최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0593084 (2006-11-06) |
등록번호 | US-8270430 (2012-09-18) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 571 |
A device for coupling signals between first and second coaxial cables, the first coaxial cable being connected to carry a first bi-directional digital data signal in a first digital data frequency band, and the second coaxial cable being connected to carry a second bi-directional digital data signal
A device for coupling signals between first and second coaxial cables, the first coaxial cable being connected to carry a first bi-directional digital data signal in a first digital data frequency band, and the second coaxial cable being connected to carry a second bi-directional digital data signal in a second digital data frequency band, and each of the coaxial cables being connected to carry, multiplexed with the respective digital data signal, an analog video signal in an analog video signal frequency band distinct from each of the first and second digital data frequency bands.
1. A service outlet for configuring a local area network, the network including a service wiring carrying frequency multiplexed service and data signals, the service outlet comprising: a wiring connector to connect said outlet to the service wiring;a modem coupled to said wiring connector for data s
1. A service outlet for configuring a local area network, the network including a service wiring carrying frequency multiplexed service and data signals, the service outlet comprising: a wiring connector to connect said outlet to the service wiring;a modem coupled to said wiring connector for data signal communication with the service wiring;a data interface coupled to said modem for connecting to a data processing unit, said data interface being configured for bidirectional data communication between said modem and the data processing unit; anda single enclosure housing said wiring connector, said modem and said data interface, and wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet,wherein said outlet is wall mountable and is addressable in the local area network. 2. The outlet according to claim 1, wherein: the service wiring is one of: a twisted wire pair; a coaxial cable; and telephone wiring; andsaid modem is configured to transmit data signals to, and receiving data signals from, the service wiring. 3. The outlet according to claim 1, wherein: the service wiring is powerline wiring; andsaid modem is configured to transmit data signals to, and receiving data signals from, the powerline wiring. 4. The outlet according to claim 3, wherein the service signal includes a telephone signal. 5. The outlet according to claim 1, wherein: the service signal includes a power signal;the service wiring is powerline wiring; andsaid modem is configured to transmit data signals to, and receiving data signals from, the powerline wiring. 6. The outlet according to claim 1, further comprising a service connector coupled to said wiring connector and operative for connecting to a service appliance. 7. The outlet according no claim 1 further comprising a filter coupled between said wiring connector and said modem, the filter operative to pass only the data signal. 8. The outlet according to claim 1, wherein the outlet address is manually assigned. 9. The outlet according to claim 1, wherein the outlet address is automatically assigned. 10. The outlet according to claim 1, wherein the outlet address is assigned by a data unit connected no said outlet. 11. A device for configuring a network, the network including a service wiring carrying frequency multiplexed service and data signals, the service signal including a power signal, and the device comprising: a wiring connector to connect said device to the service wiring;a modem coupled to said wiring connector for data signal communication with the service wiring;a data interface coupled to said modem for connecting to a data unit, said data interface being configured for bidirectional data communication between said modem and the data unit; anda single enclosure housing said wiring connector, said modem and said data interface, and wherein said single enclosure is constructed to have at least one of the following:a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet,wherein said device is addressable. 12. The device according to claim 11, wherein: the service wiring is one of: a twisted wire pair; a coaxial cable; and telephone wiring; andsaid modem is configured to transmit data signals to, and receiving data signals from, the service wiring. 13. The device according to claim 11, wherein the device is at least in part housed within a service outlet. 14. The device according to claim 11, wherein: the service wiring is powerline wiring; andsaid modem is configured to transmit data signals to, and receiving data signals from, the powerline wiring. 15. The device according to claim 11, wherein the service signal includes a telephone signal. 16. The device according to claim 11, further comprising a service connector coupled to said wiring connector and operative for connecting to a service appliance. 17. The device according to claim 11, further comprising a filter coupled between said wiring connector and said modem, the filter operative to pass only the data signal. 18. The device according to claim 11, wherein the device address is manually assigned. 19. The device according to claim 11, wherein the device address is automatically assigned. 