Class / Patent application number | Description | Number of patent applications / Date published |
710304000 | Hot docking | 77 |
20080244145 | Data storage docking system - A docking system for interfacing with a host computing device and for receiving a plurality of data storage components including a non-tape data storage media and an electrical contact. The docking system includes a primary station and an auxiliary station. The primary station includes an electrical connection device configured to interface with the host computing device and a primary station electrical coupling element. The auxiliary station includes a corresponding electrical coupling element selectively coupled with the primary station electrical coupling element and further includes at least one socket configured to selectively receive one of the plurality of data storage components. The docking system is configured to provide the host computing device with access to the non-tape data storage media via the electrical connection device, the primary station electrical coupling element, the corresponding electrical coupling element of the auxiliary station, and the electrical receptor of the auxiliary station. | 10-02-2008 |
20080288702 | METHOD AND SYSTEM FOR DOCKING A LAPTOP WITH ETHERNET A/V BRIDGING TO GUARANTEE SERVICES - Methods and systems for docking a laptop with Ethernet A/V bridging to guarantee services are disclosed and may include interfacing a portable computing device with a docking station using an Ethernet interface, and utilizing audio/video (AV) bridging for communicating data between the portable computing device and one or more devices coupled to the docking station. AV bridging may be utilized based on latency requirements of the data communication. The interfacing may include directly coupling an Ethernet port of the docking station to an Ethernet port of the portable computing device. Alternatively, the interfacing may include coupling an Ethernet port of the docking station to an Ethernet port of the portable computing device via an Ethernet cable. The portable computing device may be powered via the Ethernet interface, and may utilize power over Ethernet protocol. The docking station may include a passive or active docking station. | 11-20-2008 |
20080294830 | DOCKING AN INFORMATION HANDLING SYSTEM - A first docking interface includes a substrate. A first power receiver is formed in the substrate. The first power receiver is operable to be automatically docked to a power provider, such as a burn rack, and to receive power from the power provider. A first power transmitter formed in the substrate and coupled to the first power receiver. The first power transmitter is operable to receive power from the first power receiver and transmit power to an information handling system (IHS). | 11-27-2008 |
20080307144 | Personal media device docking station having an accessory device detector - Systems and methods include a circuit for detecting the insertion of a component into a docking station, e.g., an audio plug. When the component is inserted into the docking station, an electronic switch can be opened. When the switch is opened, a detector (e.g., monostable multivibrator) for detecting a change in state of the switch can be activated. Responsive to the detected change in state, the detector can issue a signal to a control device. Responsive to the signal, the controller can look to a resistive identification circuit and, based on its resistance, determine whether the component has just been inserted or removed from the docking station. | 12-11-2008 |
20080320197 | PORTABLE COMPUTING, COMMUNICATION AND ENTERTAINMENT DEVICE WITH CENTRAL PROCESSOR CARRIED IN A DETACHABLE PORTABLE UNIT - The present invention relates in general to portable processor based devices that provide computing, communication or entertainment functionality. More particularly, the present invention pertains to portable processor based devices operable while being held in its user's hand and providing communications, organizer and/or entertainment functions, such as cellular telephones, palm-sized organizers, and MP3 players, and to portable processor based devices providing general computing capabilities, such as laptop or handheld personal computers (PC's). More specifically, the present invention relates to systems that detachably mate a plurality of portable processor based devices to provide their combined functionality in an integrated structure. | 12-25-2008 |
20090006699 | UNIVERSAL SERIAL BUS DONGLE DEVICE WITH GLOBAL POSITIONING AND SYSTEM FOR USE THEREWITH - A universal serial bus (USB) dongle device includes a global positioning system (GPS) receiver that receives a GPS signal and that generates GPS position data based on the GPS signal. A USB interface communicates the GPS position data to a host device, when coupled to the host device. | 01-01-2009 |
20090006700 | CONNECTOR INTERFACE SYSTEM FOR A MULTI-COMMUNICATION DEVICE - A connector interface system for a communication device is disclosed. The interface includes a docking connector. The docking connector includes first make/last break contacts that minimize internal damage to the internal electronics. The docking connector also includes specific keying arrangement to prevent noncompliant connectors from being plugged in, and thereby minimizes potential damage to the multi-communication device. The connector interface system also includes a remote connector which provides for the ability to output audio, input audio, provides I/O serial protocol, and to provide an output video. Embodiments of the present invention allow for a standard headphone cable to be plugged in but also for special remote control cables, microphone cables, video cables could be utilized in such a system. The connector interface system also includes a serial protocol to control device features. These controls help a user sort and search for data more efficiently within the device. | 01-01-2009 |
20090006701 | TECHNIQUES FOR TRANSFERRING STATUS INFORMATION BETWEEN AN ACCESSORY AND A MULTI-COMMUNICATION DEVICE - A connector interface system for a communication device is disclosed. The interface includes a docking connector. The docking connector includes first make/last break contacts that minimize internal damage to the internal electronics. The docking connector also includes specific keying arrangement to prevent noncompliant connectors from being plugged in, and thereby minimizes potential damage to the multi-communication device. The connector interface system also includes a remote connector which provides for the ability to output audio, input audio, provides I/O serial protocol, and to provide an output video. Embodiments of the present invention allow for a standard headphone cable to be plugged in but also for special remote control cables, microphone cables, video cables could be utilized in such a system. The connector interface system also includes a serial protocol to control device features. These controls help a user sort and search for data more efficiently within the device. | 01-01-2009 |
