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-0239001 (2008-09-26) |
등록번호 | US-8155012 (2012-04-10) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 21 인용 특허 : 491 |
In accordance with the teachings of the present invention, a communication system (17) is provided for generating and monitoring data over pre-existing conductors (2A-2D) between associated pieces of networked computer equipment (3A-3D). The system includes a communication device (16) attached to th
In accordance with the teachings of the present invention, a communication system (17) is provided for generating and monitoring data over pre-existing conductors (2A-2D) between associated pieces of networked computer equipment (3A-3D). The system includes a communication device (16) attached to the electronic equipment that transmits information to a central module (15) by impressing a low frequency signal on the pre-existing data lines of the remotely located equipment. A receiver (6) in the central module (15) monitors the low frequency data on the data lines to determine the transmitted information of the electronic equipment. The communication device may also be powered by a low current power signal from the central module (15). The power signal to the communication device may also be fluctuated to provide useful information, such as status information, to the communication device. Relocation of the electronic equipment with attached communication device to another location on the network is detected immediately and may be used to update a database. This invention is particularly adapted to be used with an existing Ethernet communications link or equivalents thereof.
1. A method for adapting a piece of Ethernet data terminal equipment, the piece of Ethernet data terminal equipment having an Ethernet connector, the method comprising: selecting contacts of the Ethernet connector comprising a plurality of contacts, the selected contacts comprising at least one of t
1. A method for adapting a piece of Ethernet data terminal equipment, the piece of Ethernet data terminal equipment having an Ethernet connector, the method comprising: selecting contacts of the Ethernet connector comprising a plurality of contacts, the selected contacts comprising at least one of the plurality of contacts of the Ethernet connector and at least another one of the plurality of contacts of the Ethernet connector;coupling at least one path across the selected contacts of the Ethernet connector; andassociating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path. 2. The method according to claim 1 wherein the piece of Ethernet data terminal equipment is a personal computer. 3. The method according to claim 1 wherein the associating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path comprises associating identifying information about the piece of Ethernet data terminal equipment to impedance within the at least one path. 4. The method according to claim 1 wherein the Ethernet connector comprising the plurality of contacts is an RJ45 jack comprising the contact 1 through the contact 8. 5. The method according to claim 1 wherein the impedance within the at least one path is part of a detection protocol. 6. The method according to claim 1 wherein the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 7. The method according to claim 1 wherein the at least one of the plurality of contacts of the Ethernet connector comprises two of the plurality of contacts of the Ethernet connector. 8. The method according to claim 1 wherein the at least another one of the plurality of contacts of the Ethernet connector comprises two of the plurality of contacts of the Ethernet connector. 9. The method according to claim 1 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8, the at least one of the plurality of contacts of the Ethernet connector comprises two of the plurality of contacts of the Ethernet connector and the two of the plurality of contacts comprise the contact 3 and the contact 6. 10. The method according to claim 1 wherein the coupling at least one path across the selected contacts comprises coupling at least one path having at least one resistor. 11. The method according to claim 1 wherein the coupling at least one path across the selected contacts comprises coupling two paths across the selected contacts. 12. The method according to claim 1 wherein the coupling at least one path across the selected contacts comprises coupling two paths across the selected contacts, at least one of the two paths having a zener diode. 13. The method according to claim 1 wherein the coupling at least one path across the selected contacts comprises coupling at least one path having a controller across the selected contacts. 14. The method according to claim 1 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8 and the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet terminal data equipment. 