20. The device according to claim 11, wherein the device address is assigned by a data unit connected to said device. 21. A system for configuring a data network, the system comprising: a service wiring carrying frequency multiplexed service and data signals; andat least two devices each connected to the service wiring, each couplable to a data unit, and each operative to establish data signal communication between the data unit and the service wiring,wherein at least one of said devices is attachable to a wall, andwherein at least one of the devices is addressable. 22. The system according to claim 21, wherein the service wiring is one of: a twisted wire pair; a coaxial cable; telephone wiring; and powerline wiring. 23. The system according to claim 21, wherein the service signal includes at least one of a power signal and a telephone signal. 24. The system according to claim 21, wherein at least one of said devices is at least in part integrated into an outlet. 25. The system according to claim 21, wherein at least one of said devices further comprises a service connector coupled to the service wiring and operative for connecting to a service appliance. 26. The system according to claim 21, wherein information carried by the data signal is used to control the service signal. 27. The system according to claim 21, wherein the data signal is used to monitor the service signal. 28. The system according to claim 21, wherein at least two of the devices are addressable. 29. The system according to claim 21, and a single enclosure enclosing at least one of said devices, wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet; wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 30. An outlet for coupling digital data carried over local area network (LAN) wiring to at least one data unit, the wiring having at least two conductors that simultaneously carry a bidirectional serial digital data signal containing the digital data and a DC power signal over the same conductors, said outlet comprising: a wiring connector to connect to the LAN wiring;a first LAN transceiver coupled to said wiring connector and operative for transmitting and receiving the bidirectional serial digital data signal over the LAN wiring;a DC to DC converter coupled between said wiring connector and said first LAN transceiver to be fed from the DC power signal carried over the LAN wiring and to supply DC power to said first LAN transceiver;a first data port coupled to said first LAN transceiver for bidirectional communication of the serial digital data signal with the at least one data unit;a visual indicator to indicate a status, said visual indicator connected to said DC to DC converter to be supplied with power from the DC power signal; anda single enclosure housing said wiring connector, said first LAN transceiver, said visual indicator, said DC to DC converter and said first data port,wherein said enclosure is dimensioned to be mountable into a standard wall outlet receptacle or a wall outlet opening, said outlet is addressable in the LAN, and at least part of the digital data contained in the digital data signal is transparently passed between the at least one data unit and the LAN wiring. 31. The outlet according to claim 30, further operative for wired connection to the at least one data unit, wherein: said first data port comprises a LAN connector for wired connection to a data unit;said outlet further comprises, in said single enclosure, a second LAN transceiver connected between said first LAN transceiver and said LAN connector; said second LAN transceiver is operative to engage in full-duplex packet-based point-to-point serial digital data communication with the at least one data unit; and said second LAN transceiver is further connected to be supplied with power from said DC to DC converter. 32. The outlet according to claim 31, wherein said second LAN transceivers is operative to conduct full-duplex point-to-point communication with a single other mating transceiver. 33. The outlet according to claim 30, wherein: the at least one data unit includes first and second data units; the LAN wiring carries time multiplexed first and second digital data signals; said outlet is further operative to couple each of the first and second digital data signals to a respective one of the first and second data units; said first data port is couplable to the first data unit; and said outlet further comprises: a second data port to enable bidirectional serial digital data communicating with the second data unit; and a time multiplexer/demultiplexer coupled between said first LAN transceiver, said first data port and said second data port, said time multiplexer/demultiplexer being operative to pass the first digital data signal between said wiring connector and the first data unit and to pass the second digital data signal between said wiring connector and the second data unit. 34. The outlet according to claim 30, wherein said outlet has one of: a manually assigned address; an automatically assigned address; and an address assigned by a data unit connected to said outlet. 35. The outset according to claim 30, wherein said first LAN transceiver is operative to conduct bidirectional communication with one or more substantially similar transceivers over the LAN wiring. 36. The outlet according to claim 30, wherein said first LAN transceiver is operative to conduct full-duplex point-to-point communication with a single mating transceiver over the LAN wiring. 