公开(公告)号：WO2014088612A2

公开(公告)日：2014-06-12

申请号：PCT/US2013/028485

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.

CPC classification number: G06F1/263 ,  G06F1/26

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.

Abstract translation: 描述了多级电源适配器技术，其中用于设备的电源适配器被配置为选择性地在相对低的电源和相对高的电源之间切换。 在将适配器初始连接到主机设备时可以采用低电源，以确保在断开连接时适配器是安全的，并且在设备准备好接收高电源之前不提供全部电力。 低电源可以为主机设备提供足够的电力来检测适配器的连接并建立与适配器的初始通信。 然后由适配器切换到高电源可以响应于来自主机设备的指示主机设备准备好用于高电源的通知而发生。 切换到高电源可以正常运行主机设备。

公开(公告)号：WO2014084873A3

公开(公告)日：2014-06-05

申请号：PCT/US2013/028482

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 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

Abstract: Key formation techniques are described. In one or more implementations, an input device includes a key assembly including a plurality of keys that are usable to initiate respective inputs for a computing device, a connection portion configured to be removably connected to the computing device physically and communicatively to communicate signals generated by the plurality of keys to the computing device, and an outer layer that is configured to cover the plurality of keys of the key assembly, the outer layer having a plurality of areas that are embossed thereon that indicate one or more borders of respective said keys.

公开(公告)号：WO2014084872A2

公开(公告)日：2014-06-05

申请号：PCT/US2013/028481

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 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.

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: Flux fountain techniques are described. In one or more implementations, an apparatus includes a cover configured to be disposed over at least a portion of a display device of a computing device that is configured as a tablet and a connection portion attached to the cover using a flexible hinge. The connection portion is configured to be physically coupled to the computing device using a magnetic coupling device. The magnetic coupling device includes a first magnet that is disposed in the connection portion such that a magnetic field is aligned along an axis and second and third magnets are disposed in the connection portion at opposing sides of the first magnet from each other. The second and third magnets have respective magnetic fields that are aligned along a respective axis that is substantially perpendicular to the axis of the magnetic field of the first magnet.

Abstract translation: 描述了助焊嘴技术。 在一个或多个实施方式中，一种装置包括盖，其被配置为设置在被配置为平板电脑的计算设备的显示设备的至少一部分上，以及使用柔性铰链连接到盖的连接部分。 连接部分被配置为使用磁耦合装置物理耦合到计算装置。 磁耦合装置包括：第一磁体，其设置在连接部分中，使得磁场沿轴线对准，并且第二和第三磁体设置在第一磁体的相对侧处的连接部分中。 第二和第三磁体具有沿着基本上垂直于第一磁体的磁场的轴线的相应轴对准的各自的磁场。

公开(公告)号：WO2014088614A2

公开(公告)日：2014-06-12

申请号：PCT/US2013/028767

申请日：2013-03-02

Applicant: MICROSOFT CORPORATION

Inventor： SHAW, Timothy, C. ,  BELESIU, Jim, Tom ,  DIETZ, Paul, Henry ,  STOUMBOS, Christopher, Harry ,  MATHIAS, Dennis, J. ,  WHITT, David, Otto, III ,  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 ,  PELLEY, Joel, Lawrence ,  KASSELS, Jay, Scott ,  SPOONER, Richard, Peter ,  MICKELSON, Matthew, David ,  HUALA, Rob ,  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, Edward, C., III ,  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: Pressure sensitive key techniques are described. In one or more implementations, a device includes at least one pressure sensitive key having a flexible contact layer spaced apart from a sensor substrate by a spacer layer, the flexible contact layer configured to flex responsive to pressure to contact the sensor substrate to initiate an input, for a computing device, associated with the pressure sensitive key. At least one of the flexible contact layer or the sensor substrate are configured to at least partially normalize an output resulting from pressure applied at a first location of the flexible contact layer with an output resulting from pressure applied at a second location of the flexible contact layer that has lesser flexibility than the first location.

