F8/443
摘要： A method includes extracting at least one object file from a library of object files. The method also includes identifying an interprocedural optimization associated with a plurality of object files. The plurality of object files includes the at least one extracted object file. The method further includes invoking recompilation of at least one of the plurality of object files to implement the identified interprocedural optimization. In addition, the method includes generating at least one executable file using the at least one recompiled object file. The plurality of object files could include interprocedural summary information generated by a compiler during a compilation of at least one source file and a compiler internal representation associated with the compiler during the compilation. The interprocedural optimization could be identified using the interprocedural summary information, and the at least one recompiled object file could be generated using the compiler internal representation.
摘要翻译：一种方法包括从目标文件库提取至少一个目标文件。该方法还包括识别与多个目标文件相关联的过程间优化。多个对象文件包括至少一个提取的目标文件。该方法还包括调用多个对象文件中的至少一个的重新编译以实现所识别的过程间优化。此外，该方法包括使用至少一个重新编译的目标文件生成至少一个可执行文件。多个对象文件可以包括在编译期间编译期间由编译器生成的过程内摘要信息，该编译器在汇编期间编译与编译器相关联的至少一个源文件和编译器内部表示。可以使用过程间摘要信息来识别过程间优化，并且可以使用编译器内部表示来生成至少一个重新编译的对象文件。

7. 发明授权

US6085469A Structural connector system for the assembly of structural panel buildings 失效
标题翻译：结构连接器系统用于组装结构面板建筑
公开(公告)号：US6085469A
公开(公告)日：2000-07-11
申请号：US908590
申请日：1997-08-08
申请人： Michael J. Wolfe
发明人： Michael J. Wolfe
IPC分类号： E04B1/14 , E04B7/02 , E04B7/04 , E04B7/24 , E04D3/08 , E06B1/02 , E04B1/344 , E04B1/38
CPC分类号： E04B7/02 , E04B1/14 , E04B7/04 , E04B7/24 , E06B1/02 , E04D2003/0875
摘要： A structural connector system for the assembly of structural panel buildings is provided. The system is adapted for use in association with structural panels including roof and wall panels. The system comprises a pair of adjustable roof ridge structural connectors each having a generally U-shaped side with flat faces receiving adjacent ends of roof panels and with arched adjustable components therebetween. An adjustable eave structural connector is positioned between the upper edges of wall panels and roof panels adjacent to the periphery. The eave structural connectors have generally U-shaped sides with flat faces receiving wall panels adjacent their upper edges and with regions coupled to a roof panel with adjustment components therebetween. The base structural connectors have generally U-shaped sides with flat faces receiving opposed exterior faces of wall panels adjacent to their lower ends. Remote components are fixably positionable with respect to the base. Opening structural connectors for windows and doors are also included. They are formed with a generally U-shaped side with flat faces receiving opposed exterior faces of wall panels at the receiving wall window and door apertures and have second ends for receiving doors and windows, respectively.
摘要翻译：提供了一种用于组装结构面板建筑物的结构连接器系统。该系统适用于与包括屋顶和墙板的结构面板相关联。该系统包括一对可调整的屋顶脊结构连接器，每个都具有大致U形的侧面，其平坦表面接收屋顶板的相邻端部并且在它们之间具有拱形的可调组件。可调节的屋檐结构连接器位于墙板的上边缘和邻近周边的屋顶板之间。屋檐结构连接器具有大致U形的侧面，平坦的面接收与其上边缘相邻的壁板，并且具有与屋顶面板连接的区域，其间具有调节部件。基部结构连接器具有大致U形的侧面，其平坦表面接收与其下端相邻的壁板的相对的外表面。远程组件相对于底座可定位。还包括打开门窗的结构连接器。它们形成为具有大致U形的侧面，其平面在接收壁窗和门孔处分别容纳壁板的相对的外表面，并且具有分别用于接收门和窗的第二端。

8. 外观设计

USD369743S Plastic pallet 失效
公开(公告)号：USD369743S
公开(公告)日：1996-05-14
申请号：US35465
申请日：1995-02-28
申请人： Thomas M. Pintar , Michael J. Wolfe , Dennis A. Giannini
设计人： Thomas M. Pintar , Michael J. Wolfe , Dennis A. Giannini