37. The outlet according to claim 30, wherein the serial digital data signal conforms to an Ethernet standard. 38. The outlet according to claim 30, further comprising firmware and a processor executing said firmware, wherein said processor is connected to said DC to DC converter to be supplied with power from the DC cower signal, and wherein the serial digital data signal is couplable to said processor via said wiring connector. 39. The outlet according to claim 30, wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet; wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 40. The outlet according to claim 30, wherein said outlet is pluggable into an existing outlet or attachable to an existing outlet. 41. The outlet according to claim 30, further comprising a separator to separate the digital data signal from the DC power signal, connected between said wiring connector, said DC to DC converter and said first LAN transceiver. 42. The outlet according to claim 41, wherein said separator means separator is based on one or more center-tapped transformers connected to substantially transparently pass the digital data signal. 43. An outlet for coupling digital data to a first data unit, the digital data being carried over wiring having at least two conductors that simultaneously carry the digital data in a bidirectional serial digital data signal and a DC power signal over the same conductors, said outlet comprising: a wiring connector to connect to the wiring;a modem coupled to said wiring connector and operative for transmitting and receiving the bidirectional serial digital data signal over the wiring;a LAN connector to connect to the first data unit;a LAN transceiver connected between said LAN connector and said modem for full-duplex point-to-point serial digital data communication with said first data unit;a DC to DC converter coupled between said wiring connector, said modem and said LAN transceiver to be supplied with power from the DC power signal and to supply DC power to said modem and said LAN transceiver;a visual indicator to indicate a status, connected to said DC to DC converter to be supplied with power from the DC power signal; anda single enclosure housing said wiring connector, said modem, said LAN transceiver, said visual indicator and said DC to DC converter,wherein: said enclosure is dimensioned to be mountable into a standard wall outlet receptacle or a wall outlet opening; said outlet is addressable in a LAN; and at least part of the digital data is transparently passed between the first data unit and the wiring. 44. The outlet according to claim 43, wherein: the wiring is connected to carry time multiplexed first and second digital data signals; said outlet is further operative to respectively couple the first digital data signal to the first data unit and to couple the second digital data signal to a second data unit; said first LAN connector and said LAN transceiver are connected to communicate with the first data unit; and said outlet further comprises: a second LAN connector to connect to the second data unit;a second LAN transceiver connected between said second LAN connector and said modem for full-duplex point-to-point serial digital data communicating with the second data unit; and a time multiplexer/demultiplexer coupled between said modem, said first LAN transceiver and said second LAN transceiver, said time multiplexer/demultiplexer being operative to pass the first digital data signal between said wiring connector and the first data unit and to pass the second digital data signal between said wiring connector and the second data unit. 45. The outlet according to claim 43, wherein said outlet has one of: a manually assigned address; an automatically assigned address; and an address assigned by a data unit connected to the outlet. 46. The outlet according to claim 43, wherein the serial digital data signal conforms to an Ethernet standard. 47. The outlet according to claim 43, further comprising firmware and a processor executing said firmware, wherein said processor is connected to said DC to DC converter to be supplied with power from the DC power signal, and wherein the serial digital data signal is couplable to said processor via said wiring connector. 48. The outlet according to claim 43, wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet; wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 49. The outlet according to claim 43, wherein said outlet is pluggable into an existing outlet or attachable to an existing outlet. 50. The outlet according to claim 43, further comprising a separator to separate the digital data signal from the DC power signal, connected between said wiring connector, said DC to DC converter and said modem. 51. The outlet according to claim 50, wherein the digital data signal and the DC power signal are carried using frequency division multiplexing wherein the digital data signal is carried in a frequency band higher than DC, and said outlet further comprises: a high pass filter connected between aid wiring connector and said modem for substantially passing only the digital data signal and substantially blocking the DC power signal; anda low pass filter connected between said wiring connector and said DC to DC converter for substantially passing only the DC power signal. 