Abstract translation: 描述了压敏键技术。 在一个或多个实施方式中，装置包括至少一个压敏键，其具有通过间隔层与传感器衬底间隔开的柔性接触层，柔性接触层配置为响应于压力而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。 柔性接触层或传感器基板中的至少一个被配置为至少部分地标准化由施加在柔性接触层的第一位置处的压力引起的输出与由施加在柔性接触层的第二位置处的压力引起的输出 这比第一个地点的灵活性要低。

公开(公告)号：WO2014084880A2

公开(公告)日：2014-06-05

申请号：PCT/US2013/028490

申请日：2013-03-01

Applicant: MICROSOFT CORPORATION

Inventor： WHITT, III, David Otto ,  SHAW, Timothy C. ,  HUALA, Rob ,  VANDERVOORT, David C. ,  MICKELSON, Matthew David ,  STOUMBOS, Christopher Harry ,  PELLEY, Joel Lawrence ,  PLEAKE, Todd David ,  WANG, Hua ,  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 ,  GROENE, Ralf ,  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 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.

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: Input device adhesive techniques are described. A pressure sensitive key includes a sensor substrate having one or more conductors, a spacer layer, and a flexible contact layer. The spacer layer is disposed proximal to the sensor substrate and has at least one -opening. The flexible contact layer is spaced apart from the sensor substrate by the spacer layer and configured to flex through the opening in response to an applied pressure to initiate an input. The flexible contact layer is secured to the spacer layer such that at first edge, the flexible contact layer is secured to the spacer layer at an approximate midpoint of the first edge and is not secured to the spacer along another portion of the first edge and at a second edge, the flexible contact layer is not secured to the spacer layer along an approximate midpoint of the second edge.

Abstract translation: 描述输入设备粘合技术。 压敏键包括具有一个或多个导体，间隔层和柔性接触层的传感器基底。 间隔层设置在传感器基底附近并具有至少一次开启。 柔性接触层通过间隔层与传感器基板间隔开并且被配置为响应于所施加的压力弯曲通过开口以启动输入。 柔性接触层被固定到间隔层，使得在第一边缘处，柔性接触层在第一边缘的大致中点处固定到间隔层，并且不沿着第一边缘的另一部分固定到间隔物上 第二边缘，柔性接触层沿着第二边缘的大致中点不固定到间隔层。

公开(公告)号：WO2014084879A2

公开(公告)日：2014-06-05

申请号：PCT/US2013/028489

申请日：2013-03-01

Applicant: MICROSOFT CORPORATION

Inventor： BELESIU, Jim Tom ,  DRASNIN, Sharon ,  SCHWAGER, Michael A. ,  STOUMBOS, Christopher Harry ,  SEILSTAD, Mark J. ,  DIGHDE, Rajesh Manohar ,  CADY, Andrew N. ,  SCHULTZ, Bernard Maurice ,  WHITT, III, David Otto ,  SCHNEIDER, Summer L. ,  SIDDIQUI, Kabir ,  ISHIHARA, James Alec ,  WANG, Hua ,  GROENE, Ralf ,  PELLEY, Joel Lawrence ,  KASSELS, Jay Scott ,  SPOONER, Richard Peter ,  SHAW, Timothy C. ,  MICKELSON, Matthew David ,  AAGAARD, Karsten ,  HUALA, Rob ,  DIETZ, Paul Henry ,  MATHIAS, Dennis J. ,  VANDERVOORT, David C. ,  PLEAKE, Todd David ,  LUTZ, Moshe R. ,  MAIL, Scott Mitchel ,  WHITMAN, Christopher A. ,  WAHL, Eric Joseph ,  MCLAUGHLIN, Robyn Rebecca Reed ,  WISE, James H. ,  LEON, Camilo ,  OLIVER, Thomas Charles ,  OLER, Van Winston ,  UMENO, Hiroo ,  PEREK, David R. ,  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.

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: 描述了移动设备电源状态的技术。 在一个或多个实现中，移动设备包括经由柔性铰链灵活地耦合到输入设备的计算设备。 因此，移动设备可以基于计算设备对相关联的输入设备的位置取向在各种不同的功率状态下操作。 在一个或多个实现中，驻留在计算设备上的应用可以基于计算设备对相关联的输入设备的位置取向在不同的应用状态中操作。 在一个或多个实现中，本文所讨论的技术可以区分由触摸功能的触摸输入引起的振动和其它类型的振动。 基于这种区别，技术可以确定是否在设备电源状态之间转换。

