Method for detecting a fault or also the direction of a fault in electric lines and means for executing this method
First Claim
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1. A method for detecting a fault and a fault direction in electric lines, comprising:
- simultaneously measuring voltage and current at at least one location in said electric lines and forming voltage and current step signals (Su, Si) based on said measuring;
establishing a Cartesian coordinate system defining four quadrants and an origin, said coordinate system having one coordinate corresponding to said voltage step signal Su and another coordinate corresponding to said current step signal Si, wherein each pair of said simultaneously measured signals Su, Si forms a point in said coordinate system and said points define a line of motion progressing from one quadrant to a next adjacent quadrant;
establishing predetermined triggering boundaries in each of said quadrants and establishing predetermined boundary zones to a predetermined depth from each triggering boundary toward said origin;
monitoring progress of said line of motion relative to said triggering boundaries and said boundary zones;
displacing the triggering boundary in said next adjacent quadrant upon a detection in said monitoring step that said line of motion has entered the boundary zone of said one quadrant;
detecting a fault upon a detection in said monitoring step that said line of motion has transgressed a triggering boundary and detecting a fault direction based on the quadrants in which a fault detection is made; and
generating a triggering signal upon a detection in said monitoring step that said line of motion has transgressed a triggering boundary.
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Abstract
A method and apparatus for detecting a fault and also the direction of a fault in electric lines, wherein voltage (Su) and current step signals (Si) corresponding to the transient components in the line voltage and line current are derived; the instantaneous values of these step signals (Su, Si) define, in a co-ordinate system formed by the step signals (Su, Si) themselves, a point which passes through a line of motion (B) after the occurrence of a fault; and if the point transgresses a triggering boundary (AI, AII, AIII, AIV) in the co-ordinate system the fault is detected. In this event the direction of the fault is found from the quadrant (QI, QII, QIII, QIV) in which the transgression takes place. At a predetermined time after entry of the point into a boundary zone provided in one quadrant, located in the line of motion ahead of a triggering boundary in next adjacent quadrant, a triggering boundary in at least the next adjacent quadrant is adjusted to a greater distance from the origin of the co-ordinate system which is located in the same semicircular space bounded by the axis of the voltage step signal (Su). This measure considerably increases the reliability of detection with respect to fault direction and, in addition, reduces the time required for fault detection.
16 Citations
12 Claims
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1. A method for detecting a fault and a fault direction in electric lines, comprising:
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simultaneously measuring voltage and current at at least one location in said electric lines and forming voltage and current step signals (Su, Si) based on said measuring; establishing a Cartesian coordinate system defining four quadrants and an origin, said coordinate system having one coordinate corresponding to said voltage step signal Su and another coordinate corresponding to said current step signal Si, wherein each pair of said simultaneously measured signals Su, Si forms a point in said coordinate system and said points define a line of motion progressing from one quadrant to a next adjacent quadrant; establishing predetermined triggering boundaries in each of said quadrants and establishing predetermined boundary zones to a predetermined depth from each triggering boundary toward said origin; monitoring progress of said line of motion relative to said triggering boundaries and said boundary zones; displacing the triggering boundary in said next adjacent quadrant upon a detection in said monitoring step that said line of motion has entered the boundary zone of said one quadrant; detecting a fault upon a detection in said monitoring step that said line of motion has transgressed a triggering boundary and detecting a fault direction based on the quadrants in which a fault detection is made; and generating a triggering signal upon a detection in said monitoring step that said line of motion has transgressed a triggering boundary. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An apparatus for detecting a fault and a fault direction in electric lines, wherein both the voltage and the current of the electric lines are successively sampled and respective voltage and current steps signals (Su, Si) generated at each sampling, each pair of said step signals (Su, Si) defining a point in a Cartesian coordinate system, said Cartesian coordinate system comprising four quadrants and an origin, and successive pairs of said steps signals (Su, Si) defining a line of motion progressing from one quadrant to a next adjacent quadrant, comprising:
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monitoring means for monitoring in each of said quadrants the progression of the points defined by said step signals (Su, Si) from said one quadrant to said next adjacent quadrant, comprising, first function generator means for establishing in each of said quadrants a triggering boundary, first comparator means connected to said first function generator for producing a fault signal when a point defined by said step signals (Su, Si) transgresses the triggering boundary of any quadrant, said first function generator means comprising displacement means for displacing at least a section of the triggering boundary at any one quadrant a predetermined distance in a direction away from the origin upon application of a displace control signal thereto, second function generator means for establishing in each quadrant a boundary zone extending a predetermined depth from the triggering boundary of the respective quadrant to the origin, second comparator means connected to said second function generator means for producing said displace control signal whenever a point defined by said step signals (Su, Si) enters into a boundary zone in any quadrant, said second comparator means connected to said displacement means of said first function generator means and applying said displace control signal to said displacement means to displace the triggering boundary of said next adjacent quadrant. - View Dependent Claims (11)
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12. A process computer system apparatus for detecting a fault and a fault direction in electric lines, wherein both the voltage and the current of the electric lines are successively sampled and respective voltage and current step signals (Su, Si) generated at each sampling, each pair of said step signals (Su, Si) defining a point in a Cartesian coordinate system, said Cartesian coordinate system including four quadrants and an origin, and successive pairs of said step signals (Su, Si) defining a line of motion progressing from one quadrant to a next adjacent quadrant, comprising;
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a process peripheral consisting of a first input unit (EI) to which the voltage signals (Su) are applied and a second input unit (EII) to which the current step signals (Si) are applied; an output unit (AG); a memory (AS); a central processing unit (CPU); and at least one data link (DV) which connects the components (EI), (EII), (AG), (AS), (CPU); said process computer system capable of monitoring in each of said quadrants the progression of the points defined by said step signals (Su, Si) from said one quadrant to said next adjacent quadrant by performing the following steps, establishing in each of said quadrants a triggering boundary, producing a fault signal when a point defined by said step signals (Su, Si) trangresses the triggering boundary of any quadrant, establishing in each quadrant a boundary zone extending a predetermined depth from the triggering boundary of the respective quadrant to the origin, detecting whenever a point defined by said step signals (Su, Si) enters into a boundary zone established in said establishing step; displacing at least a section of a triggering boundary of said next adjacent quadrant whenever a point defined by said step signals is detected as entering into a boundary zone as detected in said detecting step, and determining that a fault has occurred based upon making a detection in said detecting step and determining a fault direction based on the quadrants in which a fault detection is made.
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Specification
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Current AssigneeBBC Brown Boveri & Company Limited (ABB Limited)
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Original AssigneeBBC Brown Boveri & Company Limited (ABB Limited)
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InventorsVitins, Michael
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Primary Examiner(s)Krass, Errol A.
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Assistant Examiner(s)Teska, Kevin J.
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Application NumberUS06/506,410Time in Patent Office1,218 DaysField of Search364/480, 364/481, 364/483, 364/492, 361/18, 361/42, 361/65, 361/79, 340/657, 324/51, 324/52US Class Current702/59CPC Class CodesH02H 7/265 making use of travelling wa...