52. The outlet according no claim 43, wherein the wiring consists of a single wire pair, and said modem is operative to transmit and receive over the single wire pair. 53. The outlet according to claim 52, wherein wiring consists of a single analog telephone wire pair, and said modem is operative to transmit and receive over the single telephone wire pair. 54. An outlet for coupling digital data carried over local area network (LAN) wiring to at least one data unit, the wiring having at least two conductors that simultaneously carry a bidirectional serial digital data signal containing the digital data and a DC power signal over the same conductors, said outlet comprising: a wiring connector to connect to the LAN wiring;a first LAN transceiver coupled to said wiring connector and operative for transmitting and receiving the bidirectional serial digital data signal over the LAN wiring;a DC to DC converter coupled between said wiring connector and said first LAN transceiver to be supplied with power from the DC power signal carried over the LAN wiring and for supplying DC power to said outlet;a first data port coupled to said first LAN transceiver for bidirectional serial digital data communication with the at least one data unit;a visual indicator to indicate a status connected to said DC to DC converter to be supplied with power from the DC power signal; anda single enclosure dimensioned to be mountable into a standard wall outlet receptacle or a wall outlet opening, said single enclosure housing said wiring connector, said visual indicator, said first LAN transceiver, said DC to DC converter and said first data port,wherein at least part of the digital data is transparently passed between the at least one data unit and the LAN wiring. 55. The outlet according to claim 54 further operative for wired connection to the at least one data unit, wherein said first data port comprises a LAN connector for wired connection to the at least one data unit, and said outlet further comprises, in said single enclosure, a second LAN transceiver connectable between the first LAN transceiver and said LAN connector, said second LAN transceiver being operative for full-duplex packet-based point-to-point serial digital data communication with the at least one data unit, and wherein said second LAN transceiver is further connected to be supplied with power from said DC to DC converter. 56. The outlet according to claim 55, wherein said first and second LAN transceivers are operative to conduct full-duplex point-to-point communication with a respective single other mating transceiver. 57. The outlet according to claim 54, wherein the at least one data unit includes first and second data units, the wiring is connectable to carry time multiplexed first and second digital data signals, and said outlet is further operative to couple each of the first and second digital data signals to a respective one of the first and second data units, said first data port is couplable to the first data unit, and said outlet further comprises: a second data port to enable bidirectional serial digital data communicating with the second data unit; and a time multiplexer/demultiplexer couplable between the first LAN transceiver, said first data port and said second data port, said time multiplexer/demultiplexer being operative to pass the first digital data signal between said wiring connector and the first data unit and to pass the second digital data signal between said wiring connector and the second data unit. 58. The outlet according to claim 54, wherein said outlet is addressable in a LAN and said outlet has an address that is manually assigned, or automatically assigned, or assigned by a data unit connected to said outlet. 59. The outlet according to claim 54, wherein the serial digital data signal conforms to an Ethernet standard. 60. The outlet according to claim 54, further comprising firmware and a processor executing said firmware, wherein said processor is connected to said DC to DC converter to be supplied with power from the DC power signal, and the serial digital data signal is coupled to said processor via said wiring connector. 61. The outlet according to claim 54, wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet; wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 62. The outlet according to claim 54, wherein said outlet is pluggable into an existing outlet or attachable to an existing outlet. 63. The outlet according to claim 54, further comprising a separator connected between said wiring connector, said DC to DC converter and said first data port for separating the digital data signal from the DC power signal. 64. The outlet according to claim 63, wherein said separator is based on one or more center-tapped transformers connected to substantially transparently pass the digital data signal. 65. An outlet for coupling a data unit and an analog unit to wiring that simultaneously carries a bidirectional serial digital data signal multiplexed with an analog signal, the outlet comprising: a wiring connector operative to connect said outlet to the wiring;a data interface connector coupled to said wiring connector and connectable to the data unit, for coupling the serial digital data signal to the data unit;an analog connector coupled to said wiring connector and connectable to the analog unit, for coupling the analog signal to the analog unit; anda single enclosure dimensioned to be mountable into a standard outlet receptacle or opening, said single enclosure housing said wiring connector. 