公开(公告)号：WO2014084876A2

公开(公告)日：2014-06-05

申请号：PCT/US2013/028486

申请日：2013-03-01

Applicant: MICROSOFT CORPORATION

Inventor： WHITMAN, Christopher A. ,  DIGHDE, Rajesh Manohar ,  CADY, Andrew N. ,  SCHULTZ, Bernard Maurice ,  WHITT, III, David Otto ,  SCHNEIDER, Summer L. ,  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 ,  AAGAARD, Karsten ,  HUALA, Rob ,  DIETZ, Paul Henry ,  MATHIAS, Dennis J. ,  VANDERVOORT, David C. ,  PLEAKE, Todd David ,  LUTZ, Moshe R. ,  MAIL, Scott Mitchel ,  WAHL, Eric Joseph ,  MCLAUGHLIN, Robyn Rebecca Reed ,  WISE, James H. ,  LEON, Camilo ,  OLIVER, Thomas Charles ,  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.

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: One or more sensors are disposed to sense user inputs in an active display area as well as user inputs in an extended area that is outside of the active display area. Data for user inputs, such as gestures, may include data from user inputs sensed in both the active display area and outside of the active display area. The user inputs can begin and/or end outside of the active display area.

Abstract translation: 设置一个或多个传感器以感测活动显示区域中的用户输入以及在活动显示区域外部的扩展区域中的用户输入。 用户输入（例如手势）的数据可以包括在活动显示区域和活动显示区域外部感测的来自用户输入的数据。 用户输入可以在活动显示区域的外部开始和/或结束。

公开(公告)号：WO2014084874A2

公开(公告)日：2014-06-05

申请号：PCT/US2013/028483

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 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.

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: Different types of user inputs can be input by a user via a keyboard of an input device. These different types of user inputs include, for example, key strikes, multi-touch interactions, single finger motions, and/or mouse clicks. Touch information regarding the pressure applied to the keys of a pressure sensitive keyboard over time (or the contact area of the user input for other types of keyboards over time) is used to classify the intent of the user input as one of the various types of user inputs.

Abstract translation: 用户可以通过输入设备的键盘输入不同类型的用户输入。 这些不同类型的用户输入包括例如密钥冲击，多点触摸交互，单个手指运动和/或鼠标点击。 触摸有关压力敏感键盘随着时间的压力施加的压力的信息（或者随着时间的推移，其他类型的键盘的用户输入的接触面积）被用于将用户输入的意图分类为各种类型的 用户输入。

公开(公告)号：WO2013173350A1

公开(公告)日：2013-11-21

申请号：PCT/US2013/040968

申请日：2013-05-14

Applicant: MICROSOFT CORPORATION

Inventor： DRASNIN, Sharon ,  DIETZ, Paul Henry ,  LUTZ, Moshe R.

IPC: G06F9/44

CPC classification number: G06F13/4291 ,  G06F1/1669 ,  G06F1/3296 ,  G06F3/0202 ,  G06F3/04886 ,  G06F3/167 ,  G06F9/4415 ,  G06F11/3051 ,  G06F11/328 ,  G06F13/4068 ,  G06F2203/04809 ,  Y02D10/14 ,  Y02D10/151

Abstract: An accessory device architecture is described. In one or more implementations, data is received from an accessory device at an intermediate processor of a computing device, the data usable to enumerate functionality of the accessory device for operation as part of a computing device that includes the intermediate processor. The data is passed by the intermediate processor to an operating system executed on processor of the computing device to enumerate the functionality of the accessory device as part of the intermediate processor.

Abstract translation: 描述了附件设备架构。 在一个或多个实现中，在计算设备的中间处理器处从附件设备接收数据，该数据可用于枚举作为包括中间处理器的计算设备的一部分的附件设备的功能。 数据由中间处理器传递到在计算设备的处理器上执行的操作系统，以列举作为中间处理器的一部分的附件设备的功能。

公开(公告)号：EP2820518A2

公开(公告)日：2015-01-07

申请号：EP13858674.8

申请日：2013-03-02

Applicant: Microsoft Corporation

Inventor： SHAW, Timothy C. ,  BELESIU, Jim Tom ,  DIETZ, Paul Henry ,  STOUMBOS, Christopher Harry ,  MATHIAS, Dennis J. ,  WHITT, David Otto, III ,  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 ,  PELLEY, Joel Lawrence ,  KASSELS, Jay Scott ,  SPOONER, Richard Peter ,  MICKELSON, Matthew David ,  HUALA, Rob ,  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.