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1. 发明申请

WO2009102772A3 APPARATUS AND METHOD OF MOUNTING AND SUPPORTING A SOLAR PANEL 审中-公开
标题翻译：装置和支撑太阳能电池板的装置和方法
公开(公告)号：WO2009102772A3
公开(公告)日：2009-11-19
申请号：PCT/US2009033771
申请日：2009-02-11
申请人： APPLIED MATERIALS INC , UMOTOY SALVADOR P , SULLIVAN JEFFREY S , BRENNAN MICHAEL , GAY CHARLES , COSTUROS THEODOSSIOS V , WILLIAMS GARY , GOMEZ OSCAR
发明人： UMOTOY SALVADOR P , SULLIVAN JEFFREY S , BRENNAN MICHAEL , GAY CHARLES , COSTUROS THEODOSSIOS V , WILLIAMS GARY , GOMEZ OSCAR
IPC分类号： H01L31/042
CPC分类号： F24J2/5254 , F24J2/5203 , F24J2/5228 , F24J2002/4676 , F24J2002/5222 , F24J2002/5284 , H02S20/23 , Y02B10/12 , Y02E10/47 , Y02P80/24 , Y10T29/49355
摘要： The present invention generally relates to a simple and cost effective device and method for mounting and supporting solar panels. A solar panel according to the present invention is supported from the backside via a plurality of elongated support members. The elongated support members may have open V-shaped or W-shaped arrangements and may be adhered to the solar panels through strong, flexible glue or double-sided tape that withstands significant environmental loads, such as wind uploading, yet remain flexible enough to minimize stress concentrations in the solar panels. The support members may be attached to a solar panel by a support member attachment module incorporated into an automated solar panel production line. A plurality of solar panels may be field mounted to a solar panel support structure having one or more piles or the like with at least a lower and upper transverse support rails spanning the plurality of solar panels.
摘要翻译：本发明总体上涉及用于安装和支撑太阳能电池板的简单且成本有效的装置和方法。根据本发明的太阳能电池板经由多个细长支撑构件从后侧支撑。细长的支撑构件可以具有开放的V形或W形布置，并且可以通过坚固的柔性胶或双面胶粘附到太阳能面板上，所述柔性胶或双面胶承受诸如风力上载的显着的环境负载，但仍然足够灵活以最小化应力集中在太阳能电池板中。支撑构件可以通过结合到自动化太阳能面板生产线中的支撑构件附接模块附接到太阳能面板。多个太阳能电池板可以现场安装到太阳能电池板支撑结构，该太阳能电池板支撑结构具有一个或多个桩或类似物，其中至少一个横跨多个太阳能电池板的下横向支撑导轨和上横向支撑导轨。

2. 发明申请

WO2007022471A2 SUBSTRATE SUPPORT HAVING BRAZED PLATES AND HEATER 审中-公开
标题翻译：具有钎焊板和加热器的基板支撑
公开(公告)号：WO2007022471A2
公开(公告)日：2007-02-22
申请号：PCT/US2006032501
申请日：2006-08-17
申请人： APPLIED MATERIALS INC , UMOTOY SALVADOR P , LEI LAWRENCE CHUNG-LAI , TZU GWO-CHUN , YUAN XIAGXIONG JOHN , JACKSON MICHAEL S , LAM HYMAN
发明人： UMOTOY SALVADOR P , LEI LAWRENCE CHUNG-LAI , TZU GWO-CHUN , YUAN XIAGXIONG JOHN , JACKSON MICHAEL S , LAM HYMAN
IPC分类号： H01L21/00 , H01L21/683
CPC分类号： H01L21/67103 , C23C16/45521 , C23C16/4586 , C23C16/466 , H01L21/6838 , H01L21/68735 , H01L21/6875 , H01L21/68785
摘要： A substrate support comprises top, middle and bottom plates which are brazed together. The top plate has a top surface with a plurality of outwardly projecting mesas dispersed across a recessed pocket, a network of recessed grooves, a vacuum port terminating in the recessed grooves, and plurality of gas ports. The middle plate has a plurality of middle feedthroughs aligned to corresponding top feedthroughs of the top plate, and the bottom plate has a plurality of bottom feedthroughs aligned to the middle feedthroughs of the middle plate. The top and middle plates are joined by a first brazed bond layer and the middle and bottom plates are joined by a second brazed bond layer.
摘要翻译：衬底支撑件包括钎焊在一起的顶部，中部和底部板。顶板具有顶表面，其具有分散在凹穴内的多个向外突出的台面，凹槽的网络，终止于凹槽中的真空端口以及多个气体端口。中间板具有与顶板的对应顶部馈通对齐的多个中间馈通，并且底板具有与中间板的中间馈通对齐的多个底部馈通。顶板和中板通过第一钎焊粘合层连接，中板和底板通过第二钎焊粘合层连接。