66. The outlet according to claim 65, wherein the wiring is one of: a twisted wire pair, a coaxial cable, a telephone wire-pair and powerline wiring, and said wiring connector is adapted to connect to the wiring. 67. The outlet according to claim 65, further comprising at least one active device, and wherein said outlet further comprises a power supply connected to said at least one active device for DC powering said at least one active device, said power supply having a connection point for connecting to a power source, and said outlet further comprises a visual indicator coupled to said power supply for indicating a status. 68. The outlet according to claim 67 further comprising a power connector connectable to the power source, and wherein said connection point is coupled no said power connector for powering the power supply from the power source. 69. The outlet according to claim 67 wherein the wiring further simultaneously carries a power signal, and wherein said connection point is coupled to said wiring connector for supplying power to said outlet from the power signal. 70. The outlet according to claim 67 wherein said power supply comprises an AC/DC converter or a DC/DC converter. 71. The outlet according to claim 67 further comprising a power connector coupled to said power supply and connectable to a device for DC powering the device. 72. The outlet according to claim 65, wherein: the analog signal and the digital data signal are carried frequency multiplexed;the digital data signal is carried in a frequency band distinct from, and higher than, the analog signal, and said outlet further comprises:a high pass filter coupled between said wiring connector and said data interface connector for passing only the digital data signal; anda low pass filter coupled between said wiring connector and said analog connector for passing only the analog signal. 73. The outlet according to claim 65, wherein said outlet is further addressable in a network. 74. The outlet according to claim 73, wherein said outlet has a manually assigned address. 75. The outlet according to claim 73, wherein said outlet has an automatically assigned address. 76. The outlet according to claim 73, wherein said outlet has an address assigned by a data unit connected to the outlet. 77. The outlet according to claim 65, further comprising a transceiver coupled between said wiring connector and said standard data interface connector, said transceiver being operative to effect full-duplex serial digital data communication over the wiring. 78. The outlet according to claim 77, wherein said transceiver is operative to bidirectionally communicate with one or more identical transceivers over the wiring. 79. The outlet according to claim 77, wherein said transceiver is operative to bidirectionally communicate point-to-point with only a single mating transceiver over the wiring. 80. The outlet according to claim 65, wherein said communication with the data unit conforms to an Ethernet protocol. 81. The outlet according to claim 65, wherein said least one parameter if the outlet is configurable by a connected data unit. 82. The outlet according to claim 65 further comprising firmware and a processor executing said firmware, the processor coupled to the wiring connector to control the outlet. 83. The outlet according to claim 65, wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet; wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 84. An outlet for coupling a data unit and a powered unit to wiring composed of at least two conductors and simultaneously carrying bidirectional serial digital data and power signals, said outlet comprising: a wiring connector operative to connect said outlet to the wiring;a data connector coupled to said wiring connector and connectable to a data unit, for coupling the serial digital data signal to the data unit;a power connector coupled to said wiring connector and connectable to a powered unit, for powering the powered unit by the power signal; anda single enclosure housing said wiring connector, said data connector and said power connector,wherein said enclosure is dimensioned to be mountable into a standard outlet receptacle or opening, and the outlet is further addressable in the network, and wherein said outlet further comprises at least one active device, and wherein said outlet further comprises a power supply connected to said at least one active device for DC powering said at least one active device, said power supply being coupled to said wiring connector for being powered by the power signal, and said outlet further comprises a visual indicator coupled to said power supply for indicating a status. 85. The outlet according to claim 84, wherein the wiring is one of: a twisted wire pair; a coaxial cable; a telephone wire pair; and powerline wiring, and said wiring connector is adapted to connect to the wiring. 86. The outlet according to claim 84 wherein said power supply comprises an AC/DC converter. 87. The outlet according to claim 84 wherein said power supply comprising a DC/DC converter. 88. The outlet according to claim 84 wherein the digital data and power signals are each carried over distinct and dedicated wires. 89. The outlet according to claim 84 wherein the digital data and power signals are multiplexed and carried over the same conductors. 90. The outlet according to claim 89 further comprising a data/power splitter having first, second and third ports, wherein only power is passed from said first port to said second port and the digital data signal is passed between said first and third ports. 