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Patent Agency Ranking
公开(公告)号:EP2820552A2
公开(公告)日:2015-01-07
申请号:EP13860272.7
申请日:2013-03-01
Applicant: Microsoft Corporation
Inventor: OLER, Van Winston , UMENO, Hiroo , WHITT, III, David Otto , SCHNEIDER, Summer L. , DRASNIN, Sharon , SIDDIQUI, Kabir , DIGHDE, Rajesh Manohar , BELESIU, Jim Tom , ISHIHARA, James Alec , WANG, Hua , GROENE, Ralf , STOUMBOS, Christopher Harry , PELLEY, Joel Lawrence , KASSELS, Jay Scott , SPOONER, Richard Peter , PEREK, David R. , SCHWAGER, Michael A. , SEILSTAD, Mark J. , WHITMAN, Christopher A. , MARSHALL, James Charles , PEDERSEN, Matthew G. , YOUNG, Robert D. , SHERMAN, Nathan C. , GIBSON, Scott K. , MAIL, Scott Mitchel , SYKES, Shane Aaron , LANE, David M. , OBIE, Gene Robert , GIAIMO, III, Edward C. , NEFF, David , SOUSA, Jose R.
Abstract: Multi-stage power adapter techniques are described in which a power adapter for a device is configured to selectively switch between a relatively low power supply and a relatively high power supply. The low power supply may be employed upon initial connection of the adapter to a host device to ensure that the adapter is safe when disconnected and does not supply full power before the device is ready to receive the high power supply. The low power supply may supply enough power for the host device to detect the connection of the adapter and establish initial communication with the adapter. A switch to the high power supply by the adapter may then occur in response to a notification from the host device that indicates the host device is ready for the high power supply. The switch to high power supply enables normal operation of the host device.
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公开(公告)号:EP2820521A2
公开(公告)日:2015-01-07
申请号:EP13861292.4
申请日:2013-03-01
Applicant: Microsoft Corporation
Inventor: BELESIU, Jim Tom , SHAW, Timothy C. , WHITT, III, David Otto , HUALA, Rob , STOUMBOS, Christopher Harry , PELLEY, Joel Lawrence , MCLAUGHLIN, Robyn Rebecca Reed , SCHNEIDER, Summer L. , WAHL, Eric Joseph , WISE, James H. , LEON, Camilo , AAGAARD, Karsten , OLIVER, Thomas Charles , CADY, Andrew N. , SCHULTZ, Bernard Maurice , DIGHDE, Rajesh Manohar , DRASNIN, Sharon , SIDDIQUI, Kabir , ISHIHARA, James Alec , WANG, Hua , GROENE, Ralf , KASSELS, Jay Scott , SPOONER, Richard Peter , MICKELSON, Matthew David , DIETZ, Paul Henry , MATHIAS, Dennis J. , VANDERVOORT, David C. , PLEAKE, Todd David , LUTZ, Moshe R. , MAIL, Scott Mitchel , WHITMAN, Christopher A. , OLER, Van Winston , UMENO, Hiroo , PEREK, David R. , SCHWAGER, Michael A. , SEILSTAD, Mark J. , REED, Anthony Christian , CUMMINGS, Stephan Alexander , JENSEN, Darryl I. , PANAY, Panos C. , STRANDE, Hakon , GOH, Chun Beng , MANTOOTH, Harold F. , MARSHALL, James Charles , PEDERSEN, Matthew G. , YOUNG, Robert D. , SHERMAN, Nathan C. , GIBSON, Scott K. , SYKES, Shane Aaron , LANE, David M. , OBIE, Gene Robert , GIAIMO, III, Edward C. , NEFF, David , SOUSA, Jose R.
IPC: G06F3/02
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/79 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
Abstract translation: 描述了输入设备层和嵌套技术。 在一个或多个实施方式中,输入装置包括压敏键组件,该压敏键组件包括具有固定到表面的多个硬件元件的基板。 输入设备还包括设置在表面附近的一个或多个层,所述一个或多个层具有被配置为在其中嵌套一个或多个硬件元件的相应开口。
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公开(公告)号:EP2820511A2
公开(公告)日:2015-01-07
申请号:EP13859280.3
申请日:2013-03-01
Applicant: Microsoft Corporation
Inventor: WHITT, III, David Otto , MCLAUGHLIN, Robyn Rebecca Reed , SCHNEIDER, Summer L. , WAHL, Eric Joseph , WISE, James H. , LEON, Camilo , AAGAARD, Karsten , OLIVER, Thomas Charles , CADY, Andrew N. , SCHULTZ, Bernard Maurice , DIGHDE, Rajesh Manohar , DRASNIN, Sharon , SIDDIQUI, Kabir , BELESIU, Jim Tom , ISHIHARA, James Alec , WANG, Hua , GROENE, Ralf , STOUMBOS, Christopher Harry , PELLEY, Joel Lawrence , KASSELS, Jay Scott , SPOONER, Richard Peter , SHAW, Timothy C. , MICKELSON, Matthew David , HUALA, Rob , DIETZ, Paul Henry , MATHIAS, Dennis J. , VANDERVOORT, David C. , PLEAKE, Todd David , LUTZ, Moshe R. , MAIL, Scott Mitchel , WHITMAN, Christopher A. , OLER, Van Winston , UMENO, Hiroo , PEREK, David R. , SCHWAGER, Michael A. , SEILSTAD, Mark J. , REED, Anthony Christian , CUMMINGS, Stephan Alexander , JENSEN, Darryl L. , PANAY, Panos C. , STRANDE, Hakon , GOH, Chun Beng , MANTOOTH, Harold F. , MARSHALL, James Charles , PEDERSEN, Matthew G. , YOUNG, Robert D. , SHERMAN, Nathan C. , GIBSON, Scott K. , SYKES, Shane Aaron , LANE, Davie M. , OBIE, Gene Robert , GIAIMO, III, Edward C. , NEFF, David , SOUSA, Jose R.
