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    • 1. 发明授权
    • System for resources under control of docking station when stand alone
and resources under control of central processing unit of portable
computer when docked
    • 独立控制的资源系统和便携式计算机中央处理单元的控制下的资源停靠时
    • US6151646A
    • 2000-11-21
    • US304935
    • 1999-05-04
    • LaVaughn F. WattsJohn C. Linn
    • LaVaughn F. WattsJohn C. Linn
    • G06F3/00G06F1/16G06F9/00
    • G06F1/1632
    • The described embodiments of the present invention provide a computer docking station (12, 32, 58, 68, 76, 84, 90, 92, 94, 96) that can have its functionality reconfigured by a docked portable personal computer (10, 38, 62, 66, 74, 82). In at least one embodiment of the invention, the computer docking station is configured as a stand alone computer prior to docking with a portable computer, may have its functionality reconfigured when docked to the portable computer, and reconfigures itself to be a stand alone computer when undocked from the portable computer. In one embodiment of the invention, docking station resources are placed under the control of a docked portable computer. In another embodiment of the invention, docked portable computer resources are placed under the control of the docking station. The invention contemplates docking via direct connection, radio requency "RF" communications, infrared "IR" communications, 1394 high performance serial bus communications, or card bus communications, and/or combinations of one or more of these communications techniques.
    • 本发明的所描述的实施例提供了一种计算机对接站(12,32,58,68,76,84,90,92,94,96),其可以使其功能由对接便携式个人计算机(10,38, 62,66,74,82)。 在本发明的至少一个实施例中,计算机对接站被配置为在与便携式计算机对接之前的独立计算机,当将其停靠在便携式计算机上时可将其功能重新配置,并将其重新配置为独立的计算机 从便携式计算机上卸下。 在本发明的一个实施例中,对接站资源被放置在对接便携式计算机的控制下。 在本发明的另一个实施例中,对接的便携式计算机资源被置于对接站的控制之下。 本发明设想通过直接连接,无线电需求“RF”通信,红外“IR”通信,1394高性能串行总线通信或卡总线通信以及/或这些通信技术中的一个或多个的组合进行对接。
    • 2. 发明授权
    • Bubble memory structure with enhanced data density
    • 气泡记忆结构具有增强的数据密度
    • US4176404A
    • 1979-11-27
    • US869349
    • 1978-01-13
    • Magid Y. DimyanWayne C. HubbellChristopher T. M. ChangJohn C. Linn
    • Magid Y. DimyanWayne C. HubbellChristopher T. M. ChangJohn C. Linn
    • G11C11/14G11C19/08
    • G11C19/0875
    • A magnetic bubble memory structure having an enhanced storage density is made possible by reducing the circuit period, that is the distance between bubbles, in the storage section of the device. This reduction of the circuit period is made possible by using a gap tolerant propagation element, e.g. asymmetrical chevrons. The bubble storage sections are structured such that the areas closest to the transfer gates have a larger circuit period than the remainder of the storage section. The bubble chip architecture utilizing this means of enhancing the storage density may be of the major-minor loop configuration or the block-replicate configuration. Bubble storage sections in the form of loop structures may have a folded loop or an h loop configuration as well as a closed loop configuration. The reduction in circuit period accomplishes enhancement of the storage density without reducing the bubble diameter and other minimum circuit features to achieve this goal.
