EP2062115A2 - Module de commande à distance d'ordinateur, interface, système et procédé correspondants - Google Patents

Module de commande à distance d'ordinateur, interface, système et procédé correspondants

Info

Publication number
EP2062115A2
EP2062115A2 EP07804211A EP07804211A EP2062115A2 EP 2062115 A2 EP2062115 A2 EP 2062115A2 EP 07804211 A EP07804211 A EP 07804211A EP 07804211 A EP07804211 A EP 07804211A EP 2062115 A2 EP2062115 A2 EP 2062115A2
Authority
EP
European Patent Office
Prior art keywords
computer
module
interface
remote
communication means
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP07804211A
Other languages
German (de)
English (en)
Inventor
David William Gilbert
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
POWERDESK INTERNATIONAL Ltd
Original Assignee
Powerdesk Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from GB0617583A external-priority patent/GB2443651A/en
Application filed by Powerdesk Ltd filed Critical Powerdesk Ltd
Publication of EP2062115A2 publication Critical patent/EP2062115A2/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/26Power supply means, e.g. regulation thereof

Definitions

  • the present invention relates to modules to provide functionality for a computer, to interfaces to interface between such a module and such a computer, and to methods and systems relating to such modules and interfaces.
  • Personal computers are widely used in both the office and home. Such personal computers may be situated on the desktop, or placed below the desk. Personal computers generally include mass data storage readers, such as CD readers, DVD readers, smart card readers, and/or memory card readers. Further, USB ports are also generally provided, which may connect the computer to one or more peripheral devices, such as CD readers, keyboard or mouse devices. A power button is provided, together with indicator lights providing an indication of the status of the personal computer and a built in hard disc drive within the personal computer.
  • the present invention seeks to overcome or ameliorate at least one problem associated with the prior art.
  • a remote control module for a computer.
  • the computer is a personal computer.
  • the module is freestanding and/or mobile.
  • the module is adapted to control at least one hardware function of the computer remotely.
  • the module is adapted to control the power state of the computer, and in an aspect the module comprises a remote on/off switch.
  • a user operable power control switch is provided.
  • a freestanding remote computer control module is provided.
  • a freestanding module may be a module that is separate from, e.g. not in the same unit as, and separately, independently movable with respect to the computer to which it corresponds.
  • the module includes data receiving means.
  • the data receiving means is a mass data storage reading means.
  • the data receiving means is chosen from DVD, DVD+R, DVD+R(W), CD, CDR, CDRW, USB, smart card reader, skype (RTM), firewire (RTM), audio in, blu-ray and HD DVD. More than one data receiving means may be provided.
  • data output means are also provided.
  • the data output means may include audio out, CDR, CDRW, DVD+R, DVD+RW, Blu-ray, skype, (RTM) firewire (RTM).
  • the data receiving means and output means may include the same device.
  • indicating means are provided, which provide an indication of an operating state of the computer.
  • an indicator shows the power state of the computer.
  • an indicator shows an active state of a Hard Disc Drive (HDD) of the computer.
  • the indicators are LEDs.
  • the indicators are chosen from a sound indicator, and a physically moving part or parts.
  • communication means is provided.
  • the communication means are configured to connect at least some of the features of the module to an interface coupleable to the computer.
  • the communication means is for receiving a signal from the power switch based on user input and transmitting the signal to an interface to control the power state of the computer.
  • the communication means is for receiving non-computer code signals from the switch.
  • the communication means is for transmitting data read from the mass data storage reading means to the computer.
  • the communication means is for receiving data to be written to the mass data storage and the reader is also a writer to the mass data storage.
  • the communication means is for receiving one or more signals representative of at least one operating state of the computer and output the one or more signals to the at least one indication means
  • the communication means comprises one or more cables.
  • the communication means comprises one or more wireless connections.
  • an interface for connection of a computer with a freestanding remote functionality module of the computer is provided.
  • a connector is provided to connect directly to two pins on a motherboard of the computer, electrical connection of the pins being required to provide power to the motherboard.
  • the power to the computer can be turned on by the interface, on receiving control from the module, even when the computer is not in standby mode, but the computer is completely powered down. A 'hard', or 'cold' start up of the computer can be effected.
  • the interface is built in to the motherboard of the computer.
  • the built-in interface includes a control to selectively provide power to the motherboard of the computer.