15. The method according to claim 1 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8 and the associating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path comprises associating identifying information about the piece of Ethernet data terminal equipment to impedance within the at least one path. 16. The method according to claim 1 wherein the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 17. The method according to claim 1 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8 and the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 18. The method according to claim 1 wherein the associating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path comprises associating distinguishing information related to an electrical aspect of the piece of Ethernet data terminal equipment to impedance within the at least one path. 19. The method according to claim 1 wherein the associating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path comprises associating distinguishing information related to a physical aspect of the piece of Ethernet data terminal equipment to impedance within the at least one path. 20. The method according to claim 1 wherein the associating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path comprises associating distinguishing information about the piece of Ethernet data terminal equipment to impedance within the at least one path having at least one predetermined duration. 21. The method according to claim 20 wherein the impedance within the at least one path is between 10 k Ohms and 15 k Ohms. 22. The method according to claim 1 wherein the impedance within the at least one path is a function of voltage across the selected contacts. 23. The method according to claim 1 wherein the at least one path includes the center tap of at least one isolation transformer. 24. The method according to claim 1 further comprising physically connecting the adapted piece of Ethernet data terminal equipment to a network. 25. The method according to claim 1 wherein the selected contacts are the same contacts used for normal network communication. 26. The method according to claim 25 wherein the normal network communication is BaseT Ethernet communication. 27. The method according to claim 1 wherein the at least one path coupled across the selected contacts is formed through the piece of Ethernet data terminal equipment. 28. The method according to any one of claims 1 through 26 wherein the at least one path coupled across the selected contacts is formed through the piece of Ethernet data terminal equipment. 29. The method according to any one of claims 1 through 24 and claim 27 wherein the selected contacts are at least some of the same contacts used for normal network communication. 30. The method according to claim 29 wherein the normal network communication is BaseT Ethernet communication. 31. An adapted piece of Ethernet data terminal equipment comprising: an Ethernet connector comprising a plurality of contacts; andat least one path coupled across selected contacts, the selected contacts comprising at least one of the plurality of contacts of the Ethernet connector and at least another one of the plurality of contacts of the Ethernet connector,wherein distinguishing information about the piece of Ethernet data terminal equipment is associated to impedance within the at least one path. 32. The piece of Ethernet data terminal equipment according to claim 31 wherein the piece of Ethernet data terminal equipment is a personal computer. 33. The piece of Ethernet data terminal equipment according to claim 31 wherein the distinguishing information about the piece of Ethernet data terminal equipment associated to impedance within the at least one path comprises identifying information about the piece of Ethernet data terminal equipment. 34. The piece of Ethernet data terminal equipment according to claim 31 wherein the Ethernet connector is an RJ45 jack and the plurality of contacts comprises the contact 1 through the contact 8 of the RJ45 jack. 35. The piece of Ethernet data terminal equipment according to claim 31 wherein the impedance within the at least one path is part of a detection protocol. 36. The piece of Ethernet data terminal equipment according to claim 31 wherein the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 37. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least one of the plurality of contacts of the Ethernet connector comprises two of the plurality of contacts of the Ethernet connector. 38. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least another one of the plurality of contacts of the Ethernet connector comprises two of the plurality of contacts of the Ethernet connector. 39. The piece of Ethernet data terminal equipment according to claim 31 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8, the at least one of the plurality of contacts of the Ethernet connector comprises two of the plurality of contacts of the Ethernet connector and the two of the plurality of contacts comprise the contact 3 and the contact 6. 40. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least one path comprises at least one resistor. 41. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least one path comprises two paths. 42. The piece of Ethernet data terminal equipment according to claim 41 wherein one of the two paths comprises a zener diode. 43. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least one path comprises a controller. 44. The piece of Ethernet data terminal equipment according to claim 31 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8 and the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 45. The piece of Ethernet data terminal equipment according to claim 31 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8 and the distinguishing information about the piece of Ethernet data terminal equipment associated to impedance within the at least one path comprises identifying information about the piece of Ethernet data terminal equipment. 46. The piece of Ethernet data terminal equipment according to claim 31 wherein the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 47. The piece of Ethernet data terminal equipment according to claim 31 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8 and the piece of Ethernet data terminal equipment is a piece of BaseT Ethernet data terminal equipment. 