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-0438259 (2006-05-23) |
등록번호 | US-8121132 (2012-02-21) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 334 |
A network for carrying out control, sensing and data communications, comprising a plurality of nodes. Each node may be connected to a payload, which comprises sensors, actuators and DTE's. The network is formed using a plurality of independent communication links, each based on electrically-conducti
A network for carrying out control, sensing and data communications, comprising a plurality of nodes. Each node may be connected to a payload, which comprises sensors, actuators and DTE's. The network is formed using a plurality of independent communication links, each based on electrically-conducting communication media comprising at least two conductors and interconnecting two nodes, in a point-to-point configuration. During network operation, nodes can be dynamically configured as either data-generating nodes, wherein data is generated and transmitted into the network, or as receiver/repeater/router nodes, wherein received data is repeated from a receiver port to all output ports. During normal network operation, the network shifts from state to state. Each state is characterized by assigning a single node as the data-generating node, and configuring all other nodes in the network as repeaters and receivers. The network can be configured in linear or circular topology, or any mixture of both. The nodes and the payloads can each be powered by local power supply or via the network wiring. In the latter case, dedicated wires can be used, or the same conductors may be employed for both power distribution and communication. Network control can be performed external to the network, or by using the network itself as transport for control messages. Shifting from state to state can be done by selecting sequential nodes to be the data-generating node, or by selecting arbitrary nodes to be the data-generating node.
1. A control network in a building for wired coupling of at least one analog device to a data unit, the network comprising: a plurality of nodes including first, second and third nodes; anda plurality of wiring segments including first and second wiring segments, each wiring segment comprising at le
1. A control network in a building for wired coupling of at least one analog device to a data unit, the network comprising: a plurality of nodes including first, second and third nodes; anda plurality of wiring segments including first and second wiring segments, each wiring segment comprising at least two conductors, whereinsaid first wiring segment connects said first and second nodes together in a point-to-point connection, and said second wiring segment connects said second and third nodes together in a point-to-point connection, wherein: said first and second nodes effect bi-directional communication of serial digital data over said first wiring segment and said second and third nodes effect bi-directional communication of serial digital data over said second wiring segment,at least one of said nodes is connectable to a data unit for coupling the serial digital data carried over at least one of said wiring segments to the data unit,at least one of said nodes comprises an analog/digital or digital/analog converter connectable to the analog device for coupling the serial digital data carried over said at least one of said wiring segments to the analog device,the analog device is a sensor or an actuator,each of said nodes is addressable in said network, andeach of said nodes is connected by a respective pair of said wiring segments to only two other nodes, said nodes are connected by the wiring segments in a ring configuration, each of said nodes is in direct signal conducting communication only with a unique pair of other nodes and one of the data unit and the analog device, and each of said nodes is operative to be in a selected state to conduct data in both directions around the ring. 2. The network according to claim 1, wherein at least one of said wiring segments comprises a twisted wire pair or a coaxial cable. 3. The network according to claim 1, wherein the serial digital data is packet-based. 4. The network according to claim 1, wherein at least one of said wiring segments concurrently carries a direct current (DC) power signal, and at least one of said nodes is at least in part powered by the power signal. 5. The network according to claim 1, wherein at least one of said nodes is connectable to a direct current (DC) power source supplying a DC power signal, and at least one of said wiring segments concurrently carries the power signal. 6. The network according to claim 1, wherein said nodes are operative to reroute serial digital data in the event of failure of one of said wiring segments. 7. The network according to claim 1, wherein each of said nodes has a manually assigned address. 8. The network according to claim 1, wherein each of said nodes has an automatically assigned address. 9. The network according to claim 1, wherein each of said nodes has an address assigned by a data unit connected to said node. 10. The network according to claim 1, wherein at least one of said nodes is operative to power a device connected thereto. 11. The network according to claim 1, wherein at least one of said nodes is operative to power the analog device. 12. The network according to claim 1, wherein the at least one analog device includes a first analog device in the form of a sensor to which a first one of said nodes is connectable and a second analog device in the form of an actuator to a which a second one of said nodes is connectable, and wherein operation of the actuator is dependent upon the sensor output. 13. The network according to claim 1, wherein the at least one analog device is an analog sensor, to which one of said nodes is connectable, for measuring a physical phenomenon, and said one of said nodes further comprises an analog to digital converter for converting analog signals from the analog sensor into serial digital data. 14. The network according to claim 1, wherein the at least one analog device is an analog actuator, to which one of said nodes is connectable, for producing a physical phenomenon, and said one of said nodes further comprises a digital to analog converter for converting serial digital data into analog signals for the analog actuator. 15. The network according to claim 1, wherein at least one of said nodes is operative to repeat at least part of the serial digital data received from one wiring segment connected to said at least one node to the other wiring segment connected to said at least one node. 16. The network according to claim 1, wherein all the communication links are operative to communicate in half duplex mode. 17. The network according to claim 1, wherein all the communication links are operative to communicate in full duplex mode. 18. The network according to claim 1, wherein at least one of the wiring segments is operative to carry a video or voice signal. 19. A local area network comprising: a plurality of nodes including a first node including a first data port for coupling to a first component, a second node including a second data port for coupling to a second component and a third node including a third data port for coupling to a third component;a plurality of wiring segments each having two ends and consisting of only two conductors, said plurality of wiring segments including a first wiring segment connecting only said first and second nodes in a point-to-point connection for a first half-duplex data communication of serial digital data over said first wiring segment between said first and second nodes, and a second wiring segment connecting only said first and third nodes in a point-to-point connection for a second half-duplex data communication of serial digital data over said second wiring segment between said first and third nodes,wherein: each of said nodes is connected by a respective pair of said wiring segments to only two other nodes, said nodes are connected by the wiring segments in a ring configuration, and each of said nodes is in direct signal conducting communication with a unique pair of other nodes and one component; andsaid network is operative to be in at least a selected one of first and second states;in the first state, said network is operative to conduct data from said second data port over said first wiring segment from said second node to said first node, repeat the data at said first node to said second wiring segment, and conduct the repeated data over said second wiring segment from said first node to said third node; andin the second state, said network is operative to conduct data from said third data port over said second wiring segment from said third node to said first node, repeat the data at said first node to said first wiring segment, and conduct the repeated data over said first wiring segment from said first node to said second node. 20. The network according to claim 19, wherein at least one of said nodes further comprises a control, logic and processing unit connected in said at least one node for controlling said at least one node to establish a selected one of said first and second states. 