  • the connector is coupled to interface communication means to receive a signal from a remote module according to aspects of the invention, the signals indicating a desired power state of the computer.
  • one or more connectors are provided, which are coupled to interface communication means for receiving one or more signals representative of at least one operating state of the computer and transmitting the one or more signals to the remote module for output of an indicator signal at the remote module, hi an aspect, interface communication means are provided for receiving computer readable data from the remote module and providing the computer readable data to the computer, hi an aspect, interface communication means is provided for receiving computer readable data from the computer and transmitting the data to the remote module.
  • the interface communication means comprises one or more cables.
  • the interface communication means comprises one or more wireless connections.
  • the wireless connection is ultra- wide USB, which allows a data flow rate of up to IGbit/sec and operates on high bandwidth, low power, radio frequency transmission.
  • other wireless communication protocols and devices may be utilised in the device.
  • a module according to an aspect of the invention is connected to an interface according to an aspect of the invention.
  • an interface according to an aspect of the invention is coupled to a computer.
  • the module includes the computer keyboard and/or mouse, or other peripheral device.
  • the peripheral device signals to and from the computer are sent through the communication means within the module and interface.
  • the peripheral device may be connected to the computer via a USB port internal to the module, the signal from the USB port being transmitted to the interface and to the computer from the interface.
  • the module also incorporates a display device of the computer.
  • the monitor receives signals from the computer via the communication means in the module and interface.
  • the interface includes a graphics card interface to receive graphics signals from a graphics card in the computer and transmit those signals to the module, via the interface communication means, and the module includes a monitor connector for receiving the monitor signals, via the communication means, and passing them to the monitor within the module to control the output of the monitor.
  • the interface and module communication means include a cable to transmit the graphics signals to the module from the graphic card.
  • the module may be mounted to a wall, or otherwise.
  • a freestanding remote computer functionality module comprising a user operable power control switch configured to receive a user input regarding a desired power state of the computer and output non-computer code signal, and a communicating device coupled to the switch to receive the signal from the switch and transmit said signal to an interface mounted on the computer to control the power state of the computer.
  • a freestanding remote computer functionality module for the module comprising at least one mass data storage reader, coupled to read computer readable data from mass data storage media, a user operable hardware control switch, configured to receive a user input regarding a desired state of the computer and output a signal, a first communicating device section coupled to the switch to transmit signals received from the switch to an interface to control the power state of the computer, and a second communicating device section coupled to at least one mass data storage reader to transmit data read from the mass data storage reader to the computer.
  • a freestanding remote computer functionality module comprising a user operable power control switch configured to receive power control input from a user of the computer, at least one indicator, provided to indicate the state of at least one operating state of the computer, at least one communicating device coupled to the switch to receive a signal from the switch and transmit the signal to the computer to control the power state thereof, and coupled to the indicator to receive one or more signals representative of at least one operating parameter of the computer and output the one or more signals to the at least one indicator.
  • an interface for connection of a computer with a freestanding remote functionality module of the computer comprising an interface communicating device for receiving non-computer code signals received relating to a user input to control the power state of the computer, and a power controller coupled to the interface communicating device, adapted to directly connect to a motherboard of the computer, and to control the power state of the computer directly through the motherboard in response to the received signals.
  • an interface for connection of a computer with a freestanding remote functionality module of the computer comprising an interface communicating device coupled to the computer, and adapted to receive computer readable data from the remote module and provide the computer readable data to the computer, and to receive signals relating to a user input from a remote user operable switch to control the power state of the computer, and a power controller coupled to the interface communicating device and adapted to directly connect to a motherboard of the computer and control the power state of the computer directly through the motherboard in response to the received user input signals.
