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Patent Agency Ranking
公开(公告)号:US11383687B2
公开(公告)日:2022-07-12
申请号:US16888867
申请日:2020-06-01
Applicant: Andrew James Perry
Inventor: Andrew James Perry
Abstract: A brake master cylinder assembly with adjustable fluid reservoir. The invention prevents air from entering a motorcycle hydraulic brake line by adjusting the fluid reservoir to be level with the ground of motorcycle operation. The brake handle remains parallel with the relative position of the handlebar the assembly is fastened to. All motorcycle brake master cylinders have a fluid reservoir and hydraulic piston that are in a fixed position relative to the handle and handlebar. The invention has a reservoir assembly which may be adjusted to any angle to keep the fluid reservoir level while the motorcycle is upright; allowing the motorcycle to have a brake handle and corresponding handlebar at any angle desired. The adjustable hydraulic fluid reservoir assembly prevents air from entering the brake line by reducing exaggerated angles incorporated with handlebar positions. The overall brake performance is therefore extended, mitigating risks' and extending service life.
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公开(公告)号:US08538572B2
公开(公告)日:2013-09-17
申请号:US12826564
申请日:2010-06-29
Applicant: Jiangxin Wang , Andrew James Perry , Vijayakumar C Venugopal
Inventor: Jiangxin Wang , Andrew James Perry , Vijayakumar C Venugopal
CPC classification number: H01J37/32963 , H01J37/32935
Abstract: A method for automatically identifying an optimal endpoint algorithm for qualifying a process endpoint during substrate processing within a plasma processing system is provided. The method includes receiving sensor data from a plurality of sensors during substrate processing of at least one substrate within the plasma processing system, wherein the sensor data includes a plurality of signal streams from a plurality of sensor channels. The method also includes identifying an endpoint domain, wherein the endpoint domain is an approximate period within which the process endpoint is expected to occur. The method further includes analyzing the sensor data to generate a set of potential endpoint signatures. The method yet also includes converting the set of potential endpoint signatures into a set of optimal endpoint algorithms. The method yet further includes importing one optimal endpoint algorithm of the set of optimal endpoint algorithms into production environment.
Abstract translation: 提供了一种用于在等离子体处理系统内的衬底处理期间自动识别用于限定过程端点的最佳端点算法的方法。 该方法包括在等离子体处理系统内至少一个衬底的衬底处理期间从多个传感器接收传感器数据,其中传感器数据包括来自多个传感器通道的多个信号流。 该方法还包括识别端点域,其中端点域是期望发生过程端点的近似周期。 该方法还包括分析传感器数据以产生一组潜在的端点签名。 该方法还包括将潜在端点签名的集合转换成一组最优端点算法。 该方法还包括将一组最优端点算法的一个最优端点算法导入到生产环境中。
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公开(公告)号:US20100330710A1
公开(公告)日:2010-12-30
申请号:US12826564
申请日:2010-06-29
Applicant: Jiangxin Wang , Andrew James Perry , Vijayakumar C. Venugopal
Inventor: Jiangxin Wang , Andrew James Perry , Vijayakumar C. Venugopal
CPC classification number: H01J37/32963 , H01J37/32935
Abstract: A method for automatically identifying an optimal endpoint algorithm for qualifying a process endpoint during substrate processing within a plasma processing system is provided. The method includes receiving sensor data from a plurality of sensors during substrate processing of at least one substrate within the plasma processing system, wherein the sensor data includes a plurality of signal streams from a plurality of sensor channels. The method also includes identifying an endpoint domain, wherein the endpoint domain is an approximate period within which the process endpoint is expected to occur. The method further includes analyzing the sensor data to generate a set of potential endpoint signatures. The method yet also includes converting the set of potential endpoint signatures into a set of optimal endpoint algorithms. The method yet further includes importing one optimal endpoint algorithm of the set of optimal endpoint algorithms into production environment.
Abstract translation: 提供了一种用于在等离子体处理系统内的衬底处理期间自动识别用于限定过程端点的最佳端点算法的方法。 该方法包括在等离子体处理系统内的至少一个衬底的衬底处理期间从多个传感器接收传感器数据,其中传感器数据包括来自多个传感器通道的多个信号流。 该方法还包括识别端点域,其中端点域是期望发生过程端点的近似周期。 该方法还包括分析传感器数据以产生一组潜在的端点签名。 该方法还包括将潜在端点签名的集合转换成一组最优端点算法。 该方法还包括将一组最优端点算法的一个最优端点算法导入到生产环境中。
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公开(公告)号:US12221082B2
公开(公告)日:2025-02-11
申请号:US17846590
申请日:2022-06-22
Applicant: Andrew James Perry
Inventor: Andrew James Perry
Abstract: A brake assembly includes a reservoir body adapted to store a brake fluid and defining a cylinder bore, and a piston adapted to reciprocate inside the cylinder bore. The brake assembly also includes a base bracket pivotably coupled to a reservoir body and adapted to be mounted to a handlebar, and a handle pivotally coupled to the base bracket and adapted to pivot relative to the base bracket. A drive link is pivotable coupled to the reservoir body and is configured to pivot relative to the reservoir body to advance the piston inside the cylinder bore in response to the pressing of the handle. The handle is configured to be set at a plurality of angular positions with respect to the reservoir body by pivoting the base bracket relative to the reservoir body.
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公开(公告)号:US20220314948A1
公开(公告)日:2022-10-06
申请号:US17846590
申请日:2022-06-22
Applicant: Andrew James Perry
Inventor: Andrew James Perry
Abstract: A brake assembly includes a reservoir body adapted to store a brake fluid and defining a cylinder bore, and a piston adapted to reciprocate inside the cylinder bore. The brake assembly also includes a base bracket pivotably coupled to a reservoir body and adapted to be mounted to a handlebar, and a handle pivotally coupled to the base bracket and adapted to pivot relative to the base bracket. A drive link is pivotable coupled to the reservoir body and is configured to pivot relative to the reservoir body to advance the piston inside the cylinder bore in response to the pressing of the handle. The handle is configured to be set at a plurality of angular positions with respect to the reservoir body by pivoting the base bracket relative to the reservoir body.
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