21. The network according to claim 20, wherein each of said nodes is housed in a single enclosure. 22. The network according to claim 19, wherein said network periodically sequentially shifts between the first and second states. 23. The network according to claim 19 wherein each of said nodes is addressable in said network. 24. The network according to claim 19, wherein said network is further operative to reroute digital data in the event of failure of one of said wiring segments. 25. The network according to claim 19 further comprising a third wiring segment having two ends and consisting of only two conductors, said third wiring segment being connected to said first node, and wherein in the first state, said first node is operative to repeat data from said first wiring segment to the third wiring segment, and in said second state said first node is operative to repeat data from said second wiring segment to said third wiring segment. 26. The network according to claim 19, wherein at least one of said wiring segments concurrently carries a power signal over said two conductors substantially without interfering with data communication over said at least one wiring segment, and at least part of at least one of said nodes is powered from the power signal. 27. The network according to claim 19, wherein at least one of said wiring segments concurrently carries a power signal over the two conductors substantially without interfering with the data communication, and at least one component is powered from the power signal carried over a wiring segment connected to the respective node. 28. The network according to claim 19, wherein said two conductors of at least one of said wiring segments concurrently carry a power signal over substantially without interfering with the data communication, and at least one of said nodes is connectable to a power source for coupling the power signal to the power source. 29. The network according to claim 19, wherein at least one out of said first and second wiring segments is one of a twisted wire pair or a coaxial cable. 30. The network according to claim 19, wherein said network is further operative for analog sensing and control, wherein said network further comprises an analog port and a converter for converting between analog and digital signals coupled between said analog port and said port of one of said nodes, and said analog port is couplable to an analog sensor or to an analog actuator constituting one of the components. 31. The network according to claim 30, wherein said network is further operative to carry video or voice signals. 32. The network according to claim 19 wherein at least one of said nodes is enclosed in a single enclosure together within a respective connected component. 33. The network according to claim 19, wherein said network is further operative to be in a third state in which data received from the first component via said first data port is repeated to both said first and second wiring segments. 34. A local area network for carrying power and digital data, said network comprising: a plurality of nodes including a first node including a first data port for coupling to a first data unit, a second node including a second data port for coupling to a second data unit and a third node including a third data port for coupling to a third data unit;a plurality of wiring segments each having two ends and comprising a first coaxial cable or at least one first twisted wire pair, wherein each end of each of said wiring segments is terminated in a connector, said plurality of wiring segments including first and second wiring segments, said first wiring segment connecting only said first and second nodes in a point-to-point connection for a first full-duplex data communication of serial digital data over said first wiring segment between the first and second data units, and said first wiring segment being connected to concurrently carry a first power signal substantially without interfering with the first communication of serial digital data and said second wiring segment connecting only said first and third nodes in a point-to-point connection for a second full-duplex communication of serial digital data over said second wiring segment between the first and third data units, and said second wiring segment being connected to concurrently carry a second power signal substantially without interfering with the second communication of serial digital data,wherein: each of said nodes is connected by a respective pair of said wiring segments to only two other nodes, said nodes are connected by the wiring segments in a ring configuration, and each of said nodes is in direct signal conducting communication with a unique pair of other nodes,said first node is connectable to a power supply to be powered from the power supply, and the first and second power signals are provided by the power supply,said second node is at least in part powered by the first power signal,said third node is at least in part powered by the second power signal, andeach of said nodes is addressable in said network. 35. The network according to claim 34, wherein: said network is further operative to be in a selected one of at least first and second states;in the first state, data received from said second data port is carried over said first wiring segment from said second node to said first node, repeated by the first node to said second wiring segment, and carried over said second wiring segment from said first node to said third node; andin the second state, data received from said third data port is carried over said second wiring segment from said third node to said first node, repeated by said first node to said first wiring segment, and carried over said first wiring segment from said first node to said second node. 36. The network according to claim 34, wherein said network is further operative to reroute digital data in the event of failure of one of said wiring segments. 37. The network according to claim 34, wherein said network is further operative for analog sensing and control, wherein said network further comprises an analog port and a converter for converting between analog and digital signals coupled between said analog port and said data port of one of the nodes, and said analog port is couplable to an analog sensor or to an analog actuator. 38. The network according to claim 37, wherein said network is further operative to carry video or voice signals. 39. The network according to claim 34, further comprising a single enclosure housing at least one of said nodes together with a respective connected data unit. 40. The network according to claim 34, wherein said network is further operative to be in a third state in which data received from the first data unit via said first data port is repeated to both said first and second wiring segments. 41. The network according to claim 34 wherein at least one of the connected data units is at least in part powered by a power signal carried over one of said wiring segments. 42. The network according to claim 34, wherein at least one of said wiring segments comprises dedicated power conductors carrying only a respective power signal and data conductors carrying distinct from the power conductors and carrying respective serial digital data. 43. The network according to claim 34, wherein at least one of said wiring segments carries a respective power signal and data over the same conductors. 44. The network according to claim 34 wherein at least one of said nodes is housed together with a connected data unit.
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