  • a remote computer control system comprising a freestanding remote computer functionality module and an interface adapted to connect the computer with the freestanding remote functionality module for a computer.
  • the module comprises a user operable power control switch configured to receive a user input regarding a desired power state of the computer and output a non-computer code signal, and a communicating device coupled to the switch to receive the signal from the switch and transmit the signal to an interface mounted on the computer to control the power state of the computer.
  • the interface comprises an interface communicating device adapted to receive non-computer code signals received relating to a user input to control the power state of the computer, and a power controller coupled to the interface communicating device, adapted to directly connect to a motherboard of the computer and control the power state of the computer directly through the motherboard in response to the received signals.
  • a freestanding remote computer functionality module comprising at least one mass data storage reader, mounted in the module, a first wireless communicating device section mounted in the module coupled to the data reader to transmit data read from the at least one mass data storage reader from the module to the computer, a remote power control switch a remote power indicator, a second wireless communicating device mounted in the module coupled to the remote power control switch and remote power indicator, to transmit instructions to the computer to control the motherboard of the computer directly based on user activation of the remote power control switch and to receive signals from the computer indicative of a power state of the computer.
  • a freestanding remote computer functionality module comprising at least one mass data storage reader, a remote power control switch, and a remote power indicator, mounted in the module, a cable socket coupled to the at least one mass data storage reader, the remote power control switch and the remote power indicator, the cable socket being adapted to receive a cable connected to the computer, to transmit from the cable socket data read from the at least one mass data storage reader and instructions to the computer to control the motherboard of the computer based on user activation of the remote power control switch, and to receive into the cable socket, and receive signals from the computer indicative of a power state of the computer.
  • a remote computer control system comprising a freestanding remote computer functionality module and an interface adapted to connect the computer with the freestanding remote functionality module, the module comprising a user operable power control switch configured to receive a user input regarding a desired power state of the computer and output a non- computer code signal, a power indicator and a communicating device coupled to the switch to receive the signal from the switch and transmit the signal to an interface mounted to the computer to control the power state of the computer, and coupled to the indicator, to receive one or more indicator signal from the interface mounted to the computer and control the power indicator based on the indicator signals, the interface comprising an interface communicating device adapted to receive non-computer code signals received relating to a user input to control the power state of the computer and to is adapted to receive the one or more indicator signals and transmit the indicator signals to the remote module and a power controller coupled to the interface communicating device, adapted to directly connect with a motherboard of the computer and control the power state of the computer directly through the motherboard in response to the received signals.
  • Figures 1 to 3 show freestanding remote functionality modules according to embodiments of the invention
  • Figures 4 and 5 show remote computer control interfaces according to embodiments of the invention
  • Figure 6 shows a remote computer control system according to an embodiment of the invention
  • Figure 7 shows a method of operation of the system of figure 6
  • Figure 8A shows a freestanding remote functionality module according to a further embodiment of the invention.
  • Figure 8B shows a freestanding remote functionality module according to a further embodiment of the invention.
  • Figure 9A shows a remote computer control interface according to a further embodiment of the invention.
  • Figure 9B shows a remote computer control interface according to a further embodiment of the invention.
  • Figure 10 shows a freestanding remote functionality module according to a further embodiment of the invention.
  • Figure 11 shows a remote computer control interface according to a further embodiment of the invention.
  • Figure 1 shows, in a first embodiment of the invention, a freestanding remote functionality module 100 for a computer, the module comprising a hardware control switch 110 for receiving a user input 112 regarding a desired hardware state of the computer, and a communicating device 150 coupled to the switch 110 to receive a hardware control signal 114 from the switch 110 and transmit said hardware control signal 114a to an interface mounted on the computer to control the hardware of the computer.
  • a hardware control switch 110 for receiving a user input 112 regarding a desired hardware state of the computer