20090024779 | Method of Connecting Mass Storage Device - Method for connecting mass storage device(s) with data connection device(s) connecting to data port(s) with the same data interface type(s) as that of the mass storage device(s) for data transmission and with power connection device(s) connecting to power port(s), for power supply, on a bus of technologies with power management capabilities and facilities in computer-related or computer-controlled or operating-system-controlled machines or devices for using and swapping the mass storage device(s). | 01-22-2009 |
20090043936 | DOCKING STATION AND EXPANDABLE COMPUTER SYSTEM - A docking station is used for cooperating with a computer host, and the computer host has a first power connecting portion and a first peripheral component connecting portion. The docking station includes a casing, a second power connecting portion and a second peripheral component connecting portion. The casing is used for disposing the computer host. The second power connecting portion and the second peripheral component connecting portion are disposed at the casing. When the computer host is disposed at the casing, the second power connecting portion is connected to the first power connecting portion to transmit a power signal to the computer host, and the second peripheral component connecting portion is connected to the first peripheral component connecting portion to transmit at least one peripheral component signal to the computer host. An expandable computer system is also disclosed. | 02-12-2009 |
20090063745 | DETACHABLE INTERFACE DEVICE FOR POWERING PORTABLE DATA PROCESSING SYSTEM USING A VEHICLE DIAGNOSTIC PORT - A interface device for powering a data processing system using an output of a vehicle diagnostic port, such as an OBD II connector, that outputs self-diagnostic information. The vehicle diagnostic port is disposed on, and an integral part of, a vehicle. The interface device includes a first connector, a second connector and a power converter. The first connector is configured to detachably couple to the vehicle diagnostic port to receive output signals therefrom. The output signals of the vehicle diagnostic port include a vehicle power output and a diagnostic output including self-diagnostic information. The second connector is configured to detachably couple to a docking connector of the data processing system. The power converter, coupled to the first connector and the second connector, is configured to generate a regulated voltage based on the vehicle power output of the vehicle diagnostic port. The regulated voltage is provided to power the data processing system. | 03-05-2009 |
20090077296 | Portable computer systems with thermal enhancements and multiple power modes of operation - A portable computer adapted for electrical connection to a docking station having multiple power modes of operation is described. The portable computer has one or more CPU chips which have at least two power modes of operation, a low power mode and a high power mode. When the portable computer is operated as a stand-alone computer, it operates in the low power mode. When the portable computer is operated while electrically connected to the docking station, it operates in a high power mode. The docking station has greater cooling capacity than the portable computer alone to provide enhanced cooling of the high power mode of operation. | 03-19-2009 |
20090113105 | Method of operation of a portable computer apparatus with thermal enhancements and multiple modes of operation - A portable computer adapted for electrical connection to a docking station having multiple power modes of operation is described. The portable computer has one or more CPU chips which have at least two power modes of operation, a low power mode and a high power mode. When the portable computer is operated as a stand-alone computer, it operates in the low power mode. When the portable computer is operated while electrically connected to the docking station, it operates in a high power mode. The docking station has greater cooling capacity than the portable computer alone to provide enhanced cooling of the high power mode of operation. | 04-30-2009 |
20090113106 | Method of fabrication of a portable computer apparatus with thermal enhancements and multiple modes of operation - A portable computer adapted for electrical connection to a docking station having multiple power modes of operation is described. The portable computer has one or more CPU chips which have at least two power modes of operation, a low power mode and a high power mode. When the portable computer is operated as a stand-alone computer, it operates in the low power mode. When the portable computer is operated while electrically connected to the docking station, it operates in a high power mode. The docking station has greater cooling capacity than the portable computer alone to provide enhanced cooling of the high power mode of operation. | 04-30-2009 |
20090119435 | Portable computer systems with thermal enhancements and multiple power modes of operation - A portable computer adapted for electrical connection to a docking station having multiple power modes of operation is described. The portable computer has one or more CPU chips which have at least two power modes of operation, a low power mode and a high power mode. When the portable computer is operated as a stand-alone computer, it operates in the low power mode. When the portable computer is operated while electrically connected to the docking station, it operates in a high power mode. The docking station has greater cooling capacity than the portable computer alone to provide enhanced cooling of the high power mode of operation. | 05-07-2009 |
20090119436 | Portable computer systems with thermal enhancements and multiple power modes of operation - A portable computer adapted for electrical connection to a docking station having multiple power modes of operation is described. The portable computer has one or more CPU chips which have at least two power modes of operation, a low power mode and a high power mode. When the portable computer is operated as a stand-alone computer, it operates in the low power mode. When the portable computer is operated while electrically connected to the docking station, it operates in a high power mode. The docking station has greater cooling capacity than the portable computer alone to provide enhanced cooling of the high power mode of operation. | 05-07-2009 |
20090125662 | Switch having integrated connectors - A switch having integrated connectors for connecting to computers has a casing, multiple peripheral ports, at least two integrated connectors and a switch unit. The peripheral ports are mounted on the casing and are for connecting respectively to multiple corresponding peripheral devices. Each integrated connector is a peripheral component interconnect express type connector and is for connecting one-to-one to a corresponding computer. The switch unit is mounted in the casing and is connected between the integrated connectors and the peripheral ports to allow a user to select one computer to be connected to the peripheral devices at a time. | 05-14-2009 |
20090198855 | IC FOR HANDHELD COMPUTING UNIT OF A COMPUTING DEVICE - An IC includes a processing module, on-chip memory, one or more block input/output (I/O) interfaces for coupling to one or more off-chip block I/O devices, one or more character I/O interfaces for coupling to one or more off-chip character I/O devices when active, a main memory interface for coupling to off-chip main memory, a baseband processing module, an RF section, a processing module interface, and an IC bus structure. The processing module interface couples the processing module to an off-chip connection structure, wherein, when a handheld computing unit that includes the IC is docked to an extended computing unit, the off-chip connection structure couples the handheld computing unit to the extended computing unit such that the IC is in a docked mode. | 08-06-2009 |