3. 发明申请

WO2010003093A3 APPARATUSES FOR ATOMIC LAYER DEPOSITION 审中-公开
标题翻译：用于原子层沉积的装置
公开(公告)号：WO2010003093A3
公开(公告)日：2010-04-08
申请号：PCT/US2009049578
申请日：2009-07-02
申请人： APPLIED MATERIALS INC , LAM HYMAN , ZHENG BO , HUA AI , JACKSON MICHAEL , YUAN XIAOXIONG , WANG HOU GONG , UMOTOY SALVADOR P , YU SAN HO
发明人： LAM HYMAN , ZHENG BO , HUA AI , JACKSON MICHAEL , YUAN XIAOXIONG , WANG HOU GONG , UMOTOY SALVADOR P , YU SAN HO
IPC分类号： H01L21/205
CPC分类号： C23C16/45565 , C23C16/4412 , C23C16/45536 , C23C16/45544 , C23C16/4558 , H01J37/32449 , Y10T137/87265
摘要： Embodiments of the invention provide apparatuses for atomic layer deposition (ALD), such as plasma-enhanced ALD (PE-ALD). In one embodiment, a showerhead assembly is provided which includes a showerhead plate having top and bottom surfaces, and a radius extending from the center to the outer edge of the showerhead plate, a first plurality of holes in fluid communication with the top and bottom surfaces, positioned within a first zone extending from the center of the showerhead plate to about 25% of the radius of the showerhead plate, and each hole has a diameter of less than 0.1 inches, and a second plurality of holes in fluid communication with the top and bottom surfaces, positioned within a second zone extending from about 25% of the radius of the showerhead plate to about the outer edge of the showerhead plate, and each hole has a diameter of greater than 0.1 inches.
摘要翻译：本发明的实施例提供了用于原子层沉积（ALD）的装置，例如等离子体增强ALD（PE-ALD）。在一个实施例中，提供了喷头组件，其包括具有顶表面和底表面以及从喷头板的中心延伸到外边缘的半径的喷头板，与顶表面和底表面流体连通的第一多个孔，其位于从喷头板的中心延伸至喷头板的半径的大约25％的第一区域内，并且每个孔的直径小于0.1英寸，并且第二多个孔与顶部流体连通以及位于第二区域内的底表面，该第二区域从喷头板的半径的大约25％延伸到喷头板的大约外缘，并且每个孔的直径大于0.1英寸。