  • a communicating device 150 coupled to the switch 110 to receive a hardware control signal 114 from the switch 110 and transmit said hardware control signal 114a to an interface mounted on the computer to control the hardware of the computer.
  • FIG. 2 shows a second embodiment of the invention.
  • a freestanding remote functionality module 200 for a computer is provided.
  • the module 200 comprises at least one mass data storage reader 220, coupled to read computer readable data from mass data storage units, at least one hardware control switch 210 to receive a user input 212 from a user of the computer, a first communicating device section 252 to transmit a hardware control signal 214 received from the switch to an interface to control the operation of hardware of the computer, and a second communicating device section 254 coupled to the at least one mass data storage reader 220 to transmit data read from the mass data storage reader 220 to the computer.
  • FIG. 3 shows a third embodiment of the invention.
  • a freestanding remote functionality module 300 for a computer comprises a hardware control switch 310 coupled to receive a user input 312 from a user of the computer, the user input 312 relating to control of a hardware operating state of the computer normally controlled by a user control on the computer itself, at least one indicator 330, provided to indicate 332 the state of at least one operating function of the computer, at least one communicating device 350 coupled to the hardware control switch 310 to receive a hardware control signal 314 from the switch 310 and transmit the signal 314a to an interface the computer to control an operating parameter thereof, and coupled to the indicator 330 to receive one or more signals 315 representative of at least one operating parameter of the computer and output the one or more signals 315a to the at least one indicator.
  • the hardware control switch is a user operable power control switch, which receives a user input relating to a desired power state of the computer and outputs a power control signal to the communicating device, which transmits that signal to the interface, which in turn controls the computer based on the user defined desired power state.
  • Figure 4 shows an interface 402 for connection of a computer 460 with a freestanding remote functionality module for the computer 460 according to an embodiment of the invention.
  • the interface 402 comprises an interface communicating device 470 for receiving non-computer code signals 414a received relating to a user input to control the hardware state of the computer 460, and a hardware controller 480 coupled to the interface communicating device 470, adapted to directly connect to a motherboard 462 of the computer 460, and to control the hardware state of the computer 460 directly through the motherboard 462 in response to the received user input signals 414a.
  • FIG. 5 shows an alternative interface 502 for connection of a computer 560 with a freestanding remote functionality module for the computer 560, according to a further embodiment of the invention.
  • the interface 502 comprises an interface communicating device 570 to be coupled to the computer 560, and adapted to receive computer readable data from the remote module and provide the computer readable data to the computer 560, and to receive signals 514a relating to a user input to control a hardware state of the computer 560, and a hardware controller 580 coupled to the interface communicating device 570 and adapted to directly connect to a motherboard 562 of the computer 560 and control the hardware state of the computer 560 directly through the motherboard 562 in response to the received user input signals.
  • FIG. 6 shows a yet further alternative embodiment of the invention, and shows a remote computer control system.
  • the system comprises a freestanding remote functionality module 600 for a computer 660, the module 600 comprising a remote user operable hardware control switch 610 configured to receive a user input 612 relating to a desired hardware state of the computer from a user of the computer 660, the user input 612 relating to control of the hardware of the computer 660 normally controlled by a user control device on the computer itself, and a communicating device 650 coupled to the switch 610 to receive non-computer code hardware control signals 614 from the switch and transmit said hardware control signals 614a to an interface at the computer 660 to control the hardware of the computer 660, and further comprising an interface 602 adapted to connect the computer 660 with the freestanding remote functionality module 600 of the computer 660.
  • a remote user operable hardware control switch 610 configured to receive a user input 612 relating to a desired hardware state of the computer from a user of the computer 660, the user input 612 relating to
  • the interface 602 comprises an interface communicating device 670 adapted to receive non-computer code signals 614a received relating to the user input 612 to control a hardware state of the computer 660, and a power controller 680 coupled to the communicating device 670 adapted to directly connect to a motherboard 662 of the computer 660 and control the hardware state of the computer 660 directly through the motherboard 662 in response to the received signals.
  • Figure 7 shows a flow diagram for a method of remotely controlling a computer according to an embodiment of the invention.