    • 通过减少设备的存储部分中的电路周期,即气泡之间的距离,可以实现具有增强的存储密度的磁性气泡存储器结构。 电路周期的这种减小可以通过使用间隙容许传播元件,例如, 不对称的人字纹 气泡存储部分被构造成使得最靠近传输门的区域具有比存储部分的其余部分更大的电路周期。 利用这种提高存储密度的手段的气泡芯片架构可以是主要次要环路配置或块复制配置。 循环结构形式的气泡存储部分可以具有折叠环或h环配置以及闭环配置。 电路周期的减少实现了存储密度的提高,而不降低气泡直径和其他最小电路特征以实现这一目的。
    • 4. 发明授权
    • System for resources under control of docking station when standalone
and resources under control of central processing unit of portable
computer when docked
    • 独立控制的资源控制系统,便携式计算机中央处理单元控制的资源停靠时
    • US06023587A
    • 2000-02-08
    • US651165
    • 1996-05-02
    • LaVaughn F. Watts, Jr.John C. Linn
    • LaVaughn F. Watts, Jr.John C. Linn
    • G06F3/00G06F1/16G06F9/00
    • G06F1/1632
    • The described embodiments of the present invention provide a computer docking station (12, 32, 58, 68, 76, 84, 90, 92, 94, 96) that can have its functionality reconfigured by a docked portable personal computer (10, 38, 62, 66, 74, 82). In at least one embodiment of the invention, the computer docking station is configured as a stand alone computer prior to docking with a portable computer, may have its functionality reconfigured when docked to the portable computer, and reconfigures itself to be a stand alone computer when undocked from the portable computer. In one embodiment of the invention, docking station resources are placed under the control of a docked portable computer. In another embodiment of the invention, docked portable computer resources are placed under the control of the docking station. The invention contemplates docking via direct connection, radio requency "RF" communications, infrared "IR" communications, 1394 high performance serial bus communications, or card bus communications, and/or combinations of one or more of these communications techniques.
    • 本发明的所描述的实施例提供了一种计算机对接站(12,32,58,68,76,84,90,92,94,96),其可以使其功能由对接便携式个人计算机(10,38, 62,66,74,82)。 在本发明的至少一个实施例中,计算机对接站被配置为在与便携式计算机对接之前的独立计算机,当将其停靠在便携式计算机上时可将其功能重新配置,并将其重新配置为独立的计算机 从便携式计算机上卸下。 在本发明的一个实施例中,对接站资源被放置在对接便携式计算机的控制下。 在本发明的另一个实施例中,对接的便携式计算机资源被置于对接站的控制之下。 本发明设想通过直接连接,无线电需求“RF”通信,红外“IR”通信,1394高性能串行总线通信或卡总线通信以及/或这些通信技术中的一个或多个的组合进行对接。
    • 5. 发明授权
    • System with program for automating protocol assignments when newly
connected to varing computer network configurations
    • US5918016A
    • 1999-06-29
    • US872466
    • 1997-06-10
    • Jason M. BrewerJohn C. LinnKeith L. PerrinRobert E. Tonsing
    • Jason M. BrewerJohn C. LinnKeith L. PerrinRobert E. Tonsing
    • H04L29/06H04L29/12G06F17/00
    • H04L29/12216H04L29/06H04L29/12311H04L61/2015H04L61/2084
    • A method of configuring a mobile computer (H3) among different computer network configurations (N1, N2). In this method, the mobile computer is connected (18) to a first network medium in various steps. In one step, a network interface circuit (NIC) of the mobile computer is coupled to communicate with the first network medium. In another step, the mobile computer is configured to have an IP address allocated for the first network medium. Next, there is the step (20) of performing a program operation on the mobile computer to determine whether a dynamic configuration protocol is available on the first network medium. Another step performs a program operation to store an indicator in a storage resource of the mobile computer representing whether a dynamic configuration protocol is available on the first network medium. Next, the mobile computer is disconnected (22) from the first network medium, including uncoupling the network interface circuit of the mobile computer from communicating with the first network medium. Next, the mobile computer is connected (24) to a second network medium, including coupling the network interface circuit of the mobile computer to communicate with the second network medium, and performing a program operation on the mobile computer to request a user interface input. In response to the user interface input, the method performs a program operation to store (29) the IP address allocated for the first network medium in a persistent storage resource included within the mobile computer if the indicator indicates that a dynamic configuration protocol is not available on the first network medium. Also in response to the user interface input, the method performs a program operation on the mobile computer to configure (32) the mobile computer to have an IP address allocated for the second network medium by transmitting along the second network medium the IP address allocated for the second network medium from a server computer to the mobile computer.