CA2299043A1 - Revenue meter with power quality features - Google Patents

Revenue meter with power quality features Download PDF

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Publication number
CA2299043A1
CA2299043A1 CA002299043A CA2299043A CA2299043A1 CA 2299043 A1 CA2299043 A1 CA 2299043A1 CA 002299043 A CA002299043 A CA 002299043A CA 2299043 A CA2299043 A CA 2299043A CA 2299043 A1 CA2299043 A1 CA 2299043A1
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CA
Canada
Prior art keywords
meter
operative
coupled
revenue
energy
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CA002299043A
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French (fr)
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CA2299043C (en
Inventor
Rene T. Jonker
Piotr B. Przydatek
Colin N. Gunn
Michael E. Teachman
Constantine A. Antoniou
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Power Measurement Ltd
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Power Measurement Ltd
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Application filed by Power Measurement Ltd filed Critical Power Measurement Ltd
Publication of CA2299043A1 publication Critical patent/CA2299043A1/en
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Publication of CA2299043C publication Critical patent/CA2299043C/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R21/00Arrangements for measuring electric power or power factor
    • G01R21/133Arrangements for measuring electric power or power factor by using digital technique

Abstract

Power quality detection, monitoring, reporting, recording and communication in a revenue accuracy electrical power meter is disclosed.
Transient events are detected by monitoring the wave shape of the electrical power and comparing deviations to a known threshold. Sags and Swells are detected by computing root mean square value over a rolling window and comparing the computed value with a known threshold. Harmonic frequencies and symmetrical components are quantified by a known algorithm and compared with a known threshold. Incoming waveforms are stored to memory. All recorded and computed data is moved to non-volatile storage via direct memory access transfer in the event that a power quality event jeopardizes the operating power of the meter. Further, the meter provides a power supply utilizing high and low capacitive storage banks to supply sufficient energy to survive short duration power quality events which jeopardize the meter's operating power.

Claims (202)

1. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
one or more sensors coupled with said electric circuit and operative to sense one or more power parameters in said electric circuit and generate one or more analog signals indicative of said power parameters;
at least one analog to digital converter coupled with said sensors and operative to convert said analog signals to one or more digital samples; and a detector coupled with said analog to digital converter and operative to compare each of said digital samples to a threshold and indicate a power quality event when said digital sample deviates from said threshold.
2. The revenue meter of Claim 1 wherein said analog to digital converter converts said analog signals to said one or more digital samples at a rate of at least 32 samples per cycle.
3. The revenue meter of Claim 1 wherein said detector comprises a digital signal processor.
4. The revenue meter of Claim 1 wherein said detector is further operative to calculate and record the amount by which each of said digital samples deviates from said threshold.
5. The revenue meter of Claim 4 wherein said detector is further operative to calculate and record the maximum amount by which any one of said digital samples deviates from said threshold for successive of said digital samples which deviate from said threshold.
6. The revenue meter of Claim 1 wherein said detector is further operative to calculate and record the duration for which successive of said digital samples deviate from said threshold.
7. The revenue meter of Claim 1 wherein said threshold is computed dynamically.
8. The revenue meter of Claim 7 wherein said computation is based on the nominal voltage and the meter scaling.
9. The revenue meter of Claim 1 wherein said detector is further operative to trigger a waveform recorder when any of said digital samples deviate from said threshold.
10. The revenue meter of Claim 1 wherein said detector is further operative to indicate the occurrence of a single power quality event for successive of said digital samples which deviate from said threshold.
11. The revenue meter of Claim 1 wherein said power parameters include parameters selected from the group consisting of voltage and current.
12. The revenue meter of Claim 1 wherein said power quality event includes events selected from group consisting of transient, sag, swell, wave shape deviation, harmonic deviation and component symmetry deviation.
13. The revenue meter of Claim 12 wherein said detector is further operative to suppress indication of a transient event when a sag/swell event is concurrently detected.
14. The revenue meter of Claim 1 further comprising a memory coupled with said analog to digital converter and operative to receive and store said digital samples and wherein said detector is coupled with said memory and operative to compare at least one of said digital samples to at least one other of said stored digital samples.
15. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
a sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate an analog signal indicative of said voltage;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples; and a detector coupled with said analog to digital converter and operative to compare each of said digital samples to a threshold and indicate a transient event when said digital sample exceeds said threshold.
16. The revenue meter of Claim 15 wherein said analog to digital converter converts said analog signals to said one or more digital samples at a rate of at least 32 samples per cycle.
17. The revenue meter of Claim 15 wherein said detector comprises a digital signal processor.
18. The revenue meter of Claim 15 wherein said detector is further operative to calculate and record the amount by which said digital samples exceed said threshold.
19. The revenue meter of Claim 18 wherein said detector is further operative to calculate and record the maximum amount by which any one of said digital samples exceeds said threshold for successive of said digital samples which exceed said threshold.
20. The revenue meter of Claim 15 wherein said detector is further operative to calculate and record the duration for which successive of said digital samples exceed said threshold.
21. The revenue meter of Claim 15 wherein said threshold is computed dynamically.
22. The revenue meter of Claim 21 wherein said computation is based on the nominal voltage and the meter scaling.
23. The revenue meter of Claim 15 wherein said detector is further operative to trigger a waveform recorder when said digital samples exceed said threshold.
24. The revenue meter of Claim 15 wherein said detector is further operative to indicate the occurrence of a single transient event for successive of said digital samples which exceed said threshold.
25. The revenue meter of Claim 15 wherein said detector is further operative to suppress said indication when a sag/swell event is concurrently detected.
26. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
a sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate an analog signal indicative of said voltage, said voltage having a wave shape;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples;
a memory coupled with said analog to digital converter and operative to receive and store at least 2 cycles worth of said one or more digital samples; and a detector coupled with said memory and operative to compare a first of said digital samples to a second of said digital samples and calculate a difference, said second digital sample being non-consecutive with said first digital sample, said detector further operative to compare said difference to a threshold and indicate a deviation in said wave shape when said difference exceeds said threshold.
27. The revenue meter of Claim 26 wherein said analog to digital converter converts said analog signals to said one or more digital samples at a rate of at least 32 samples per cycle.
28. The revenue meter of Claim 26 wherein said detector is further operative to calculate and record the amount by which said difference exceeds said threshold.
29. The revenue meter of Claim 28 wherein said detector is further operative to calculate and record the maximum amount by which any one of said differences exceeds said threshold for successive of said differences which exceed said threshold.
30. The revenue meter of Claim 26 wherein said detector is further operative to calculate and record the duration for which successive of said differences exceed said threshold.
31. The revenue meter of Claim 26 wherein said detector is further operative to trigger a waveform recorder when said difference exceeds said threshold.
32. An energy meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate an analog signal indicative of said voltage;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples;