  • the method comprises receiving a user input on a freestanding remote functionality module remote from the computer S702, the user input representing a desired hardware state of the computer, communicating the desired computer hardware state to an interface mounted on the computer S 704, and controlling contacts provided on a motherboard of the computer directly, dependent on the desired hardware state of the computer S706.
  • the hardware control signal is a power control signal
  • the motherboard can be controlled to control the power state of the computer depending on the desired power state.
  • the control in this case is direct to pair of power contacts provided on the motherboard, which must be connected in order for any power to be supplied to the motherboard. In this way, a hard, or cold boot of the computer can be effected, even though no power is being provided to the motherboard, as the motherboard, nor any other part of the computer, does not need to be receiving power to recognise the boot signal and start up the computer.
  • the interface is incorporated into the motherboard itself. In this case, the contacts may be a part of the interface.
  • the hardware control switch is a user operable power control switch, which receives a user input relating to a desired power state of the computer and outputs a power control signal to the transmitter, which transmits that signal to the interface, which hi turn controls the computer based on the user defined desired power state.
  • FIG 8 A shows a further embodiment of a freestanding remote functionality module 800 for a computer.
  • the module 800 includes a user operable remote power control switch 810.
  • the power control switch 810 is connected to a communicating means in the form of electrically conducting cables 850, by cables 870.
  • the switch 810 may be any type of switch, such as a latching push to make switch, or a flipflop, rocker or other switching device as is known in the art.
  • Two further switches 816, 818 are also provided. These switches 816, 818 do not latch, but revert to the open state when released by a user. In the present embodiment, the further switches 816, 818 are also connected to the cables 850.
  • An indicating means in the form of an LED 830 is also provided, which is connected to the communicating means, in this case, a different set of wires within the cables 850.
  • a second indicating means also in the form of an LED 834, is also provided.
  • LEDs other light emitting devices could be provided, such as incandescent bulbs or the like.
  • the indicating means 830, 834 need not be light-emitting means at all, but could be sound indicators, or could be physically moving parts, which move into different positions in order to provide an indication of the signals received.
  • a mass data storage reading means in the form of a CD/DVD drive 820, is also provided. The CD/DVD drive is also connected to the communication means (cables 850).
  • the CD/DVD drive is connected to the cables via a converter 825.
  • the converter 825 converts the output of the mass data storage reading means from the internal format used therein (in the present embodiment, IDE, although it might also be IETA format) and to an external format (in the present embodiment, USB). Power is provided to the reader 820 via a further cable 852, and in turn from the computer.
  • USB slots 840, 845 are also provided in the module, for receiving USB supported devices, m addition to those shown herein, further types of readers and devices may be provided, including smart card readers, compact card readers for storage cards such as compact flash and SD cards etc. Further, other optical mass data storage readers such as blu-ray DVD and HDDVD readers may be provided. Other proprietary slots such as that for IP OD (RTM) may also be provided. Further, firewire (RTM), skype (RTM) and audio in/out connectors may be provided, and connected to a communicating device according to embodiments of the invention. Further, through the USB slots or otherwise, keyboards, mice and other peripheral devices can be connected to the module 800, and in turn to the computer.
  • the freestanding module may also include the keyboard for the computer, or may include other peripheral device or devices.
  • the USB slots are connected to a hub 855 via the cables 850, which hub 855 then outputs to a single USB port 850a.
  • the hub 855 of the present embodiment receives three USB connections and outputs a single USB connection.
  • other permutations such as 7-1, or 10-2 etc, may also be utilised as required.
  • Interface port 860 through the use of a connecting cable connects module 800 to interface 902 at module port 960.
  • Figure 8B shows an alternative embodiment of a module, module 802, where power switch 811, indicators 831, 835, USB ports 841, 846, and 851a are provided on a single integrated circuit board 866, for ease of manufacture.
  • CD/DVD drive 821 is connected to IDE to USB converter 826.
  • Converter 826 is incorporated into integrated circuit board 866.
  • Powered USB hub 888 relays signals from the CD/DVD drive 821 and the USB slots 841, 846.
  • the powered USB hub is incorporated into the integrated circuit board 866.
  • Interface port 861 provides a connection point for module 802 to connect to an interface.
  • a power out connector 828 functions to supply voltage to a sound system, cooling system, or other optional equipment not shown.
  • the connecting means between the components of module 802 are embedded in the circuit board.