4. 发明申请

WO2006069085A3 AN IN-SITU CHAMBER CLEAN PROCESS TO REMOVE BY-PRODUCT DEPOSITS FROM CHEMICAL VAPOR ETCH CHAMBER 审中-公开
标题翻译：从化学蒸气蚀刻室中移除副产物沉淀物的现场室清洁方法
公开(公告)号：WO2006069085A3
公开(公告)日：2009-06-11
申请号：PCT/US2005046226
申请日：2005-12-20
申请人： APPLIED MATERIALS INC , KAO CHIEN-TEH , CHOU JING-PEI CONNIE , UMOTOY SALVADOR P , CHANG MEI , YUAN XIAOXIONG JOHN , CHANG YU , LU XINLIANG , PHAN SEE-ENG , KUANG WILLIAM , TZU GWO-CHUAN , OR DAVID T
发明人： KAO CHIEN-TEH , CHOU JING-PEI CONNIE , UMOTOY SALVADOR P , CHANG MEI , YUAN XIAOXIONG JOHN , CHANG YU , LU XINLIANG , PHAN SEE-ENG , KUANG WILLIAM , TZU GWO-CHUAN , OR DAVID T
IPC分类号： H01L21/00 , C23C14/00 , C23C16/00
CPC分类号： H01J37/3244 , B08B7/00 , B08B7/0035 , H01J37/32009 , H01J37/32357 , H01J37/32522 , H01J37/32862 , H01L29/665 , H01L29/6656 , H01L29/6659 , H01L29/7833
摘要： A method and apparatus for cleaning a processing chamber comprising blocking a flow of cooling fluid to a channel within a support member within a processing chamber, elevating the support member to be within about 0.1 inches of a gas distribution plate, heating the gas distribution plate, and introducing a thermally conductive gas through the gas distribution plate into the processing chamber. In one aspect, the chamber comprises a chamber body and a support assembly at least partially disposed within the chamber body adapted to support a substrate thereon. The chamber further comprises a lid assembly disposed on an upper surface of the chamber body. The lid assembly includes a top plate and a gas delivery assembly which define a plasma cavity therebetween, wherein the gas delivery assembly is adapted to heat the substrate. A remote plasma source having a U-shaped plasma region is connected to the gas delivery assembly.
摘要翻译：一种用于清洁处理室的方法和装置，包括将冷却流体流阻塞到处理室内的支撑构件内的通道，将支撑构件升高到气体分配板的约0.1英寸以内，加热气体分配板，并且将导热气体通过所述气体分配板引入所述处理室。在一个方面，所述腔室包括室主体和至少部分地设置在所述室主体内的适于在其上支撑基板的支撑组件。所述室还包括设置在所述室主体的上表面上的盖组件。盖组件包括顶板和在其间限定等离子体腔的气体输送组件，其中气体输送组件适于加热衬底。具有U形等离子体区域的远程等离子体源连接到气体输送组件。

5. 发明专利

JP2002115069A SHOWERHEAD 审中-公开
公开(公告)号：JP2002115069A
公开(公告)日：2002-04-19
申请号：JP2001228708
申请日：2001-06-22
申请人： APPLIED MATERIALS INC
发明人： LITTAU KARL A , VO BEVAN , UMOTOY SALVADOR P , TRINH SON N , KAO CHIEN-TEH , LAI KEN KAUNG , ZHENG BO , JIAN PING , LU SIQING , CHANG ANZHONG
IPC分类号： B05B1/14 , C23C16/44 , C23C16/455 , H01J37/32 , H01L21/205
摘要： PROBLEM TO BE SOLVED: To provide a showerhead capable of distributing gas into a semiconductor processing chamber. SOLUTION: This showerhead 118 comprises a perforated center part, a fitting part surrounding the circumference of the perforated center part and a plurality of bosses extending from the fitting part. Each boss has a hole piercing it. Another showerhead 118 has a fitting part having a first side surrounding the circumference of the perforated part. A ring is extended from the first side of the fitting part. A plurality of fitting holes are made in the fitting part on either side of the ring. This showerhead performs the controlled heat transfer between the showerhead and a lid 110 of a chamber. Little unfavorable deposit is formed on the showerhead thereby.