a memory coupled with said analog to digital converter and operative to receive and store said digital samples; and a detector coupled with said memory and operative to compute a plurality of rolling voltages from said stored digital samples over an interval and to compare each of said plurality of rolling voltages to a threshold and indicate a sag/swell event when said rolling voltage deviates from said threshold.
33. The energy meter of Claim 32 wherein said interval is at least the difference in time between successive of said one or more digital samples.
34. The energy meter of Claim 32 wherein said analog to digital converter converts said analog signal to said digital samples at a rate of at least 16 samples per cycle.
35. The energy meter of Claim 32 wherein said detector comprises a digital signal processor.
36. The energy meter of Claim 32 wherein said detector is further operative to calculate and record the amount by which said rolling voltage deviates from said threshold.
37. The energy meter of Claim 36 wherein said detector is further operative to calculate and record the maximum amount by which said rolling voltage deviates from said threshold for successive increments of time.
38. The energy meter of Claim 32 wherein said detector is further operative to calculate and record the duration for which said rolling voltage deviates from said threshold.
39. The energy meter of Claim 32 wherein said threshold is computed dynamically.
40. The energy meter of Claim 39 wherein said computation is based on the nominal voltage and the meter scaling.
41. The energy meter of Claim 32 wherein said detector is further operative to trigger a waveform recorder when said rolling voltage deviates from said threshold.
42. The energy meter of Claim 32 wherein said detector is further operative to suppress indication of a transient when a sag/swell event is concurrently indicated.
43. The energy meter of Claim 32 further comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device; and a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter.
44. The energy meter of Claim 32 further comprising:
a display;
terminals disposed on a bottom side of said meter for coupling said meter with said electric circuit;
a meter cover operative to enclose said meter and said display;
a terminal cover for covering said terminals;
a first seal connected with said meter cover and operative to prevent removal of said meter cover; and a second seal connected with said terminal cover and operative to prevent removal of said terminal cover.
45. The energy meter of Claim 32 further comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure; and a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter.
46. The energy meter of Claim 32 wherein said rolling voltage is computed at least 2 times per cycle.
47. The energy meter of Claim 32 wherein said rolling voltage is computed each time a new voltage sample is taken.
48. The energy meter of Claim 47 wherein said detector computes the most recent of said one or more digital samples into said rolling voltage and computes the oldest of said one or more digital samples out of said rolling voltage.
49. In an energy meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, a method for detecting sag/swell events comprising:
sensing the voltage in said electric circuit and producing an analog signal indicative thereof;
converting said analog signal to a plurality of digital samples;
computing a rolling voltage from said plurality of digital samples each time a new digital sample is converted;
comparing said rolling voltage to a threshold value;
indicating a swell event when said rolling voltage exceeds said threshold value; and indicating a sag event when said rolling voltage is less than said threshold.
50. The method of Claim 49 wherein said converting is executed at least 16 times per cycle.
51. The method of Claim 49 wherein said computing is executed at least 2 times per cycle.
52. The method of Claim 49 wherein said computing further comprises:
factoring in the most recent of said plurality of digital samples into said rolling voltage computation; and factoring out the oldest of said plurality of digital samples out of said rolling voltage computation.
53. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
a first sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate a first analog signal indicative of said voltage;
a second sensor coupled with said electric circuit and operative to sense the current in said electric circuit and generate a second analog signal indicative of said current;
an analog to digital converter coupled with said first and second sensors and operative to convert said first and second analog signals to one or more digital samples a memory coupled with said analog to digital converter and operative to receive and store said digital samples; and a calculator coupled with said memory and operative to compute one or more harmonic frequencies of said voltage and said current from said stored digital samples.
54. The revenue teeter of Claim 53 wherein said analog to digital converter converts said first and second analog signals at a rate of at least 64 samples per cycle.
55. The revenue meter of Claim 53 wherein said memory stores at least 1 cycle of digital samples.
56. The revenue meter of Claim 53, said voltage in said electric circuit having a fundamental frequency, wherein said analog to digital converter converts said first and second analog signals to said one or more digital samples at a rate synchronous to said fundamental frequency.
57. The revenue meter of Claim 53 wherein said calculator comprises a Fourier Transform.
58. The revenue meter of Claim 53 wherein said calculator is capable of calculating the magnitude of said harmonic frequencies up to at least the 31 st harmonic.
59. The revenue meter of Claim 58 wherein said calculator is further operative to record said harmonic frequencies.
60. The revenue meter of Claim 53 wherein said calculator is further operative to compute the magnitude and phase angle of said harmonic frequencies.
61. The revenue meter of Claim 60 further comprising a graphical display wherein said meter is capable of displaying said magnitude and said phase angle of said harmonic frequencies on said display in a graphical format.
62. The revenue meter of Claim 60 further comprising a graphical display wherein said meter is capable of displaying said magnitude and said phase angle of said harmonic frequencies on said display in a numeric format.
63. The revenue meter of Claim 60 further comprising a detector coupled with said harmonic calculator and operative to compare said magnitude to a threshold and indicate when said magnitude exceeds said threshold.
64. The revenue meter of Claim 63 wherein said detector is further operative to trigger a waveform recorder when said magnitude exceeds said threshold.
65. A revenue meter for measuring the delivery of electrical energy through an electric circuit, said electric circuit comprising at least one phase, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;