  • optic fibres may be used as the coinmunication means of embodiments of the present invention, and the appropriate changes to be made to the integers of the module will be appreciated by one skilled in the art.
  • FIG. 9 A shows an interface according to an embodiment of the invention.
  • the interface 902 includes a metal connector 910 which houses module port 960 and USB port 971a and fits into a standard expansion slot known in the art.
  • the interface 902 further includes a hardware controller in the form of a connector power switch 980.
  • the connector power switch is connectable directly to the motherboard of a computer (not shown). The connection is to the two physical pins on the motherboard that must be connected in order for the motherboard to have power. Ih this way, the hardware controller controls the hardware (in the present embodiment, power state) of the computer directly.
  • the motherboard does not have to be in a standby state to receive the signal, the computer power off state is not a standby state, but a complete no power state.
  • the interface also contains interface communication means, which includes a connecting cable 970 connecting to the power control connector 980.
  • the interface also includes a further connecting cable 970a within the interface communication means, which receives computer readable data from the remote module 800 through USB port 971a and provides the computer readable data to the computer. In the present embodiment, this is done by a USB cable 970a, which receives data through USB port 971a connected to USB port 850a of the module of figure 8A.
  • the USB cable 970a is connected to a USB port on the computer. This USB port also receives data from the computer and transmits it to the module along cable 970a, through USB port 971a and through USB port 850a.
  • the interface also includes further cables 970 which receive one or more signals representative of at least one operating state of the computer and transmit the one or more signals to the remote module for output of an indicator signal at the remote module.
  • the signals are received from connectors 985, 987, which connect to LED outputs in the computer.
  • the signals relate to the power state of the computer, and to an operating state of the computer, in the form of the activity of a hard disc drive provided within the computer.
  • a power output connector 990 is provided, which provides a power supply to the module, in order to power the reader (CD/DVD drive 820).
  • inventions of figures 8 A and 9A can be connected by further cables, which may be considered either extensions of the interface connection means in figure 9 A or the communication means 850 of figure 8A. These extend from the module 800 at the interface port 860 and to the interface 902 at module port 960 to connect the module 800 with the interface 902. They may be so connected, and the interface may be connected to the motherboard of a computer.
  • the operation of a remote computer control system according to an embodiment of the invention functions in the following manner.
  • a user of the system can control the power state (i.e. whether the computer is turned on or off) of the computer remotely by pressing power switch 810.
  • the signal passes along the cable 870 and connecting cables through interface port 860 and module port 960 to the cable 970 of the interface 902. From there, the signal passes to the power control connector 980 mounted on the two pins of the motherboard that must be connected in order for power to be provided to the motherboard.
  • the cables 870, 850, 970 connecting the power switch 810 to the power control connector 980 is a simple circuit, with the module power switch 810 making the contact between the two contact pins on the motherboard, between which electrical contact must be made for any power to be provided to the motherboard.
  • a user of the system can also access data via the computer using the reader 820 of the module 800.
  • the USB cable 970a sends a control signal to control the reader 820 to read a particular part of a storage medium therein.
  • the data is read by the reader 820 and provided, along cable 850 via hub 855 through USB ports 85Oa, 971a along cable 970a and to a USB port on the computer.
  • the module provides an indication of the power state of the computer, and the current hard drive activity by displaying indicators on the LEDs 830, 834.
  • the signals for these indicator lights 830, 834 are received by the connectors 985, 987 and pass, via the cables 970, 850, from the interface 902 to the module 800.
  • the signals carried on the cables are then output by the LEDs 830, 834.
  • a circuit is formed between each of the connectors 985, 987 and the LEDs 830, 834 and supply of an electrical current through the cables 870, 950 causes the LEDs 830, 834 to illuminate.
  • the two switches 816, 818 provided on the module can be used to control non- computer related devices.
  • the two switches control the height of a desk on which the computer is mounted (one switch raising the desk, the other lowering it).
  • the switches 816, 818 may control the angle of a monitor attached to the computer or may control any other device as required. Further switches may be provided as desired.
  • FIG. 9B shows an alternative embodiment of an interface.
  • the interface 903 is mounted on a peripheral component interconnect (PCI) card 905.
  • PCI card 905 incorporates the number of internal wires and connections to the motherboard of the interface 902 onto a rigid card that is more durable and easier to connect to the computer.