91. The outlet according to claim 90 further wherein said data/power splitter is based on a split-tapped transformer. 92. The outlet according to claim 84, wherein the outlet address is manually assigned. 93. The outlet according to claim 84, wherein the outlet address is automatically assigned. 94. The outlet according to claim 84, wherein the outlet address is assigned by a data unit connected to the outlet. 95. The outlet according to claim 84, further comprising a transceiver coupled between said wiring connector and data connector, for conducting the serial digital data signal over the wiring. 96. The outlet according to claim 95, wherein said transceiver is operative to bidirectionally communicate with one or more identical transceivers over the wiring. 97. The outlet according to claim 95, wherein said transceiver is operative to perform bidirectional point-to-point communication with only a single mating transceiver over the wiring. 98. The outlet according to claim 84, further comprising a transceiver coupled between said wiring connector and said data connector, said transceiver being operative to perform full-duplex digital data communication with the data unit. 99. The outlet according to claim 84, wherein communication with said data unit is Ethernet based. 100. The outlet according to claim 84, wherein au least one parameter of the outlet is configurable by a connected data unit. 101. The outlet according to claim 84 further comprising firmware and a processor executing said firmware, said processor being coupled to said wiring connector for coupling to the serial digital data. 102. The outlet according to claim 84 wherein the wiring is a powerline wiring, the power signal is an AC power signal, and said power connector is an AC power connector. 103. The outlet according to claim 84 wherein the wiring comprises at least one twisted pair and wherein the power signal is a DC power signal. 104. The outlet according to claim 84, wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 105. An outlet for coupling a data unit and an analog telephone set to wiring that simultaneously carries a bidirectional serial digital data signal multiplexed with a telephone signal, the outlet comprising: a wiring connector operative to connect said outlet to the wiring;a data interface connector coupled to said wiring connector and connectable to the data unit, for coupling the serial digital data signal to the data unit;a telephone connector coupled to said wiring connector and connectable to the analog telephone set, for coupling the telephone signal to the telephone set; anda single enclosure housing said wiring connector, said data interface connector and said telephone connector,wherein said enclosure is dimensioned to be mountable into a standard outlet receptacle or opening, and said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 106. The outlet according to claim 105, wherein the wiring is one of: a twisted wire pair, a coaxial cable, a telephone wire-pair and powerline wiring, and said wiring connector is adapted to connect to the wiring. 107. The outlet according to claim 105, further comprising at least one active device, and wherein said outlet further comprises a power supply connected to said at least one active device for DC powering said at least one active device, said power supply having a connection point to connect to a power source, and said outlet further comprises a visual indicator coupled to said power supply for indicating a status. 108. The outlet according to claim 107 further comprising a power connector connectable to the power source, and wherein said connection point is coupled to said power connector for supplying power to said outlet from the power source. 109. The outlet according to claim 107 wherein the wiring further simultaneously carries a power signal, and wherein said connection point is coupled to said wiring connector for supplying power to said outlet from the power signal. 110. The outlet according to claim 107 wherein said power supply comprises an AC/DC converter or a DC/DC converter. 111. The cutlet according to claim 107 further comprising a cower connector coupled to said connection point and connectable to a device for DC powering the device. 112. The outlet according to claim 105, wherein at least one parameter of the outlet is configurable by a connected data unit. 113. A device for configuring a network, the network including a service wiring carrying frequency multiplexed service and data signals, the device comprising: a wiring connector to connect said device to the service wiring;a modem coupled to said wiring connector for data signal communication with the service wiring; anda data interface coupled to said modem for connecting to a data unit, said data interface being configured for bidirectional data communication between said modem and the data unit,wherein said device is addressable, and the service signal includes a power signal, and said device further comprises a service connector coupled to said wiring connector and operative for connecting to a service appliance, and wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 114. A device for configuring a network, the network including a service wiring carrying frequency multiplexed service and data signals, the device comprising: a wiring connector to connect said device to the service wiring;a modem coupled to said wiring connector