20090307404 | APPLIANCES FOR HEATING AND COOLING LIQUIDS - It has been proposed in the past to provide a series of different cordless appliances, any one of which will fit onto a docking station or base unit from which power is supplied. The invention provides a data connection ( | 12-10-2009 |
20090327561 | SMART DOCKING SYSTEM - A smart docking system is provided by a portable electronic device that is adapted to dock with a media player shuttle. When docked, the media player shuttle adds the capability for rendering media content that is stored on the shuttle to the native functionality that is supported by the portable electronic device. The native functionality may vary, and may include that provided by a digital camera or handheld game device, for example. The media player shuttle includes storage for media content such as audio and video and a digital media processing system, but does not include a display screen or user controls. Instead, the display screen and user controls are provided by the portable electronic device when the shuttle is docked. | 12-31-2009 |
20100036991 | APPARATUS AND METHOD FOR DOCKING OF MOBILE DEVICE SUPPORTING DOCKING STATION - An apparatus and method for docking of a mobile device supporting a docking station are provided. The apparatus includes a connection detector, an undock execution unit, and a hotdock execution unit. The connection detector performs a function for transitioning to a hotdock mode. The undock execution unit performs a function for transitioning from the hotdock mode to an undock mode. The hotdock execution unit performs a function for transitioning from the undock mode to the hotdock mode. | 02-11-2010 |
20100042770 | EXPANSION INTERFACE MODULE HAVING PROTECTION CIRCUIT - An expansion interface module having protection circuit disposed on a front-side case panel and electrically connected to a main board. The expansion interface module includes a circuit board, a plurality of connectors, a protective element, and a connecting port. The connectors, protective element and the connecting port are electrically connected to the circuit board. The protective element is a semiconductor element. The protective element and the circuit board form a protection integrated circuit. One side of the main board is connected to a bus line. The bus line is inserted in the connecting port to provide electrical connection between the circuit board and the main board. Through this configuration, when an external device experiences abnormal operations, the protective element of the expansion interface module shields the resulting over current and signal spikes from entering and damaging the main board. | 02-18-2010 |
20100217912 | DOCKABLE HANDHELD COMPUTING DEVICE WITH GRAPHICAL USER INTERFACE AND METHODS FOR USE THEREWITH - A handheld computing device includes a handheld memory for storing at least one handheld application. A handheld processing module executes the handheld application. A physical docking interface facilitates co-processing with an extended processing module of an extended computer unit in a physical docked mode, when the handheld computing unit is coupled to the extended computer unit via the physical docking interface. A quasi docking interface facilitates co-processing with the extended processing module in a quasi docked mode when the handheld computing unit is coupled to the extended computer unit via the quasi docking interface. A graphical user interface presents a selectable quasi docking interface graphic for display to a user and responds to a user selection of the selectable quasi docking interface graphic by generating a quasi docking command. The quasi docking interface couples the handheld computing unit to the extended computing unit in response to the quasi docking command. | 08-26-2010 |
20100250817 | SYSTEM AND METHOD OF MANAGING DATA COMMUNICATION AT A PORTABLE COMPUTING DEVICE AND A PORTABLE COMPUTING DEVICE DOCKING STATION - A method of managing telephone calls via a portable computing device (PCD) and a PCD docking station is disclosed and may include receiving a call via the PCD, determining whether the PCD is docked with the PCD docking station, and ringing the call through one or more PCD docking station speakers when the PCD is docked. Moreover, the method may include displaying caller identification information at a PCD docking station display. The method may also include determining whether the call is answered through a headset or the PCD docking station, connecting the call through the headset, connecting the call through the PCD docking station, and providing full duplex calling through the one or more PCD docking station speakers and a PCD docking station microphone. | 09-30-2010 |
20100250818 | SYSTEM AND METHOD OF PROVIDING WIRELESS CONNECTIVITY BETWEEN A PORTABLE COMPUTING DEVICE AND A PORTABLE COMPUTING DEVICE DOCKING STATION - A portable computing device (PCD) docking station is disclosed and may include an upper housing portion, a lower housing portion hingedly connected to the upper housing portion, and a PCD engagement mechanism formed in the lower housing portion, the upper housing portion, or a combination thereof, wherein the PCD engagement mechanism is configured to removably engage a PCD when the PCD is docked with the PCD docking station. Further, the portable computing device may include a wired dock connection formed in the lower housing portion, the upper housing portion, or a combination thereof. The wired dock connection may be configured to provide connectivity between the PCD and the PCD docking station. | 09-30-2010 |
20100287321 | COMPUTER DOCK PROVIDING FOR DISCONNECTING MEDIA FROM DOCKING PORT WHEN LOCK IS INSERTED - A computer dock has a lock slot and media on which driver code is encoded. When a lock is inserted into the slot, it causes a switch to open so as to disconnect the media from a docking port of the dock. When the lock is not inserted into the slot, the media is connected to the docking port. | 11-11-2010 |
20100287322 | Computer System With Peripheral Modules Attached To A Display/cpu Assembly - A modular computer includes a display with a docking station on its back side. A CPU module connects to the docking station. Peripheral modules connect with the resulting display/CPU assembly so that the peripheral modules contact the back side of the display screen. | 11-11-2010 |
20100312938 | PORTABLE ELECTRONIC DEVICE HOLSTER WITH GUIDED DOCKING STATION - A holster provides a carrier for removable storing a portable electronic device, such as a cellular phone, PDA or MP3 player, and a fastener for securing the carrier to the user's clothing or bag. The holster includes a docking station inside the carrier and a pair of guide rails extending from the docking station to guide a device into electrical contact with the docking station. The docking station and rails are preferably pivotally mounted to the carrier to that they can be pivoted for convenient and easy insertion and removal of a device from aligned contact with the docking station. The dock equipped holster can then provide several power supply options for the user, including solar cells along an exterior surface of the carrier, wireless charging tags or pass through power cord ports, as well as data port and audio port pass through. | 12-09-2010 |
