Multi-wideband communications over power lines
First Claim
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1. A communication network comprising:
- a first communication node configured to communicate using a first wideband frequency range;
a second communication node configured to communicate using a second wideband frequency range separate from the first wideband frequency range; and
a third communication node configured to simultaneously and independently receive communication from the first communication node over a power line using the first wideband frequency range and from the second communication node over the power line using the second wideband frequency range, wherein the first wideband frequency range includes higher frequencies than the second wideband frequency range, and the third communication node is further configured to communicate with the first communication node over the power line without sending signals through a junction box, and to communicate with the second communication node by sending signals through the junction box.
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Abstract
Systems and methods for communicating over a power line are configured to substantially simultaneously communicate over a plurality of wideband frequency ranges. Signals may be communicated two or from a communication node at two different frequencies simultaneously. These signals may be exchanged with different nodes and/or include independent data. In some embodiments, some of the wideband frequency ranges are above 30 MHz.
103 Citations
12 Claims
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1. A communication network comprising:
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a first communication node configured to communicate using a first wideband frequency range; a second communication node configured to communicate using a second wideband frequency range separate from the first wideband frequency range; and a third communication node configured to simultaneously and independently receive communication from the first communication node over a power line using the first wideband frequency range and from the second communication node over the power line using the second wideband frequency range, wherein the first wideband frequency range includes higher frequencies than the second wideband frequency range, and the third communication node is further configured to communicate with the first communication node over the power line without sending signals through a junction box, and to communicate with the second communication node by sending signals through the junction box.
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2. The communication network of claim 1, wherein the third communication node is further configured to communicate with the first communication node using the second wide band frequency range.
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3. The communication network of claim 1, wherein the third communication node is further configured to communicate with the second communication node by using both the first wideband frequency range and the second wideband frequency range at the same time.
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4. The communication network of claim 1, wherein the first wideband frequency range is above 30 MHz and the second wideband frequency range is below 30 MHz.
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5. The communication network of claim 1, wherein the first communication node and the third communication node are both configured to communicate using a third wideband frequency range separate from the first wideband frequency range and the second wideband frequency range.
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6. The communication network of claim 1, wherein the first communication node is configured to communicate using a first standard and the second communication node is configured to communicate using a second standard, at least one of the first standard and the second different standard being included in a set consisting of the Homeplug 1.0/1.1 standards, the Homeplug AV standard, the CEPCA standard and the Digital Home Standard.
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7. The communication network of claim 1, wherein the third communication node is further configured to determine one or more wideband frequency ranges to use in communicating with the first communication node and the second communication node.
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8. The communication network of claim 7, wherein the third communication node is configured to determine a standard to use when communicating using the first wideband frequency range and to determine a different standard to use when communicating using the second wideband frequency range.
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9. The communication network of claim 1, wherein the third communication node is configured to relay data from the first communication node to the second communication node.
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10. The communication network of claim 1, wherein the third communication node comprises an analog frequency filter configured to separate signals within the first wideband frequency range from signals within the second wideband frequency range.
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11. The communication network of claim 10, wherein the analog frequency filter is configured to convey signals within the first wideband frequency to first processing electronics and signals within the second wideband frequency to second processing electronics.
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12. The communication network of claim 1, wherein the third communication node is further configured to automatically detect the first communication node and the second communication node using the first wideband frequency range and the second wideband frequency range, respectively.
Specification
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Current AssigneeAvago Technologies International Sales Pte Limited (Broadcom, Inc.)
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Original AssigneeGigle Semiconductor S.L.
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InventorsRiveiro, Juan Carlos, Fouren, Nils Hakan, Hurwitz, Jonathan Ephraim David
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Primary Examiner(s)Edouard; Patrick N
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Assistant Examiner(s)Cai; Wayne
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Application NumberUS12/554,400Publication NumberTime in Patent Office263 DaysField of Search455/402, 34053811-53817, 34031011-31018, 340/288, 307 2- 4US Class Current455/402CPC Class CodesH04B 2203/5416 by adding signals to the wa...H04B 2203/5495 having measurements and tes...H04B 3/542 the information being in di...