48. The piece of Ethernet data terminal equipment according to claim 31 wherein the distinguishing information is related to an electrical aspect of the piece of Ethernet data terminal equipment. 49. The piece of Ethernet data terminal equipment according to claim 31 wherein the distinguishing information is related to a physical aspect of the piece of Ethernet data terminal equipment. 50. The piece of Ethernet data terminal equipment according to claim 31 wherein the distinguishing information about the piece of Ethernet data terminal equipment associated to impedance within the at least one path comprises distinguishing information about the piece of Ethernet data terminal equipment associated to impedance within the at least one path having a predetermined time duration. 51. The piece of Ethernet data terminal equipment according to claim 50 wherein impedance within the at least one path is between 10 k Ohms and 15 k Ohms. 52. The piece of Ethernet data terminal equipment according to claim 31 wherein the impedance within the at least one path is a function of voltage across the selected contacts. 53. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least one path includes the center tap of at least one isolation transformer. 54. The piece of Ethernet data terminal equipment according to claim 31 wherein the adapted piece of Ethernet data terminal equipment is physically connected to a network. 55. The piece of Ethernet data terminal equipment according to claim 31 wherein the selected contacts are the same contacts used for normal network communication. 56. The piece of Ethernet data terminal equipment according to claim 55 wherein the normal network communication is BaseT Ethernet communication. 57. The piece of Ethernet data terminal equipment according to claim 31 wherein the at least one path coupled across the selected contacts is formed through the piece of Ethernet data terminal equipment. 58. The piece of Ethernet data terminal equipment according to any one of claims 31 through 56 wherein the at least one path coupled across the selected contacts is formed through the piece of Ethernet data terminal equipment. 59. The piece of Ethernet data terminal equipment according to any one of claims 31 through 54 and claim 57 wherein the selected contacts are at least some of the same contacts used for normal network communication. 60. The piece of Ethernet data terminal equipment according to claim 59 wherein the normal network communication is BaseT Ethernet communication. 61. The method according to claim 1 wherein the piece of Ethernet data terminal equipment is powered-on. 62. The method according to any one of claims 1 through 27 and claim 61 wherein the at least one path permits use of the selected contacts for Ethernet communication. 63. The method according to claim 62 wherein the selected contacts are used for Ethernet communication. 64. The piece of Ethernet data terminal equipment according to claim 31 wherein the piece of Ethernet data terminal equipment is powered-on. 65. The piece of Ethernet data terminal equipment according to any one of claims 31 through 54 and claim 64 wherein the at least one path permits the use of the selected contacts for Ethernet communication. 66. The piece of Ethernet data terminal equipment according to claim 65 wherein the selected contacts are used for Ethernet communication. 67. A method for adapting a piece of terminal equipment, the piece of terminal equipment having an Ethernet connector, the method comprising: coupling at least one path across specific contacts of the Ethernet connector, the at least one path permits use of the specific contacts for Ethernet communication, the Ethernet connector comprising the contact 1 through the contact 8, the specific contacts of the Ethernet connector comprising at least one of the contacts of the Ethernet connector and at least another one of the contacts of the Ethernet connector; andarranging impedance within the at least one path to distinguish the piece of terminal equipment. 68. The method according to claim 67 wherein the piece of terminal equipment is a personal computer. 69. The method according to claim 67 wherein the arranging impedance within the at least one path to distinguish the piece of terminal equipment comprises arranging impedance within the at least one path to uniquely distinguish the piece of terminal equipment. 70. The method according to claim 67 wherein the arranging impedance within the at least one path to distinguish the piece of terminal equipment comprises arranging impedance within the at least one path to identify the piece of terminal equipment. 71. The method according to claim 67 wherein the arranging impedance within the at least one path to distinguish the piece of terminal equipment comprises arranging impedance within the at least one path to uniquely identify the piece of terminal equipment. 72. The method according to claim 67 wherein the piece of terminal equipment has a particular electrical aspect and the arranging impedance within the at least one path to distinguish the piece of terminal equipment comprises arranging impedance within the at least one path to distinguish that the piece of terminal equipment has the particular electrical aspect. 73. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within the at least one path to be part of a detection protocol. 74. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within the at least one path to be variable. 75. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within the at least one path to be continuously variable. 76. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging the impedance within the at least one path to draw DC current. 77. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging the impedance within at least one path to have at least one predetermined duration. 78. The method according to 77 wherein the predetermined duration is between 17 and 833 microseconds. 79. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within the at last one path to be between 10 k Ohms and 15 k Ohms. 80. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within the at least one path to be a function of voltage across the specific contacts. 81. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within at least one path to have a first impedance followed by a second impedance. 82. The method according to claim 67 wherein the arranging impedance within the at least one path comprises arranging impedance within the at least one path to have a first impedance for a first condition applied to the specific contacts followed by a second impedance for a second condition applied to the specific contacts. 83. The method according to claim 82 wherein the first and second conditions applied to the specific contacts are voltage conditions. 84. The method according to claim 83 wherein the voltage conditions are DC voltage conditions. 85. The method according to claim 82 wherein the first and second conditions applied to the specific contacts are current conditions. 86. The method according to claim 85 wherein the current conditions are DC current conditions. 87. The method according to claim 67 wherein the piece of terminal equipment is powered-on. 88. The method according to claim 67 wherein the coupling at least one path across the specific contacts comprises coupling a controller across the specific contacts. 89. The method according to claim 67 wherein the coupling at least one path across the specific contacts comprises coupling a zener diode across the specific contacts. 90. The method according to claim 67 wherein the coupling at least one path across the specific contacts comprises coupling an energy storage device across the specific contacts. 91. The method according to claim 67 wherein the coupling at least one path comprises coupling the at least one path internal to the piece of terminal equipment. 92. The method according to claim 67 wherein the Ethernet connector is an RJ45 jack comprising the contact 1 through the contact 8. 93. The method according to claim 67 wherein the specific contacts are used for Ethernet communication. 94. The method according to claim 67 wherein the specific contacts are used for Ethernet communication and at least some of the specific contacts are actually carrying Ethernet signals. 95. The method according to claim 67 wherein the specific contacts are used for Ethernet communication and at least some of the specific contacts are actually carrying DC current. 96. The method according to claim 67 wherein the specific contacts are used for Ethernet communication and at least some of the specific contacts are actually carrying Ethernet signals and DC current. 97. The method according to claim 67 wherein the at least one path includes the center tap of at least one isolation transformer. 98. The method according to claim 67 further comprising physically connecting the adapted piece of terminal equipment to a network. 99. The method according to claim 67 further comprising at least one electrical condition applied to the specific contacts. 100. The method according to claim 99 wherein the at least one electrical condition comprises a voltage applied across the specific contacts. 101. The method according to claim 100 wherein the voltage is a DC voltage. 102. The method according to claim 99 wherein the at least one electrical condition comprises a current applied to the specific contacts. 103. The method according to claim 102 wherein the current is a DC current. 104. The method according to claim 67 wherein Ethernet communication is BaseT Ethernet communication. 105. The method according to claim 67 wherein the at least one of the specific contacts comprises the contact 1 and the contact 2 and the at least another one of the specific contacts comprises the contact 3 and the contact 6. 106. The method according to any one of claims 67 through 104 wherein the piece of terminal equipment is a piece of Ethernet data terminal equipment. 107. The method according to claim 106 wherein the at least one of the specific contacts comprises the contact 1 and the contact 2 and the at least another one of the specific contacts comprises the contact 3 and the contact 6. 108. An adapted piece of terminal equipment having an Ethernet connector, the piece of terminal of equipment comprising: at least one path coupled across specific contacts of the Ethernet connector, the at least one path permits use of the specific contacts for Ethernet communication, the Ethernet connector comprising the contact 1 through the contact 8, the specific contacts comprising at least one of the contacts of the Ethernet connector and at least another one of the contacts of the Ethernet connector, impedance within the at least one path arranged to distinguish the piece of terminal equipment. 109. The piece of terminal equipment according to claim 108 wherein the piece of terminal equipment is a personal computer. 110. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to uniquely distinguish the piece of terminal equipment. 111. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to identify the piece of terminal equipment. 112. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to uniquely identify the piece of terminal equipment. 113. The piece of terminal equipment according to claim 108 wherein the piece of terminal equipment has a particular electrical aspect and the impedance within the at least one path is arranged to distinguish that the piece of terminal equipment has the particular electrical aspect. 114. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to be part of a detection protocol. 115. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to be variable. 116. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to be continuously variable. 117. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to draw DC current. 118. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to have at least one predetermined duration. 119. The piece of terminal equipment according to claim 118 wherein the predetermined duration is between 17 and 833 microseconds. 120. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged be between 10 k Ohms and 15 k Ohms. 121. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to be a function of voltage across the specific contacts. 122. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to have a first impedance followed by a second impedance. 123. The piece of terminal equipment according to claim 108 wherein the impedance within the at least one path is arranged to have a first impedance for a first condition applied to the specific contacts followed by a second impedance for second condition applied to the specific contacts. 124. The piece of terminal equipment according to claim 123 wherein the first and second conditions applied to the specific contacts are voltage conditions. 125. The piece of terminal equipment according to claim 124 wherein the voltage conditions are DC voltage conditions. 126. The piece of terminal equipment according to claim 123 wherein the first and second conditions applied to the specific contacts are current conditions. 127. The piece of terminal equipment according to claim 126 wherein the current conditions are DC current conditions. 128. The piece of terminal equipment according to claim 108 wherein the piece of terminal equipment is powered-on. 129. The piece of terminal equipment according to claim 108 wherein a controller is coupled across the specific contacts. 130. The piece of terminal equipment according to claim 108 wherein a zener diode is coupled across the specific contacts. 131. The piece of terminal equipment according to claim 108 wherein an energy storage device is coupled across the specific contacts. 132. The piece of terminal equipment according to claim 108 wherein the at least one path is internal to the piece of terminal equipment. 133. The piece of terminal equipment according to claim 108 wherein the Ethernet connector is an RJ45 jack connector comprising the contact 1 through the contact 8. 134. The piece of terminal equipment according to claim 108 wherein the specific contacts are used for Ethernet communication. 135. The piece of terminal equipment according to claim 108 wherein the specific contacts are used for Ethernet communication and at least some of the specific contacts are actually carrying Ethernet signals. 136. The piece of terminal equipment according to claim 108 wherein the specific contacts are used for Ethernet communication and at least some of the specific contacts are actually carrying DC current. 137. The piece of terminal equipment according to claim 108 wherein the specific contacts are used for Ethernet communication and at least some of the specific contacts are actually carrying Ethernet signals and DC current. 138. The piece of terminal equipment according to claim 108 wherein the at least one path includes the center tap of at least one isolation transformer. 139. The piece of terminal equipment according to claim 108 wherein the adapted piece of terminal equipment is physically connected to a network. 140. The piece of terminal equipment according to claim 108 wherein at least one electrical condition is applied to the specific contacts. 141. The piece of terminal equipment according to claim 140 wherein the at least one electrical condition comprises a voltage applied across the specific contacts. 142. The piece of terminal equipment according to claim 141 wherein the voltage is a DC voltage. 143. The piece of terminal equipment according to claim 140 wherein the at least one electrical condition comprises a current applied to the specific contacts. 144. The piece of terminal equipment according to claim 143 wherein the current is a DC current. 145. The piece of terminal equipment according to claim 108 wherein Ethernet communication is BaseT Ethernet communication. 146. The piece of terminal equipment according to claim 108 wherein the at least one of the specific contacts comprises the contact 1 and the contact 2 and the at least another one of the specific contacts comprises the contact 3 and the contact 6. 147. The piece of terminal equipment according to any one of claims 108 through 145 wherein the piece of terminal equipment is a piece of Ethernet data terminal equipment. 148. The piece of terminal equipment according to claim 147 wherein the at least one of the specific contacts comprises the contact 1 and the contact 2 and the at least another one of the specific contacts comprises the contact 3 and the contact 6.
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