for data signal communication with the service wiring; anda data interface coupled to said modem for connecting to a data unit, said data interface being configured for bidirectional data communication between said modem and the data unit,wherein said device is addressable, and the service signal includes a power signal, and said device further comprises a filter coupled between said wiring connector and said modem, the filter operative to pass only the data signal, and wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 115. A device for configuring a network, the network including a service wiring carrying frequency multiplexed service and data signals, the device comprising: a wiring connector to connect said device to the service wiring;a modem coupled to said wiring connector for data signal communication with the service wiring; anda data interface coupled to said modem for connecting to a data unit, said data interface being configured for bidirectional data communication between said modem and the data unit,wherein said device is addressable, and the service signal includes a power signal, and said device further comprises a single enclosure housing said wiring connector, said modem and said data interface, and wherein said single enclosure is constructed to have at least one of the following: a form substantially similar to that of a standard outlet;wall mounting elements substantially similar to those of a standard wall outlet;a shape allowing direct mounting in an outlet opening or cavity; anda form to substitute for a standard outlet. 116. A device that configures a local area network, the device comprising: first and second ports each providing an interface to a respective one of first and second signal paths;first and second data couplers each coupled to a respective one of said first and second ports, and each having a data signal port operative to pass only a data signal;first and second modems each coupled to said data signal port of a respective one of said first and second data couplers, and said first and second modems configured to enable full duplex data signal communication with a respective one of said first and second signal paths;at least one data interface connector coupled to at least one of said modems and operative to establish a data signal connection with a data terminal equipment unit;first and second power couplers each coupled to a respective one of said first and second ports, and each having a respective one of first and second power signal ports, each signal port being operative to pass only a power signal, and the second power signal port being coupled to the first power signal port; anda power supply coupled to the first power signal port and to at least one of said modems to be powered by the power signal and to power said modem,wherein the device is configured to allow the communication of a data signal over the first signal path to be independent of the communication of a data signal over the second signal path. 117. The device according to claim 116 further comprising a power connector connectable to a power source for receiving power from the power source. 118. The device according to claim 116 wherein the power signal is a direct current signal. 119. The device according to claim 116 wherein the device has an address. 120. The device according to claim 119 wherein the address is assigned by a data terminal equipment unit connectable to the device. 121. The device according to claim 116 wherein the device is addressable in the local area network. 122. The device according to claim 116 wherein at least one of the couplers comprises a center tap transformer. 123. The device according to claim 116 wherein at least some of the couplers include center tap transformers. 124. A device that couples a digital data signal to a data unit, the device comprising: a coaxial connector capable of connecting the device to a coaxial cable;a filter having a data signal port and coupled to said coaxial connector, said filter configured to act upon a frequency multiplexed analog service signal plus digital data signal received by the device, and pass only a digital data signal via said data signal port;a modem coupled to said data signal port to enable full duplex digital data signal communication with one or more additional modems over the coaxial cable;a data connector to connect to the data unit;a data transceiver coupled between said data connector and said modem, said data transceiver operative to effect full-duplex serial digital data communication with the data unit;a power port connectable to a power signal;a power supply coupled between said power port and said modem to provide DC powering of said modem from said power signal; anda single enclosure housing said filter, said power supply, said modem and said data connector,wherein the device is addressable in the local area network. 125. The device according to claim 124 wherein the device has an automatically assigned address. 126. The device according to claim 124 wherein the device has an address assigned by a data terminal equipment unit connectable to the device. 127. The device according to claim 124 wherein the device is at least in part housed in an outlet. 128. The device according to claim 124 further comprising a second data connector coupled to said modem for connecting to a second data unit for bidirectional communication with the second data unit.
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