one or more voltage sensors coupled with each of said at least one phase of said electric circuit and operative to sense the voltage in each of said at least one phase and generate an analog signal indicative of said voltage;

one or more current sensors coupled with each of said at least one phase of said electric circuit and operative to sense the current in each of said at least one phase and generate an analog signal indicative of said current;
at least one analog to digital converter coupled with said one or more voltage sensors and said one or more current sensors and operative to convert said analog signals to one or more digital samples at a rate of at least 64 samples per cycle;
a memory coupled with said analog to digital converter and operative to receive and store said one or more digital samples; and a processor coupled with said memory and operative to compute one or more fundamental voltage vectors from the magnitude and phase angle of the fundamental frequency of each of said voltage and said current and further operative to compute the zero, positive and negative sequence voltages by performing a vector addition of said one or more fundamental voltage vectors.
66. The revenue meter of Claim 65 wherein said memory stores at least 1 cycle of digital samples.
67. The revenue meter of Claim 65 wherein said processor comprises a Fourier Transform.
68. The revenue meter of Claim 65 wherein said processor is further operative to compute the zero, positive and negative sequence currents.
69. The revenue meter of Claim 65 further comprising a graphical display wherein said meter is capable of displaying said one or more fundamental voltage vectors.
70. The revenue meter of Claim 65 further comprising a symmetrical component detector coupled with said processor and operative to compare said zero, positive and negative sequence voltages to a threshold and indicate when said voltages exceed said threshold.
71. The revenue meter of Claim 70 wherein said symmetrical component detector is further operative to trigger a waveform recorder when said voltages exceed said threshold.
72. In a revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said electric circuit comprising at least one phase, a method of computing symmetrical components comprising:
providing a revenue meter including bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device and a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
sensing the voltages in each of said at least one phase and generating analog signals indicative thereof;
converting said analog signals to one or more digital samples at a rate of at least 64 samples per cycle;
storing said digital samples in a memory;
computing one or more fundamental voltage vectors from the magnitude and angle of the fundamental frequency of each of the sensed voltages from said stored digital samples; and performing a vector addition of said one or more fundamental voltage vectors to compute the zero sequence voltage.
73. The method of Claim 72 wherein said storing further comprises storing at least one cycle of digital samples.
74. The method of Claim 72 wherein said computing further comprises performing a Fourier Transform on said stored digital samples.
75. The method of Claim 72 further comprising:
shifting a first of said one or more fundamental voltage vectors by plus 120 degrees from a first starting point;
shifting a second of said one or more fundamental voltage vectors by minus 120 degrees from a second starting point;
performing a vector addition of said first, said second and remaining fundamental voltage vectors;
computing the positive voltage sequence;
shifting said first of said one more fundamental voltage vectors by minus 120 degrees from said first starting point;
shifting said second of said one or more fundamental voltage vectors by plus 120 degrees from said second starting point;
performing a vector addition of said first, said second and remaining fundamental voltage vectors; and computing the negative voltage sequence.
76. The method of Claim 75 further comprising displaying said one or more fundamental voltage vectors.
77. The method of Claim 75 further comprising:
comparing said zero, positive and negative sequence voltages to a threshold; and indicating when said voltages exceed said threshold.
78. The method of Claim 77 further comprising of triggering a waveform recorder when said voltages exceed said threshold.
79. The method of Claim 72 further comprising:
sensing the currents in each of said at least one phase and generating analog signals indicative thereof;
converting said analog signals to one or more digital samples;
storing said digital samples in a memory;
computing one or more fundamental current vectors from the magnitude and angle of the fundamental frequency of each of the sensed currents from said stored digital samples;
performing a vector addition of said one or more fundamental current vectors; and computing the zero sequence current.
80. The method of Claim 79 further comprising:
shifting a first of said one or more fundamental current vectors by plus 120 degrees from a first starting point;
shifting a second of said one or more fundamental current vectors by minus 120 degrees from a second starting point;
performing a vector addition of said first, said second and remaining fundamental current vectors;
computing the positive current sequence;
shifting said first of said one more fundamental current vectors by minus 120 degrees from said first starting point;
shifting said second of said one or more fundamental current vectors by plus 120 degrees from said second starting point;
performing a vector addition of said first, said second and remaining fundamental current vectors; and computing the negative current sequence.
81. The method of Claim 80 further comprising displaying said one or more fundamental current vectors.
82. The method of Claim 80 further comprising:
comparing said zero, positive and negative sequence currents to a threshold; and indicating when said currents exceed said threshold.
83. The method of Claim 82 further comprising triggering a waveform recorder when said currents exceed said threshold.
84. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
a sensor coupled with said electric circuit and operative to sense a power parameter in said electric circuit and generate an analog signal indicative of said power parameter;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples at a rate of at least 64 samples per cycle;
a first memory coupled with said analog to digital converter and operative to receive and store said one or more digital samples;
a second memory coupled with said first memory;
a power quality event detector coupled with said analog to digital converter and operative to detect a power quality event and generate a trigger signal;

