Intelligent circuit breaker providing synchronous switching and condition monitoring
First Claim
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1. A synchronous control unit (SCU) for synchronously switching a switching device, comprising means for monitoring a current or voltage waveform on a switched circuit;
- means for opening or closing the circuit at a prescribed point on the waveform;
compensation means for compensating a computed closing or opening time for variations in temperature, control voltage, and operating mechanism stored energy; and
adaptation means for adapting the computed closing or opening time to compensate for trending changes in the switching device, wherein the adapting function is performed on the basis of at least an error comprising the difference between a target switching time and an actual switching time, said actual switching time being determined by detecting the time at which current begins to flow in the switched circuit.
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Abstract
An intelligent circuit breaker or switching device system comprises three separate microprocessor-based units, including a condition monitoring unit (CMU) 40, a breaker control unit (BCU) 50, and a synchronous control unit (SCU) 60. The CMU 40 provides detailed diagnostic information by monitoring key quantities associated with circuit breaker or switching device reliability. On-line analysis performed by the CMU provides information facilitating the performance of maintenance as needed and the identification of impending failures. The BCU 50 is a programmable system having self-diagnostic and remote communications. The BCU replaces the conventional electromechanical control circuits typically employed to control a circuit breaker or switching device. The SCU 60 provides synchronous switching control for both closing and opening the circuit interrupters. The control processes carried out by the SCU reduce system switching transients and interrupter wear. The intelligent circuit breaker or switching device system improves system operation and equipment maintenance.
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Citations
19 Claims
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1. A synchronous control unit (SCU) for synchronously switching a switching device, comprising means for monitoring a current or voltage waveform on a switched circuit;
- means for opening or closing the circuit at a prescribed point on the waveform;
compensation means for compensating a computed closing or opening time for variations in temperature, control voltage, and operating mechanism stored energy; and
adaptation means for adapting the computed closing or opening time to compensate for trending changes in the switching device, wherein the adapting function is performed on the basis of at least an error comprising the difference between a target switching time and an actual switching time, said actual switching time being determined by detecting the time at which current begins to flow in the switched circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7)
- means for opening or closing the circuit at a prescribed point on the waveform;
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8. A method for operating a synchronous control unit (SCU) for synchronously switching a switching device coupled to a switched circuit carrying a current or voltage waveform, said SCU having a target switching time (TBASE) and wherein a switching time substantially corresponding with a target point on the waveform is determined, comprising the steps of:
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(a) determining an electrical and mechanical system adaptation adjustment factor (Δ
TAdapt);(b) receiving sensor inputs for temperature, control voltage, operating mechanism energy, and operating signal history, and then determining a compensation adjustment factor (Δ
TComp);(c) receiving sensor inputs for system voltage and system current, and then determining a system current and/or voltage target for synchronous switching; (d) determining an estimated operating time of the switching device (TEst); (e) calculating an operating time delay to actuate the switching device at the target system voltage and current if an operating signal, indicating that the switching device is to be opened or closed, were received now by the SCU; and (f) determining whether an operating signal has been received and, if so;
causing the switching device to operate so as to synchronously switch in accordance with the calculated operating time delay and the voltage or current target and, if not;
not causing the switching device to operate. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- 11. A method as recited in claim 8, wherein a performance error TErr is calculated as,
- space="preserve" listing-type="equation">T.sub.Err =T.sub.Actual -T.sub.est.
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12. A method as recited in claim 8, wherein, in step b, the process for determining the compensation adjustment factor, Δ
- Tcomp, comprises;
(b1) obtaining compensation characteristics for temperature, control voltage, mechanism energy, and history (Δ
TTemp, Δ
TControl Voltage, Δ
TMechanism Energy, and Δ
THistory, respectively); and(b2) determining the statistical significance of any changes in compensation characteristics; (b3) if any statistically significant changes have occurred, updating the compensation characteristic that significantly changed; and (b4) if no statistically significant changes have occurred, calculating the compensation adjustment factor as,
space="preserve" listing-type="equation">Δ
T.sub.Comp =Δ
T.sub.Temp +Δ
T.sub.Control Voltage +Δ
T.sub.Mechanism Energy 30 Δ
T.sub.History.
- Tcomp, comprises;
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13. A method as recited in claim 12, wherein, in step b1, said compensation characteristics (Δ
- TTemp, Δ
TControl Voltage, Δ
TMechanism Energy, Δ
THistory) are stored in memory.
- TTemp, Δ
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14. A method as recited in claim 12, wherein, in step b1, said compensation characteristics (Δ
- TTemp, Δ
TContol Voltage, Δ
TMechanism Energy, Δ
THistory) are computed.
- TTemp, Δ
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15. A method as recited in claim 8, wherein the process, in step a, for determining the adaptation adjustment, Δ
- TAdapt, comprises;
(a1) performing a statistical analysis of performance data in a performance database to define distribution parameters for selected data; (a2) determining whether any trend is evident from said statistical analysis; (a3) if a trend is evident, updating the adaptation parameter Δ
TAdapt ;(a4) if no trend is evident, determining whether the last performance error, TError, was within acceptable bounds and, if TError is within acceptable bounds, calculating a new baseline target (TBase (New)) based on previous performance data.
- TAdapt, comprises;
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16. A method as recited in claim 15, wherein said distribution parameters comprise mean and variance.
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17. A method as recited in claim 15, wherein step a1 further comprises normalizing the distribution parameters to remove compensation and feedback adjustments.
- 18. A method as recited in claim 15, wherein, in step a3, said new baseline target is calculated as,
- space="preserve" listing-type="equation">T.sub.Base (New) =T.sub.Base +T.sub.Err /2.
Specification
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Current AssigneeABB Incorporated (ABB Limited)
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Original AssigneeABB Power T&D Co Inc (ABB Limited)
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InventorsJohnson, David S., Meyer, Jeffry R., Khan, Aftab H., Stiller, Paul H.
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Primary Examiner(s)Voeltz, Emanuel T.
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Assistant Examiner(s)SHAH, KAMINI S
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Application NumberUS08/644,587Time in Patent Office396 DaysField of Search364/483, 364/492, 364/494, 364/550, 364/551.01, 361/88, 361/91, 361/93, 361/90, 377/15, 377/16US Class Current700/286CPC Class CodesH01H 11/0062 Testing or measuring non-el...H01H 2011/0068 measuring the temperature o...H01H 33/593 for ensuring operation of t...