20100318710 | Docking Station - A docking station for a computing device can include an interface for electrically connecting the docking station to a computing device. The interface may supply power from a power supply. The docking station can include a surface for attaching a pin, wherein the location of the pin prevents a computing device from electrically connecting to the docking station if the computing device is not compatible. | 12-16-2010 |
20110004717 | DOCKING SYSTEM - First and second portions of a docking system are releasably connected with one another using at least one latch mechanism that can be reusably released either from the first portion of the docking system or from the second portion of the docking system. | 01-06-2011 |
20110035525 | System for Maintaining Large Numbers of Handheld Electronic Devices - A system for maintaining a large number of Handheld Electronic Devices (HEDs) includes a drawer having a divider structure configured to define compartments that are sized to hold the HEDs while the HEDs are stored in the drawer. A 20 port USB hub is provided in the drawer so that 20 HEDs may be connected to the USB hub while stored in the drawer. The USB hub allows the HEDs to be charged at a low rate while being synchronized with a computer and at a high rate when not being synchronized. The USB hub is designed using a tree structure of available USB hub chips to enable a larger number of USB ports. A microcontroller is provided to control the manner in which the computer is allowed to recognize the HEDs connected to the USB ports. | 02-10-2011 |
20110055447 | DOCKING SYSTEM FOR MEDICAL DIAGNOSTIC SCANNING USING A HANDHELD DEVICE - A docking system Including a clocking assembly which is able to surround and at least partially protect a handheld device such as a PDA or a smartphone, on In particular an IPhoπe, as made by Apple Inq, whilst providing means for connection of a probe unit to the handheld device. The probe unit has a data acquisition function. | 03-03-2011 |
20110099316 | Dock-Specific Display Modes - In general, the subject matter described in this specification can be embodied in methods, systems, and program products. A mobile computing device is determined to have electrically coupled by physical contact with a docking system that is adapted to supply electrical power for charging the mobile computing device. The docking system is determined to be a first type of docking system from a plurality of types of docking systems. A first user interface profile that corresponds to the first type of docking system is selected from among a plurality of user interface profiles. Each of the plurality of user interface profiles corresponds to a respective type of docking system from the plurality of types of docking systems. The first user interface profile is presented by the mobile computing device in response to selection of the first user interface profile. | 04-28-2011 |
20110131358 | Wireless Communication with a Dock - In general, the subject matter described in this specification can be embodied in methods, system and program products. A mobile computing device determines that the mobile computing device has physically paired with a docking system. Wireless communication between the mobile computing device and the docking system is automatically established in response to said determining that the mobile computing device has physically paired with the docking system. Data that encodes an audio signal is transmitted, by the mobile computing device and to the docking system as part of the wireless communication, so as to cause speakers of the docking system to audibly output the audio signal from the mobile computing device. | 06-02-2011 |
20110145466 | MOBILE DEVICE DOCK WITH PROGRAMMABLE BUTTONS - A docking station for a handheld computer is provided. The docking station is installed in a wall and has multiple buttons that can send command signals to the handheld computer. The buttons could be programmed to provide a variety of different signals to the handheld computer, but generally allow a user to operate and manage the computer while it is docked. The docking station can also receive commands or other signals from the handheld computer and increase the functionality of the computer, for example by projecting a movie onto a screen, by transmitting music to a remote speaker or by connecting the computer to a network. In some embodiments, multiple docking stations could be networked together to allow for a dramatic increase in the functionality of the computer. | 06-16-2011 |
20110302348 | CLOUD COMPUTER - A cloud computer includes a base, a host, and a battery, in which the host includes a motherboard, a memory connected to the motherboard, and a base connector connected to the motherboard, and the base includes a host connector corresponding to the base connector of the host, and a plurality of input/output ports to connect to peripherals. The battery is mounted on the host and connects to the motherboard to provide electronic power to the motherboard, and the host is detachably connected with the base. | 12-08-2011 |
20120084481 | AUTO-WAKING OF A SUSPENDED OS IN A DOCKABLE SYSTEM - A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a secondary terminal environment. The desktop operating system may be suspended when the mobile computing device is not docked with a secondary terminal environment and resumed when the mobile computing device is docked with a secondary terminal environment that provides a desktop computing experience. The mobile computing device may be a smartphone running the Android mobile OS and a full desktop Linux OS distribution on a modified Android kernel. | 04-05-2012 |
20120096208 | METHOD AND SYSTEM FOR RECORDING ANALOG AUDIO FROM A VINYL RECORD TURNTABLE TO A HANDHELD COMPUTING DEVICE - A turntable with a dock for handheld computing devices is disclosed. The turntable includes a housing having a record player with an analog output. An analog-to-digital converter has an analog input operatively connected to the analog output and a digital output. A serial interface device is operatively connected to the digital output of the analog-to-digital converter. A moveable dock connected to the housing is configured and arranged to support a handheld computing device therein. | 04-19-2012 |
20120151112 | System and Method for Mapping a Logical Drive Status to a Physical Drive Status for Multiple Storage Drives Having Different Storage Technologies within a Server - An information handling system includes a cable, a backplane, and a processor. The cable is connected to a storage controller of the information handling system. The backplane is configured to connect a drive to the information handling system. The processor is in communication with the cable and with the backplane. The processor is configured to detect a presence of the drive, to output a pulse in response to the detection of the presence of the drive, to determine a first storage technology of the drive in response to the output pulse, to determine a second storage technology of the storage controller, to determine whether there is a misconfiguration between the first storage technology and the second storage technology, and to generate a notification when the misconfiguration is determined. | 06-14-2012 |