9. 发明授权

US5413052A Plastic pallet with two decks 失效
标题翻译：塑料托盘与两个甲板
公开(公告)号：US5413052A
公开(公告)日：1995-05-09
申请号：US39723
申请日：1993-03-29
申请人： Harlon W. Breezer , Kenneth C. Wilken , Michael J. Wolfe , William Price
发明人： Harlon W. Breezer , Kenneth C. Wilken , Michael J. Wolfe , William Price
IPC分类号： B65D19/00 , B65D19/12
CPC分类号： B65D19/0012 , B65D2519/00034 , B65D2519/00069 , B65D2519/00104 , B65D2519/00129 , B65D2519/00288 , B65D2519/00318 , B65D2519/00333 , B65D2519/00373 , B65D2519/00417 , B65D2519/00437 , B65D2519/00442 , B65D2519/00572
摘要： A plastic pallet has a twin sheet thermoformed upper deck reinforced with a tubular metal substrate. Injection molded plastic octagonal posts have support member walls which are positioned beneath reinforced portions of the top deck. The posts also have a sleeve with a central bolt hole which is parallel to the support member walls. A twin sheet thermoformed lower deck is spaced from the upper deck by the posts and receives the posts in recessed pockets. Plastic bolts are inserted through the top deck, each post, and the bottom deck and are held in place by plastic T-nuts. A sawtooth parting line in the twin-sheet thermoforming molds provide accurate alignment and molding of the pallet parts.
摘要翻译：塑料托盘具有用管状金属基底加强的双板热成型上板。注塑塑料八角柱具有支撑构件壁，其定位在顶层甲板的加强部分之下。该柱还具有一个具有平行于支撑件壁的中心螺栓孔的套筒。双层热成型的下甲板通过柱与上甲板间隔开，并且在凹口中接收柱。塑料螺栓穿过顶层甲板，每个柱子和底层甲板，并通过塑料T型螺母固定在适当位置。双板热成型模具中的锯齿分型线可提供托盘部件的精确对准和成型。

10. 发明授权

US5351628A Wood and plastic pallet 失效
标题翻译：木和塑料托盘
公开(公告)号：US5351628A
公开(公告)日：1994-10-04
申请号：US38711
申请日：1993-03-26
申请人： Harlon W. Breezer , Thomas M. Pintar , Michael J. Wolfe
发明人： Harlon W. Breezer , Thomas M. Pintar , Michael J. Wolfe
IPC分类号： B65D19/00 , B65D19/16
CPC分类号： B65D19/0022 , B65D19/0091 , B65D2519/00029 , B65D2519/00034 , B65D2519/00064 , B65D2519/00104 , B65D2519/00273 , B65D2519/00293 , B65D2519/00298 , B65D2519/00323 , B65D2519/00333 , B65D2519/00373 , B65D2519/00417 , B65D2519/00432 , B65D2519/00572
摘要： A wooden upper deck is connected by two types of plastic spacer blocks to a wooden lower deck. The upper deck may be a conventional deck composed of stringers and slats or it may be a twin sheet thermoformed plastic deck. The lower deck is composed of stringers which underlie the plastic spacers and tie boards which abut the ends of the stringers. Connector spacer blocks serve both to join the upper deck to the lower deck and to connect the stringer boards to the tie boards. The stringers and tie boards are held in fixed relation by bolts which join the upper and lower decks passing through sockets in the spacer blocks. The stringers and the tie boards are bolted to the spacer blocks and are thus joined. The joint between the stringers and the tie boards may be strengthened by means of a metal link overlying the stringers and tie boards and linking the bolts together.
摘要翻译：木制上甲板通过两种类型的塑料间隔块连接到木制下甲板上。上甲板可以是由桁条和板条组成的常规甲板，或者它可以是双板热成型塑料甲板。下甲板由桁条组成，该桁条位于邻接桁条端部的塑料垫片和连接板的下面。连接器间隔块用于将上甲板连接到下甲板，并将纵梁连接到连接板。桁条和连接板通过螺栓固定，该螺栓连接通过间隔块中的插座的上下甲板。桁条和连接板螺栓连接到间隔块上，并因此连接。桁条和连接板之间的接头可以通过覆盖桁条和连接板并将螺栓连接在一起的金属连接件来加强。

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