6. 发明专利

AT101879T 未知
公开(公告)号：AT101879T
公开(公告)日：1994-03-15
申请号：AT87311193
申请日：1987-12-18
申请人： APPLIED MATERIALS INC
发明人： WANG DAVID NIN-KOU , WHITE JOHN M , LAW KAM S , LEUNG CISSY , UMOTOY SALVADOR P , COLLINS KENNETH S , ADAMIK JOHN A , PERLOV ILYA , MAYDAN DAN
IPC分类号： C23C16/48 , C23C16/04 , C23C16/40 , C23C16/42 , C23C16/44 , C23C16/455 , C23C16/46 , C23C16/50 , C23C16/509 , C23C16/54 , C23F4/00 , C30B25/14 , H01L21/205 , H01L21/302 , H01L21/3065 , H01L21/31 , H01L21/314 , H01L21/316 , H01L21/683
摘要： A high pressure, high throughput, single wafer, semiconductor processing reactor (10) is disclosed which is capable of thermal CVD, plasma-enhanced CVD, plasma-assisted etchback, plasma self-cleaning, and deposition topography modification by sputtering, either separately or as part of in-situ multiple step processing. The reactor includes cooperating arrays of interdigitated susceptor (16) and wafer fingers (20) which collectively remove the wafer (15) from a robot transfer blade (24) and position the wafer with variable, controlled, close parallel spacing between the wafer and the chamber gas inlet manifold (26) then return the wafer to the blade. A combined RF/gas feed-through device (36) protects against process gas leaks and applies RF energy to the gas inlet manifold without internal breakdown or deposition of the gas. The gas inlet manifold (26) is adapted for providing uniform gas flow over the wafer. Temperature-controlled internal and external manifold surfaces suppress condensation, premature reactions and decomposition and deposition on the external surfaces. The reactor also incorporates a uniform radial pumping gas system which enables uniform reactant gas flow across the wafer and directs purge gas flow downwardly and upwardly toward the periphery of the wafer for sweeping exhaust fases radially away from the wafer to prevent deposition outside the wafer and keep the chamber clean. The reactor provides uniform processing over a wide range of pressure including very high pressures. A low temperature CVD process for forming a highly conformal layer of silicon dioxide is also disclosed. The process uses very high chamber pressure and low temperature, and TEOS and ozone reactants. The low temperature CVD silicon dioxide deposition step is particularly useful for planarizing underlying stepped dielectric layers, either alone on in conjunction with a subsequent isotropic etch. A preferred in-situ multiple-step process for forming a planarized silicon dioxide layer uses (1) high rate silicon dioxide deposition at a low temperature and high pressure followed by (2) the deposition of the conformal silicon dioxide layer also at high pressure and low temperature, followed by (3) a high rate isotropic etch, preferably at low temperature and high pressure in the same reactor used for the two oxide deposition steps. Various combinations of the steps are disclosed for different applications, as is a preferred reactor self-cleaning step.

7. 发明专利

DE3789142D1 未知
公开(公告)号：DE3789142D1
公开(公告)日：1994-03-31
申请号：DE3789142
申请日：1987-12-18
申请人： APPLIED MATERIALS INC
发明人： WANG DAVID NIN-KOU , WHITE JOHN M , LAW KAM S , LEUNG CISSY , UMOTOY SALVADOR P , COLLINS KENNETH S , ADAMIK JOHN A , PERLOV ILYA , MAYDAN DAN
IPC分类号： C23C16/48 , C23C16/04 , C23C16/40 , C23C16/42 , C23C16/44 , C23C16/455 , C23C16/46 , C23C16/50 , C23C16/509 , C23C16/54 , C23F4/00 , C30B25/14 , H01L21/205 , H01L21/302 , H01L21/3065 , H01L21/31 , H01L21/314 , H01L21/316 , H01L21/683
摘要： A high pressure, high throughput, single wafer, semiconductor processing reactor (10) is disclosed which is capable of thermal CVD, plasma-enhanced CVD, plasma-assisted etchback, plasma self-cleaning, and deposition topography modification by sputtering, either separately or as part of in-situ multiple step processing. The reactor includes cooperating arrays of interdigitated susceptor (16) and wafer fingers (20) which collectively remove the wafer (15) from a robot transfer blade (24) and position the wafer with variable, controlled, close parallel spacing between the wafer and the chamber gas inlet manifold (26) then return the wafer to the blade. A combined RF/gas feed-through device (36) protects against process gas leaks and applies RF energy to the gas inlet manifold without internal breakdown or deposition of the gas. The gas inlet manifold (26) is adapted for providing uniform gas flow over the wafer. Temperature-controlled internal and external manifold surfaces suppress condensation, premature reactions and decomposition and deposition on the external surfaces. The reactor also incorporates a uniform radial pumping gas system which enables uniform reactant gas flow across the wafer and directs purge gas flow downwardly and upwardly toward the periphery of the wafer for sweeping exhaust fases radially away from the wafer to prevent deposition outside the wafer and keep the chamber clean. The reactor provides uniform processing over a wide range of pressure including very high pressures. A low temperature CVD process for forming a highly conformal layer of silicon dioxide is also disclosed. The process uses very high chamber pressure and low temperature, and TEOS and ozone reactants. The low temperature CVD silicon dioxide deposition step is particularly useful for planarizing underlying stepped dielectric layers, either alone on in conjunction with a subsequent isotropic etch. A preferred in-situ multiple-step process for forming a planarized silicon dioxide layer uses (1) high rate silicon dioxide deposition at a low temperature and high pressure followed by (2) the deposition of the conformal silicon dioxide layer also at high pressure and low temperature, followed by (3) a high rate isotropic etch, preferably at low temperature and high pressure in the same reactor used for the two oxide deposition steps. Various combinations of the steps are disclosed for different applications, as is a preferred reactor self-cleaning step.