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/79 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
Abstract translation: 不同类型的用户输入可以由用户通过输入设备的键盘输入。 这些不同类型的用户输入包括例如键击,多点触摸交互,单手指运动和/或鼠标点击。 触摸关于随着时间推移施加到压敏键盘的按键的压力的信息(或随着时间的推移用于其他类型的键盘的用户输入的接触区域)被用于将用户输入的意图分类为各种类型的 用户输入。
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公开(公告)号:EP2820505A2
公开(公告)日:2015-01-07
申请号:EP13860271.9
申请日:2013-03-02
Applicant: Microsoft Corporation
Inventor: HUALA, Rob , SCHNEIDER, Summer L. , SHAW, Timothy C. , WHITT, David Otto, III. , WAHL, Eric Joseph , VANDERVOORT, David C. , PLEAKE, Todd David , MCLAUGHLIN, Robyn Rebecca Reed , MICKELSON, Matthew David , PELLEY, Joel Lawrence , GROENE, Ralf , WANG, Hua , STOUMBOS, Christopher Harry , AAGAARD, Karsten , WISE, James H. , LEON, Camilo , OLIVER, Thomas Charles , CADY, Andrew N. , SCHULTZ, Bernard Maurice , DIGHDE, Rajesh Manohar , DRASNIN, Sharon , SIDDIQUI, Kabir , BELESIU, Jim Tom , ISHIHARA, James Alec , KASSELS, Jay Scott , SPOONER, Richard Peter , DIETZ, Paul Henry , MATHIAS, Dennis J. , LUTZ, Moshe R. , MAIL, Scott Mitchel , WHITMAN, Christopher A. , OLER, Van Winston , UMENO, Hiroo , PEREK, David R. , SCHWAGER, Michael A. , SEILSTAD, Mark J. , REED, Anthony Christian , CUMMINGS, Stephan Alexander , JENSEN, Darryl , PANAY, Panos , STRANDE, Hakon , GOH, Chun Beng , MANTOOTH, Harold F. , MARSHALL, James Charles , PEDERSEN, Matthew G. , YOUNG, Robert D. , SHERMAN, Nathan C. , GIBSON, Scott K. , SYKES, Shane Aaron , LANE, David M. , OBIE, Gene Robert , GIAIMO, Edward C., III , NEFF, David , SOUSA, Jose R.
IPC: G06F1/16
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/79 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
Abstract translation: 描述了压敏关键技术。 在一个或多个实施方案中,装置包括至少一个压力敏感键,其具有通过间隔层与传感器衬底间隔开的柔性接触层,所述柔性接触层被配置为响应压力弯曲以接触传感器衬底以启动输入 ,用于与压敏键相关联的计算设备。 弹性接触层或传感器基底中的至少一个被配置为至少部分地对由柔性接触层的第一位置处施加的压力产生的输出进行归一化,其中所产生的输出由在柔性接触层的第二位置施加的压力 这比第一个位置具有更小的灵活性。
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公开(公告)号:EP2820501A2
公开(公告)日:2015-01-07
申请号:EP13859158.1
申请日:2013-03-01
Applicant: Microsoft Corporation
Inventor: WHITT, III, David Otto , MCLAUGHLIN, Robyn Rebecca Reed , SCHNEIDER, Summer L. , WAHL, Eric Joseph , WISE, James H. , LEON, Camilo , AAGAARD, Karsten , OLIVER, Thomas Charles , CADY, Andrew N. , SCHULTZ, Bernard Maurice , DIGHDE, Rajesh Manohar , DRASNIN, Sharon , SIDDIQUI, Kabir , BELESIU, Jim Tom , ISHIHARA, James Alec , WANG, Hua , GROENE, Ralf , STOUMBOS, Christopher Harry , PELLEY, Joel Lawrence , KASSELS, Jay Scott , SPOONER, Richard Peter , SHAW, Timothy C. , MICKELSON, Matthew David , HUALA, Rob , DIETZ, Paul Henry , MATHIAS, Dennis J. , VANDERVOORT, David C. , PLEAKE, Todd David , LUTZ, Moshe R. , MAIL, Scott Mitchel , WHITMAN, Christopher A. , OLER, Van Winston , UMENO, Hiroo , PEREK, David R. , SCHWAGER, Michael A. , SEILSTAD, Mark J. , REED, Anthony Christian , CUMMINGS, Stephan Alexander , JENSEN, Darryl L. , PANAY, Panos C. , STRANDE, Hakon , GOH, Chun Beng , MANTOOTH, Harold F. , MARSHALL, James Charles , PEDERSEN, Matthew G. , YOUNG, Robert D. , SHERMAN, Nathan C. , GIBSON, Scott K. , SYKES, Shane Aaron , LANE, David M. , OBIE, Gene Robert , GIAIMO, III, Edward C. , NEFF, David , SOUSA, Jose R.
IPC: G06F1/00
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/79 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
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