  • a metal connector 911 houses a module port 961 and fits into a standard expansion slot. Cables 972 receive one or more signals representative of at least one operating state of the computer and transmit the signals to the remote module for output of an indicator signal at the remote module. The signals are received from the connectors 986 and 988, which are connected to LED outputs of the computer.
  • Embedded on the PCI card 905 is a chip 920 to provide headphone/microphone connectivity to the module.
  • a ground wire 924 extends from the module port 961 and is affixed to the PCI card 905 with a screw at 925.
  • a 12V power connector 930, data connector 934, and 5V power connector 932 extend laterally on blades of a peripheral component interconnect bus from PCI card 905 to connect directly to the motherboard of the computer.
  • a wireless connection is provided between the module and the interface.
  • Embodiments of a module and of an interface making use of wireless communication are shown in figures 10 and 11 respectively.
  • FIG. 10 shows a wirelessly connected module 1000.
  • an ultra- wide two-way USB wireless connection 1050b is provided, as part of the communication means.
  • a converter to convert the USB format received from the USB hub 1055 (which may remain otherwise as described with reference to figure 8) to ultra- wide USB format is provided as a part of the wireless connection 1050b.
  • a standard RF transmitter/receiver pair 1050c is provided.
  • the transmitter/receiver 1050c is also a part of the communication means, and receives the signals from the power switch via the cable. It then transmits the signal to a receiver within the interface, described in more detail below. Further, the transmitter/receiver 1050c receives signals from a transmitter in the interface relating to an operating state of the computer. These signals are outputted from the transmitter receiver 1050c to the indicating means via the cable, which may be as described in relation to figure 8, and the module functions in the same manner, although without a wire connecting it to the interface.
  • the transmitter/receiver 1050c may be a single device, or may be two individual devices, as required.
  • a power supply 1090 is provided to power the transmitter/receiver 1050c and ultra-wide USB device 1050b. It is also used to power the reader.
  • the other features of the module 1000 are as described above in relation to figures 8 A and 8B.
  • FIG. 11 shows an interface 1102 for use with the module of figure 10.
  • the interface 1102connecting means includes an ultra- wide two-way USB wireless connection 1170b is provided, as part of the interface communication means.
  • a converter to convert the USB format received from the computer to ultra-wide USB format, and vice-versa, is provided as a part of the wireless connection 1170b.
  • a standard RF transmitter/receiver pair 1170c is provided.
  • the interface transmitter/receiver 1170c is also a part of the interface communication means, and receives the signals from the connectors via the cable, which are as described above in relation to figure 9 A. It then transmits the signal to the transmitter/receiver 1050c within the module 1000, described above with reference to figure 10. Further, the interface transmitter/receiver 1170c receives signals from the transmitter in the module relating to a desired power state of the computer. These signals are outputted from the transmitter/receiver 1170c to the connector power control via the cable, which may be as described in relation to figure 9A, and the interface functions in the same manner, although without a wire connecting it to the module.
  • the transmitter/receiver 1170c maybe a single device, or maybe two individual devices, as required.
  • the power connector of the interface is used to power the transmitter/receiver pair 1170c and ultra-wide USB 1170b.
  • the other features of the interface 1102 may be as described above in relation to figures 9 A and 9B.
  • the module includes the computer keyboard, and/or other peripheral devices.
  • the module may include an integrated pointing device, for controlling the position of a cursor on the screen of the computer.
  • Such peripheral devices may send control signals to the computer via the communication means provided in the module to the interface communication means provided in the interface
  • the module removes the need for a user to interact directly with the mam the computer itself, i.e. the base unit; the module is the only device that a user needs to interact with when using the computer, from before the computer is turned on, until after it is switched off, and it can be moved around with the user.
  • the module may include the monitor of the computer.
  • the interface may include a further connector for connecting with a graphics card in the computer.
  • the connector may connect with an integrated graphics card on the motherboard.
  • the connector receives graphics control signals and outputs them to the interface communication means, which transmits the graphics signals to the communication means in the module.
  • the communication means then passes the graphics signals to the monitor for output on the screen.
  • the interface and module communication means include a further cable to transmit the graphics signals to the module from the graphic card.
  • the module may be mounted on a wall or otherwise, so that the monitor is not placed on a surface.