8. 发明专利

DE3789142T2 未知
公开(公告)号：DE3789142T2
公开(公告)日：1994-05-26
申请号：DE3789142
申请日：1987-12-18
申请人： APPLIED MATERIALS INC
发明人： WANG DAVID NIN-KOU , WHITE JOHN M , LAW KAM S , LEUNG CISSY , UMOTOY SALVADOR P , COLLINS KENNETH S , ADAMIK JOHN A , PERLOV ILYA , MAYDAN DAN
IPC分类号： C23C16/48 , C23C16/04 , C23C16/40 , C23C16/42 , C23C16/44 , C23C16/455 , C23C16/46 , C23C16/50 , C23C16/509 , C23C16/54 , C23F4/00 , C30B25/14 , H01L21/205 , H01L21/302 , H01L21/3065 , H01L21/31 , H01L21/314 , H01L21/316 , H01L21/683
摘要： A high pressure, high throughput, single wafer, semiconductor processing reactor (10) is disclosed which is capable of thermal CVD, plasma-enhanced CVD, plasma-assisted etchback, plasma self-cleaning, and deposition topography modification by sputtering, either separately or as part of in-situ multiple step processing. The reactor includes cooperating arrays of interdigitated susceptor (16) and wafer fingers (20) which collectively remove the wafer (15) from a robot transfer blade (24) and position the wafer with variable, controlled, close parallel spacing between the wafer and the chamber gas inlet manifold (26) then return the wafer to the blade. A combined RF/gas feed-through device (36) protects against process gas leaks and applies RF energy to the gas inlet manifold without internal breakdown or deposition of the gas. The gas inlet manifold (26) is adapted for providing uniform gas flow over the wafer. Temperature-controlled internal and external manifold surfaces suppress condensation, premature reactions and decomposition and deposition on the external surfaces. The reactor also incorporates a uniform radial pumping gas system which enables uniform reactant gas flow across the wafer and directs purge gas flow downwardly and upwardly toward the periphery of the wafer for sweeping exhaust fases radially away from the wafer to prevent deposition outside the wafer and keep the chamber clean. The reactor provides uniform processing over a wide range of pressure including very high pressures. A low temperature CVD process for forming a highly conformal layer of silicon dioxide is also disclosed. The process uses very high chamber pressure and low temperature, and TEOS and ozone reactants. The low temperature CVD silicon dioxide deposition step is particularly useful for planarizing underlying stepped dielectric layers, either alone on in conjunction with a subsequent isotropic etch. A preferred in-situ multiple-step process for forming a planarized silicon dioxide layer uses (1) high rate silicon dioxide deposition at a low temperature and high pressure followed by (2) the deposition of the conformal silicon dioxide layer also at high pressure and low temperature, followed by (3) a high rate isotropic etch, preferably at low temperature and high pressure in the same reactor used for the two oxide deposition steps. Various combinations of the steps are disclosed for different applications, as is a preferred reactor self-cleaning step.