20120233369 | DOCK FOR PORTABLE DEVICES - Another embodiment of the invention provides a dock for connecting to a portable device. The dock includes a charging module, a backup program and a controller. The controller controls the dock to operate at a first mode or a second mode. When the dock operates at the first mode, the controller controls the charging module to charge the portable device, and when the dock operates at the second mode, the controller controls the charging module to charge the portable device and the backup program is executed to backup data of the portable device simultaneously. | 09-13-2012 |
20120303852 | METHOD OF CONNECTING MASS STORAGE DEVICE - Method for connecting mass storage device(s) with data connection device(s) connecting to data port(s) with the same data interface type(s) as that of the mass storage device(s) for data transmission and with power connection device(s) connecting to power port(s), for power supply, on a bus of technologies with power management capabilities and facilities in computer-related or computer-controlled or operating-system-controlled machines or devices for using and swapping the mass storage device(s). | 11-29-2012 |
20120324135 | CUSTOMIZED SETTINGS FOR DOCKING STATION FOR MOBILE DEVICE - Embodiments disclose a docking station that may include a transmitter to send an identifier associated with the docking station to a mobile device proximate to the docking station, and a receiver to receive settings from the mobile device. The settings may be based on the identifier associated with the docking station, and the settings specify at least one of a ring volume, a ringtone, or a list of contacts. The docking station may also include a processor to interpret the settings so that the docking station performs according to the settings. | 12-20-2012 |
20130042042 | Synchronization Of Data Between An Electronic Computing Mobile Device And An Electronic Computing Dockstation - Methods, apparatuses, and computer program products are provided for synchronization of data between an electronic mobile device and an electronic computing dockstation. Embodiments include detecting, by the dockstation, completion of a docking procedure connecting the mobile device to the dockstation; identifying, by the dockstation, applications that are open on the mobile device; opening, by the dockstation, the identified applications on the dockstation; identifying, by the dockstation, files that are open on the mobile device; syncing, by the dockstation, the identified files with corresponding files within the dockstation, including updating an existing file within the dockstation; and opening on the dockstation, by the dockstation, the synced files with the open applications on the dockstation. | 02-14-2013 |
20130054863 | Resource Manager, System And Method For Communicating Resource Management Information For Smart Energy And Media Resources - According to an aspect of the disclosure, a resource management platform, system and method of communicating resource management information for smart energy and media resources is provided. A resource management platform can include an interface configured to communicate media management information and energy management information. The resource management platform also includes a processor configured to detect an incoming communication to alter an operating condition in response to receiving the media management information or the energy management information. The processor can further be configured to initiate an output of media content in response to detecting media management information, and initiate altering an operating status of a device in response to detecting the energy management information. The processor can also initiate storing at least a portion of the media content and the energy management information within a memory. | 02-28-2013 |
20130080676 | Wireless Data Input System - A data input system includes a wireless keyboard and docking station, which can be connected to a computer system. When the keyboard and docking station are mechanically connected, the docking station is configured automatically to generate a new pairing code or key that is different to a previously-generated one. This new code/key is then transmitted back to the keyboard over a wireless control link and the keyboard and docking station then set up a paired data channel over which data from the keyboard is transmitted wirelessly to the docking station, and so the computer system. When a new mechanical connection is made, e.g. using the same or a different keyboard, the process repeats so that a new pairing code or key is generated, thus avoiding interference with other keyboard(s) that were previously paired with the same docking station. | 03-28-2013 |
20130111097 | DOCKING STATION | 05-02-2013 |
20130117488 | REMOVABLE MEMORY CARTRIDGE AND DOCKING STATION COMPATIBLE WITH MEDIA DRIVE EXPANSION SLOTS - A system for data storage including a removable memory element having a data storage device, and a docking station in communication with a host device and configured for receiving the removable memory cartridge so as to put the host system in communication with the data storage device. | 05-09-2013 |
20130254446 | Memory Management Method and Device for Distributed Computer System - A method and a device for managing memories in a node are provided. The method includes: setting an appointed memory module in a slave node as a key memory module, setting, in a primary node, a mirror memory module of the key memory module, where same data is stored in the key memory module and the mirror memory module; and implementing hot swap processing of the slave node or the key memory module by using the mirror memory module. In the embodiments of the present invention, mirroring is formed by the key memory module in the slave node and the mirror memory module in the primary node, and the hot swap processing of the slave node or the key memory module is implemented by using the mirror memory module. Thus hot swapping of a single memory module is supported. | 09-26-2013 |
20130268709 | METHODS AND SYSTEMS FOR REMOVAL OF INFORMATION HANDLING RESOURCES IN A SHARED INPUT/OUTPUT INFRASTRUCTURE - One or more chassis management controllers may be configured to receive a user indication of a user desire to physically remove a modular information handling resource from a chassis, determine whether the modular information handling resource is shared or nonshared with respect to modular information handling systems present in the chassis, determine whether the modular information handling systems associated with the modular information handling resource are powered on, receive at least one response to one query to the user regarding at least one user preference regarding removal of the modular information handling resource, and determine if the information handling resource may be safely removed based at least on: the determinations of whether the information handling system resource is shared or nonshared and whether the modular information handling systems present in the chassis and associated with the modular information handling resource are powered on, and the at least one response. | 10-10-2013 |