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Selective Calling Equipment (AREA)

Abstract

La présente invention concerne un module de commande à distance autonome (100) destiné à un ordinateur, ledit module comprenant un commutateur de commande de partie matérielle (110) prévu pour recevoir une entrée d'utilisateur (120) concernant un état désiré de la partie matérielle de l'ordinateur et un dispositif de communication (150) couplé au commutateur (110) prévu pour recevoir un signal de commande de la partie matérielle (114) envoyé par le commutateur (110) et pour transmettre ce signal de commande de la partie matérielle (114a) à une interface installée sur l'ordinateur pour commander la partie matérielle de l'ordinateur.
EP07804211A 2006-09-07 2007-09-07 Module de commande à distance d'ordinateur, interface, système et procédé correspondants Withdrawn EP2062115A2 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US84328506P 2006-09-07 2006-09-07
GB0617583A GB2443651A (en) 2006-09-07 2006-09-07 Remote power control unit with a mass data reader for a computer.
PCT/GB2007/003413 WO2008029174A2 (fr) 2006-09-07 2007-09-07 Module de commande à distance d'ordinateur, interface, système et procédé correspondants

Publications (1)

Publication Number Publication Date
EP2062115A2 true EP2062115A2 (fr) 2009-05-27

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Application Number Title Priority Date Filing Date
EP07804211A Withdrawn EP2062115A2 (fr) 2006-09-07 2007-09-07 Module de commande à distance d'ordinateur, interface, système et procédé correspondants

Country Status (5)

Country Link
EP (1) EP2062115A2 (fr)
JP (1) JP2010503098A (fr)
IL (1) IL197478A0 (fr)
NO (1) NO20091407L (fr)
WO (1) WO2008029174A2 (fr)

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU3216399A (en) * 1998-03-30 1999-10-18 Micro Computer Technology, Inc. System and method for remotely initializing, operating and monitoring a general-purpose computer
IL142119A0 (en) * 1998-09-22 2002-03-10 Cybex Computer Prod Corp System and method for accessing and operating personal computers remotely
CN1290876A (zh) * 1999-06-30 2001-04-11 惠普公司 用于远程功能键的方法和装置
US7139165B2 (en) * 2004-01-30 2006-11-21 Hewlett-Packard Development Company, L.P. Computer system having a local or remote low-voltage power button

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2008029174A3 *

Also Published As

Publication number Publication date
WO2008029174A2 (fr) 2008-03-13
WO2008029174A3 (fr) 2008-07-31
JP2010503098A (ja) 2010-01-28
IL197478A0 (en) 2009-12-24
NO20091407L (no) 2009-06-03

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