9. 发明专利

AU2003238853A1 Apparatus for cyclical deposition of thin films 未知
公开(公告)号：AU2003238853A1
公开(公告)日：2003-09-02
申请号：AU2003238853
申请日：2003-01-27
申请人： APPLIED MATERIALS INC
发明人： GELATOS AVGERINOS V , KHAN AHMAD A , THAKUR RANDHIR P S , UMOTOY SALVADOR P , XI MING , GLENN WALTER BENJAMIN , AL-SHAIKH AYAD A , MAK ALFRED W
IPC分类号： C23C16/44 , C23C16/452 , C23C16/455 , H01J37/32 , H01L21/00

10. 发明专利

ES2049729T3 未知
公开(公告)号：ES2049729T3
公开(公告)日：1994-05-01
申请号：ES87311193
申请日：1987-12-18
申请人： APPLIED MATERIALS INC
发明人： WANG DAVID NIN-KOU , WHITE JOHN M , LAW KAM S , LEUNG CISSY , UMOTOY SALVADOR P , COLLINS KENNETH S , ADAMIK JOHN A , PERLOV ILYA , MAYDAN DAN
IPC分类号： C23C16/04 , C23C16/40 , C23C16/42 , C23C16/44 , C23C16/48 , C23C16/455 , C23C16/46 , C23C16/50 , C23C16/509 , C23C16/54 , C23F4/00 , C30B25/14 , H01L21/205 , H01L21/302 , H01L21/3065 , H01L21/31 , H01L21/314 , H01L21/316 , H01L21/683
摘要： A high pressure, high throughput, single wafer, semiconductor processing reactor (10) is disclosed which is capable of thermal CVD, plasma-enhanced CVD, plasma-assisted etchback, plasma self-cleaning, and deposition topography modification by sputtering, either separately or as part of in-situ multiple step processing. The reactor includes cooperating arrays of interdigitated susceptor (16) and wafer fingers (20) which collectively remove the wafer (15) from a robot transfer blade (24) and position the wafer with variable, controlled, close parallel spacing between the wafer and the chamber gas inlet manifold (26) then return the wafer to the blade. A combined RF/gas feed-through device (36) protects against process gas leaks and applies RF energy to the gas inlet manifold without internal breakdown or deposition of the gas. The gas inlet manifold (26) is adapted for providing uniform gas flow over the wafer. Temperature-controlled internal and external manifold surfaces suppress condensation, premature reactions and decomposition and deposition on the external surfaces. The reactor also incorporates a uniform radial pumping gas system which enables uniform reactant gas flow across the wafer and directs purge gas flow downwardly and upwardly toward the periphery of the wafer for sweeping exhaust fases radially away from the wafer to prevent deposition outside the wafer and keep the chamber clean. The reactor provides uniform processing over a wide range of pressure including very high pressures. A low temperature CVD process for forming a highly conformal layer of silicon dioxide is also disclosed. The process uses very high chamber pressure and low temperature, and TEOS and ozone reactants. The low temperature CVD silicon dioxide deposition step is particularly useful for planarizing underlying stepped dielectric layers, either alone on in conjunction with a subsequent isotropic etch. A preferred in-situ multiple-step process for forming a planarized silicon dioxide layer uses (1) high rate silicon dioxide deposition at a low temperature and high pressure followed by (2) the deposition of the conformal silicon dioxide layer also at high pressure and low temperature, followed by (3) a high rate isotropic etch, preferably at low temperature and high pressure in the same reactor used for the two oxide deposition steps. Various combinations of the steps are disclosed for different applications, as is a preferred reactor self-cleaning step.

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