20130326104 | METHODOLOGY FOR USING SMARTPHONE AND MOBILE COMPUTER IN A MOBILE COMPUTE ENVIRONMENT - Embodiments of the present invention may be directed to an apparatus comprising a user interface docking device. The user interface docking device may include a first dock connector, a second dock connector, a battery, and a built-in keyboard. The first dock connector is operable to create a pairing between the user interface docking device and a wireless computing device. The second dock connector is operable to create a pairing between the user interface docking device and a mobile computer. The wireless computing device and mobile computer, when paired, are operable to combine resources for execution of tasks. The user interface docking device is operable to interact with content on the wireless computing device and the mobile computer. The apparatus may also include an inductive charging pad operable to facilitate a pairing between the number of peripheral units and user interface docking device via a near-field wireless connection. | 12-05-2013 |
20130332641 | Modular Docking Station for Enclosing Mobile Devices - A modular docking station for receiving a mobile device is disclosed. The docking station includes a base component having a plurality of modular apertures configured to receive hardware to perform a specific function. The docking station also includes a receiving component having a protective enclosure configured to receive and protect the mobile device in from environmental containment. The docking station further includes a coupler for coupling the receiving component to the base component. | 12-12-2013 |
20130332642 | METHOD AND SYSTEM FOR USING A STANDARD CONNECTOR TO DELIVER DISPLAY, DATA AND POWER - A system and method for providing a docking station that supports bi-directional high speed data, high bandwidth display, and power to a computing device utilizing a standard connector on the computing device are described. This includes a standard connector on the computing device including a standard digital display connector having a first set of two lanes and a second set of two lanes, a USB host that provides USB signals that enable bi-directional high speed data, a digital display source that provides digital display signals that enable high bandwidth display and couples digital display signals to the digital display connector on the second set of lanes, a multiplexor that receives signals from the USB host, receives signals from the digital display source, and couples the USB signals to the digital display connector on the first set of lanes, and a power subsystem that receives power via the digital display connector. | 12-12-2013 |
20130346662 | USING A PCI STANDARD HOT PLUG CONTROLLER TO MODIFY THE HIERARCHY OF A DISTRIBUTED SWITCH - The standard hot-plug controller (SHPC) specification may be used to generate PCI messages in a distributed switch to disconnect and/or connect virtual hierarchies of an endpoint from hosts that are connected based on multi-root input/output virtualization (MR-IOV). A management controller may instruct a SHPC to generate a PCI packet that specifies a particular virtual hierarchy to disconnect from a particular host. An upstream port connected to the host and the SHPC receives the PCI packet and uses a header that identifies the virtual endpoint in the packet to index into a routing table to identify a downstream port in the distributed switch that is connected to the endpoint. Once the PCI packet traverses the switch and arrives at the downstream port, the downstream port changes routing logic which logically disconnects the host from the specified virtual hierarchy. | 12-26-2013 |
20140181347 | DOCKING ASSEMBLY FOR A HANDHELD DEVICE - A docking assembly for docking a handheld device thereto is provided. The docking assembly includes a cradle for receiving the handheld device, and a handle adjacent to the cradle and reciprocally movable inwardly and outwardly relative to the cradle between an open and a position. The handle has a handle interface facing a corresponding device interface of the handheld device when the handheld device is placed in the cradle. The handle interface has a pair of alignment projections and a handle data connector connectable to a device data connector of the handheld device, the alignment projections being engageable with complimentary alignment cavities of the handheld device. The docking assembly further includes a displacement mechanism configured such that, as the handle moves toward the closed position, the alignment projections progressively engage the alignment cavities and guide the handle and device data connectors toward each other for connection therebetween. | 06-26-2014 |
20140317329 | Docking Connector Platform For Mobile Electronic Devices - Docking platforms formed in one of the largest-surface-area surfaces of mobile electronic devices. Such a docking platform may comprise a docking accessory cavity having a docking connection system comprising one or more docking connectors formed within the cavity, and optionally two or more electrical contacts within the cavity, the contacts electrically connected to electronics within the electronic device and constructed and arranged to allow electrical connection to detachable docking accessories. The docking connection system is operable to form detachable attachments to multiple independent docking accessories simultaneously. The cavities of the docking platforms are shaped to accommodate a broad range of docking accessories that are specially adapted to sit in a generally flush manner with the back surface of the mobile electronic device while attached to the docking connectors. One type of accessory forms an assembly with an expandable accordion attached to the docking platform. | 10-23-2014 |
20140325113 | Smartphone Dock Reminder for Vehicles - A system and method for reminding a user to dock a mobile device in a docking apparatus within a vehicle are provided. A docking apparatus includes: one or more sensors for determining whether an object is present in the docking apparatus; and at least one of speakers, a vibration mechanism, and one or more display indicators for reminding a user to place the mobile device in the docking apparatus when the one or more sensors determine that an object is not present in the docking apparatus. A system includes the docking apparatus and a mobile device. The method includes receiving an indication that the vehicle ignition is turned on; determining whether the mobile device is in a docking apparatus; and reminding the user to dock the mobile device in the docking apparatus. | 10-30-2014 |
20140359188 | Modular Docking Station for Enclosing Mobile Devices - A modular docking station for receiving a mobile device is disclosed. The docking station includes a base component having a plurality of modular apertures configured to receive hardware to perform a specific function. The docking station also includes a receiving component having a protective enclosure configured to receive and protect the mobile device in from environmental containment. The docking station further includes a coupler for coupling the receiving component to the base component. | 12-04-2014 |
