Electrical power line parameter measurement apparatus and systems, including compact, line-mounted modules
First Claim
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1. A sensor module for hot-stick mounting on and removal from an energized, high voltage power conductor volts, said module comprising, in combination:
- (a) a first, generally cylindrical housing portion having a central axis and a metallic skin, and containing at least one electrical element responsive to the electromagnetic field associated with said energized conductor mounted within said first housing portion, said metallic skin being divided by an insulating member along at least one, complete, peripheral path to prevent an electrical short circuit loop extending entirely around said element, allowing said electromagnetic field to be coupled to said element;
(b) hot-stick mounting means and removal including hinge members for mounting said module upon said conductor with the latter extending along said central axis of said cylindrical housing portion and conductivity isolated from said metallic skin to sense voltage of said power conductor; and
(c) a second housing portion affixed to the exterior of said first housing portion and extending about said central axis thereof not more than about 150°
, said second housing portion containing said hinge members.
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Abstract
The disclosed invention is primarily directed to sensor modules for mounting directly upon energized electrical power lines to monitor parameters associated with operation thereof, wherein the modules have a more compact lateral configuration than prior art modules designed for the same purpose. The modules include a first, cylindrical housing portion containing the sensors and other electronic data processing and transmitting elements, and a second housing portion, affixed to the exterior of the first portion and extending not more than about 150° around the periphery thereof, and enclosing mechanical elements of the module mounting. Also disclosed are circuitry for improving the accuracy of voltage measurements made by such modules by compensating for effects of adjacent, energized conductors, a method for reducing the number of frequency channels required for RF data transmissions by a large number of sensor modules at a substation, a method for acquiring time-synchronized data from multiple modules within a substation for accurate post-fault, sequence-of-events analysis, a method for performing high speed sampling and comparison of cyclically variable parameters for relaying and harmonic measurement applications, and optical communications links for transmitting data from sensor modules.
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Citations
13 Claims
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1. A sensor module for hot-stick mounting on and removal from an energized, high voltage power conductor volts, said module comprising, in combination:
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(a) a first, generally cylindrical housing portion having a central axis and a metallic skin, and containing at least one electrical element responsive to the electromagnetic field associated with said energized conductor mounted within said first housing portion, said metallic skin being divided by an insulating member along at least one, complete, peripheral path to prevent an electrical short circuit loop extending entirely around said element, allowing said electromagnetic field to be coupled to said element; (b) hot-stick mounting means and removal including hinge members for mounting said module upon said conductor with the latter extending along said central axis of said cylindrical housing portion and conductivity isolated from said metallic skin to sense voltage of said power conductor; and (c) a second housing portion affixed to the exterior of said first housing portion and extending about said central axis thereof not more than about 150°
, said second housing portion containing said hinge members. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A sensor module for hot-stick mounting on a power conductor to monitor the voltage thereon, said module comprising:
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(a) housing means having a metallic outer skin and containing at least one electrical element responsive to the electromagnetic field associated with said energized conductor mounted within said housing means, said metallic skin being divided by an insulating member along at least one, complete, peripheral path to prevent an electrical short circuit loop extending entirely around said element, thereby allowing said electromagnetic field to be coupled to said element; (b) means icluding said metallic skin of said housing for sensing the value of voltage on said conductor and generating a first signal commensurate with said sensed voltage value; (c) a conducting probe extending outwardly from said housing means for contact by a precision potentiometer; (d) means establishing a conducting path between said power conductor and said probe, whereby the actual voltage on said conductor is reflected by the current flowing through the known resistance of said potentiometer; (e) means for generating a second signal commensurate with said actual voltage value; and (f) means for comparing said first and second signals to permit calibration of said first signal.
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13. A sensor module for mounting upon and removal from an insulation-covered, energized, power conductor for monitoring the values of a plurality of electrical parameters, including voltage, associated therewith, said module comprising:
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(a) housing means having a metallic outer skin and containing at least one electrical element responsive to the electromagnetic field associated with said energized conductor mounted within said housing means, said metallic skin being divided by an insulating member along at least one, complete, peripheral path to prevent an electrical short circuit loop extending entirely around said element, thereby allowing said electromagnetic field to be coupled to said element; (b) mounting means movable from an open to a closed position for mounting said housing means upon said conductor in surrounding relation thereto; (c) at least one electrically conducting member having an end portion movable to pierce and extend through the insulating cover on said conductor to conductively contact said conductor in response to movement of said mounting means to said closed position; (d) capacitive coupling means having a first side conductively coupled to said conducting member and a second side conductively coupled to said metallic outer skin, whereby said conductor is capacitively coupled to said metallic outer skin of said housing, said capacitive coupling having a high impedance at or below the highest frequency of voltage to be measured; and (e) means carried by said housing means for communicating data commensurate with said parameter values to a ground receiving station.
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Specification
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Current AssigneeRoosevelt A. Fernandes
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Original AssigneeRoosevelt A. Fernandes
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InventorsFernandes, Roosevelt A.
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Primary Examiner(s)Eisenzopf, Reinhard J.
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Assistant Examiner(s)BURNS, WILLIAM
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Application NumberUS07/048,579Time in Patent Office617 DaysField of Search324/72.5, 324/74, 324/117 R, 324/127, 324/149, 324/142, 340/870.17, 340/870.38, 340/538, 364/464, 364/492, 364/483US Class Current324/127CPC Class CodesG01K 1/024 for remote indicationG01K 1/143 for measuring surface tempe...G01R 15/142 Arrangements for simultaneo...G01R 15/26 using modulation of waves o...G01R 23/16 Spectrum analysis; Fourier ...H01J 13/00 Discharge tubes with liquid...H02J 13/00002 characterised by monitoringH02J 13/00017 using optical fiberH02J 13/00022 using wireless data transmi...H02J 13/00034 the elements or equipment b...Y02E 60/00 Enabling technologies; Tech...Y04S 10/00 Systems supporting electric...Y04S 10/30 State monitoring, e.g. faul...Y04S 40/124 using wired telecommunicati...Y04S 40/126 using wireless data transmi...