20140365701 | INFORMATION PROCESSING APPARATUS AND CONTROL METHOD - According to one embodiment, an information processing apparatus includes a first logic circuit, a second logic circuit and a controller. The first logic circuit selectively supplies either the detection signal indicating the connection of the external display to a first connector or the detection signal indicating the connection of the external display to a second connector on an extension unit to the input/output port. The second logic circuit switches between supplying the detection signal to the input/output port and cutting off the detection signal to the input/output port. The controller controls the second logic circuit to cut off the supply of the detection signal to the input/output port for a first period when the extension unit is attached or detached. | 12-11-2014 |
20150026378 | METHODS AND SYSTEMS FOR REMOVAL OF INFORMATION HANDLING RESOURCES IN A SHARED INPUT/OUTPUT INFRASTRUCTURE - One or more chassis management controllers may be configured to receive a user indication of a user desire to physically remove a modular information handling resource from a chassis, determine whether the modular information handling resource is shared or nonshared with respect to modular information handling systems present in the chassis, determine whether the modular information handling systems associated with the modular information handling resource are powered on, receive at least one response to one query to the user regarding at least one user preference regarding removal of the modular information handling resource, and determine if the information handling resource may be safely removed based at least on: the determinations of whether the information handling system resource is shared or nonshared and whether the modular information handling systems present in the chassis and associated with the modular information handling resource are powered on, and the at least one response. | 01-22-2015 |
20150134869 | DOCKING STATIONS FOR REMOTE CONTROL AND MULTIMEDIA DEVICES - A representative base unit for charging a remote controller and a multimedia device includes at least two docking stations for a remote controller and a multimedia device, wherein the at least two docking stations having charging slots that transfer power to the remote controller and the multimedia device for recharging; and a processing device that is electrically coupled to the docking stations for communicating with the remote controller and the multimedia device, wherein the processing device facilitates communication between the remote controller and the multimedia device. | 05-14-2015 |
20150149679 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR MANAGING CONCURRENT CONNECTIONS BETWEEN WIRELESS DOCKEE DEVICES IN A WIRELESS DOCKING ENVIRONMENT - Method, apparatus, and computer program product embodiments enable a wireless docking center device to manage one or more wireless and/or wired peripheral devices on behalf multiple wireless dockee devices. An example embodiment of the invention includes receiving, by a wireless docking center device, at least two request messages for peripheral functions from at least two wireless dockee devices, including a first request message for a peripheral function from a first wireless dockee device, and a second request message for a peripheral function from a second wireless dockee device; and allocating, by the wireless docking center device, the requested peripheral function to the first wireless dockee device, based on determining at least a characteristic of the first request message indicates that the first wireless dockee device is entitled to the peripheral function. | 05-28-2015 |
20150293876 | WIRELESS DOCKING WITH MULTIPLE WIRELESS DOCKING CENTERS - In one example, a computing device is configured to operate as a first wireless docking center, the computing device comprising one or more processors configured to determine the computing device is proximate to a second wireless docking center; and in response to determining the computing device is proximate to the second wireless docking center, configure the computing device to communicate with the second wireless docking center via a wireless communication channel. | 10-15-2015 |
20150309956 | DATA TERMINAL, DATA TRANSMISSION SYSTEM, AND HOT SWAPPING CONTROL METHOD - The present invention discloses a data terminal, a data transmission system, and a hot swapping control method. The data terminal includes a first processor, a first digital audio circuit, an interface isolator, a first USB circuit, and a first connecting apparatus, where the first connecting apparatus includes a first digital audio connecting apparatus and a first USB connecting apparatus. An initial status of the interface isolator is controlled by using a hot swapping feature of the first USB circuit, so that voice data transmission is performed between the first processor and a computer by using the first digital audio circuit and the first digital audio connecting apparatus, and the first digital audio circuit has the hot swapping feature when the first digital audio circuit is applied to the data terminal. | 10-29-2015 |
20150338881 | MECHANISM FOR CHARGING PORTABLE DEVICE WITH USB DOCK - A Universal Serial Bus (USB) dock is provided. The USB dock includes: a plurality of downstream ports; and a upstream port, connecting the USB dock to a portable device, wherein the upstream port includes an On-the-go (OTG) ID pin and a differential pair; and a microcontroller, configured to detect operating states of the portable device, wherein when it is detected that the portable device is in a USB OTG host mode and has entered a suspend state, the microcontroller controls the portable device to switch from the USB OTG host mode to a USB device mode by toggling a state of the USB OTG ID pin, thereby charging the portable device via the upstream port. | 11-26-2015 |
20150355679 | PORTABLE DEVICE AND PERIPHERAL EXTENSION DOCK - An electronic device including a housing, a connector port and a switching device is provided. The connector port is embedded in the housing for a peripheral device inserted therein to electrically connect thereto. The processor is electrically connected to the connector port and comprises a detection pin and a 1-wire pin. The switching device is coupled between the connector port and the processor to selectively connect the connector port to one of the detection pin or the 1-wire pin. When the peripheral device is inserted into the connector port, the processor controls the switching device to connect the connector port to the detection pin to determine whether the connected peripheral device is a 1-wire device. When the processor determines that the connected peripheral device is a 1-wire device, the processor controls the switching device to connect the connector port to the 1-wire pin and the processor executes 1-wire communication with the peripheral device via the 1-wire pin. | 12-10-2015 |
20150357811 | HOT PLUG DEVICE PROVIDING TURN ON FETS WITH A SOFTSTART CAPABILITY - A method of controlling the inrush current to a hot plug device. The method includes directing current from an input power rail of the hot plug device to an output power rail of the hot plug device through a high impedance auxiliary current path, wherein an electronic subsystem of the hot plug device is coupled to the output power rail. The method further includes allowing current from the input power rail to pass through a plurality of main turn on FETs to the output power rail in response to the output power rail having a voltage that exceeds a voltage threshold as a result of directing current through the high impedance auxiliary current path. | 12-10-2015 |
20150363348 | AUTOMOBILE ADAPTOR SYSTEM, APPARATUS AND METHODOLOGY - An adapter for an electronic device usable in an automobile. The adapter includes a master dock with a port for a device-specific interface, and a device plug. The master dock interfaces with the automobile through an electronic communication connection, for example, USB. The master dock receives the device-specific interface to allow use of the adapter with various electronic devices. For example, device-specific interfaces may be provided for iPhones, Android phones, Windows phones, iPads, Nexus tablets, or virtually any other mobile electronic device. The device-specific interface receives the electronic device via a properly-positioned port, which connects the electronic device via the master dock to charging and/or data communication ports without use of a cable cord. Concomitantly, the automobile or vehicle has a variety of screens and/or consoles through which the user can view information from a smart phone, tablet or like device through said adaptor. Further, the windows of the vehicle, as well as the screens/consoles may incorporate therein or thereon touchscreen capability, whereby the user can interact, such as through the Internet or other network, to remote material and other users | 12-17-2015 |
20160004281 | DRIVER DEVICE DETECTION - A device dock of a vehicle may receive a one-time key over a data connection between the device dock and a vehicle computing system (VCS), and send the one-time key over a location-identifying connection to a nomadic device placed within proximity to the dock, to cause the nomadic device to send the one-time key to the VCS to integrate with the VCS as a driver device. The VCS may receive, from a nomadic device in a device dock, via a data connection between the VCS and the nomadic device, a one-time key provided from the VCS to the device dock over a data connection between the VCS and the device dock, and responsive to receipt of the one-time key from the nomadic device, integrate the nomadic device with the VCS as a driver device. | 01-07-2016 |
20160011885 | USB HUB | 01-14-2016 |
20160031514 | ELECTRIC BICYCLE - A bicycle includes a computing device including a processor and a memory. The processor is programmed to communicate with a user input device of a vehicle when the bicycle is docked to the vehicle. The processor is programmed to communicate with a mobile device when the bicycle is undocked from the vehicle. | 02-04-2016 |
20160062403 | ELECTRONIC LOCKING MECHANISM FOR A DOCKING STATION - A docking station for a patient monitoring device and method of locking the patient monitoring device in the docking station is provided. A housing selectively supports a patient monitoring device thereon and a first port positioned on the housing receives a patient monitoring device therein. A sensor senses one of a presence and absence of the patient monitoring device within the first port. A locking mechanism mechanically locks the patient monitoring device within the first port, wherein the locking mechanism maintains the docking station and patient monitoring device in a mechanically locked state in response to sensing the presence of the patient monitoring device within the first port. | 03-03-2016 |
20160077549 | MASS STORAGE DEVICE OPERATION - Activation of a release button is detected, where the release button is to separate a tablet computing device from a docking station while a mass storage device of the docking station is performing an operation. In response to the detection, power is maintained to the mass storage device from a battery of the docking station to complete the operation. | 03-17-2016 |
20160085713 | APPARATUS, SYSTEM AND METHOD OF WIRELESS DOCKING - Some demonstrative embodiments include an apparatus, method and/or system of wireless docking. For example, a docking device may include a radio to communicate with a mobile device; and a docking controller to instruct one or more user interface devices to output a docking interface, to receive one or more docking instructions via the docking interface, and, based on the docking instructions, to connect the user interface devices as peripheral devices to the mobile device via a wireless communication link between the radio and the mobile device. | 03-24-2016 |
20160091926 | DOCKING APPARATUS AND SYSTEMS FOR MOBILE COMPUTING DEVICES - Disclosures are presented for systems and apparatus for docking a mobile computing device for display and for coupling it with a cable for purposes of charging and/or syncing. Such teachings may allow a user to reel the cable around a spool, couple the mobile computing device with the cable, decouple the mobile computing device, and/or swivel the mobile computer in its stand with relative ease, such as with a single hand, through the use of micro-suction cups. Disclosures are made about how the cable may be threaded through and secured by such systems and apparatus. Additional disclosures teach approaches for standing the mobile computer in its dock and for making accommodating adjustments to such a stand to provide adaptability across a range of mobile computer configurations, among other disclosures. | 03-31-2016 |
20160124463 | SYSTEM FOR CONTROLLING PERIPHERALS CONNECTED TO A DOCKING STATION - A method for determining which of a plurality of mobile devices connected to the docking station is permitted to control the peripherals involves the docking station determining whether a new mobile device is connected to an input port of the docking station, and, if so, whether the new mobile device is capable of controlling any of the peripherals connected to the docking station. If it is determined that the new mobile device is not capable of controlling any of the peripherals, the docking station determines that the new mobile device is to be connected as a peripheral. If it is determined that the new mobile device is capable of controlling one or more of the peripherals, the docking station determines whether an existing mobile device connected to the docking station has control of the peripherals as a host device, and, if so, determining which of the new mobile device or the existing mobile device has a higher priority to control the peripherals as the host device, and providing the determined host device access to control the peripherals. | 05-05-2016 |
20160147259 | ELECTRONIC DEVICE - One embodiment provides an electronic device including: a first unit; a first controller in the unit; a second unit; a second controller in this unit; and a transmitting buffer of update information of the second controller which is provided in the first unit, wherein the first controller obtains the update information from an external part and transmits the update information to the second controller from the transmitting buffer and the second controller carries out an updating operation in accordance with the update information. | 05-26-2016 |
20160195897 | MULTI-DEVICE DOCKING STATION | 07-07-2016 |