a holdoff timer coupled with said detector and operative to receive, delay and re-transmit said trigger signal; and a memory preservation mechanism coupled with said first memory, said second memory and said holdoff timer and operative to preserve the contents of said first memory using said second memory upon receipt of said trigger signal from said holdoff timer.
85. The revenue meter of Claim 84 wherein said power parameter is a parameter selected from the group consisting of voltage and current.
86. The revenue meter of Claim 84 wherein said memory stores at least 1 cycle of digital samples.
87. The revenue meter of Claim 84 wherein said power quality event includes events selected from group consisting of transient, sag, swell, wave shape deviation, harmonic deviation and component symmetry deviation.
88. The revenue meter of Claim 84 wherein said memory transfer mechanism is further operative to only transfer a user programmable subset of the contents of said first memory to said second memory.
89. The revenue meter of Claim 84 wherein said first and second memories have a user programmable capacity.
90. The revenue meter of Claim 84 further comprising communications means for communicating the contents of said second memory to a remote location.
91. The revenue meter of Claim 90 wherein said communications means comprise a modem.
92. The revenue meter of Claim 90 wherein said communications means comprise a communications network interface.
93. An energy meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a sensor coupled with said electric circuit and operative to sense a power parameter in said electric circuit and generate an analog signal indicative of said power parameter;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples;
a first memory coupled with said analog to digital converter and operative to receive and store said one or more digital samples;
a first processor coupled with said analog to digital converter and further coupled with said first memory by a first data bus;
a second processor coupled with a second memory by a second data bus;
a bus arbiter responsive to said first and second processors and coupled with said first and second data busses, said bus arbiter operative to isolate said first data bus from said second data bus under normal operating conditions; and said bus arbiter further operative to couple said first data bus to said second data bus and perform a data transfer between said first memory and said second memory.
94. The energy meter of Claim 93 further comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device; and a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter.
95. The energy meter of Claim 93 further comprising:
a display;

terminals disposed on a bottom side of said meter for coupling said meter with said electric circuit;
a meter cover operative to enclose said meter and said display;
a terminal cover for covering said terminals;
a first seal connected with said meter cover and operative to prevent removal of said meter cover;
a second seal connected with said terminal cover and operative to prevent removal of said terminal cover.
96. The energy meter of Claim 93 further comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure; and a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter.
97. The energy meter of Claim 93 wherein said power parameter is a parameter selected from the group consisting of voltage and current.
98. The energy meter of Claim 93 wherein said analog to digital converter converts said analog signal to said one or more digital samples at a rate of at least 64 samples per cycle.
99. The energy meter of Claim 98 wherein said second memory is capable of storing at least 12 cycles of digital samples.
100. The energy meter of Claim 93 wherein said analog to digital converter converts said analog signal to said one or more digital samples at a rate of at least 64 samples per cycle.
101. The energy meter of Claim 100 wherein said second memory is capable of storing at least 12 cycles of digital samples.
102. In an energy meter for measuring the delivery of electrical energy through an electric circuit, said meter comprising first and second processors, first and second data busses, first and second memories, at least one bus arbiter responsive to said first and second processors and coupled with said first and second data busses and at least one transfer controller responsive to said first and second processors and coupled with said at least one bus arbiter, wherein each of said processors are coupled with a respective each said data busses and each of said data busses are coupled with a respective each of said memories, a method of transferring data between said first and second memories comprising:
requesting, from said first processor to said at least one transfer controller, at least one data transfer between said first memory and said second memory;
signaling said first processor by said at least one transfer controller to initiate said data transfer;
releasing control of said first data bus by said first processor;
signaling by said first processor to said at least one bus arbiter to couple said first data bus to said second data bus;
coupling said first data bus to said second data bus;
signaling by said at least one bus arbiter to said at least one transfer controller that said first and second data busses are coupled and said first processor is ready for said data transfer;
transferring data between said first memory and said second memory under control of said at least one transfer controller;

signaling by said at least one transfer controller to said at least one bus arbiter to isolate said first data bus from said second data bus upon completion of said data transfer;
signaling to said first processor from said at least one bus arbiter that said data transfer is complete and said first and second data busses are isolated; and acquiring control of said first data bus by said first processor signaling said second processor by said at least one transfer controller that said data transfer is complete.
103. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
a first power supply coupled with said electric circuit and operative to provide power to said meter from said electric circuit under normal operating conditions;
a second power supply operative to provide power to said meter when a power quality event occurs on said electric circuit, said second power supply including:
at least one first capacitor coupled with said electric circuit and operative to store electrical energy from said electric circuit; and at least one second capacitor coupled with said at least one first capacitor and said meter and operative to store electrical energy from said electric circuit;

said first and second capacitors further operative to provide said energy to said meter when said power quality event occurs.
104. The revenue meter of Claim 103 wherein said at least one second capacitor has a higher capacitance than said at least one first capacitor.
105. The revenue meter of Claim 103 wherein said meter further comprises a processor coupled with said first and second power supplies and operative to control the charging of said second capacitor.
106. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said electric circuit carrying high voltage electrical energy, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter;
a switching regulator coupled with said electric circuit and said meter and operative to convert said high voltage electrical energy to low voltage electrical energy;
a power supply coupled between said electric circuit and said switching regulator and operative to store said high voltage electrical energy and provide power to said meter when a power quality event occurs on said electric circuit.
107. The revenue meter of Claim 106 wherein said power supply comprises at least one capacitor.
108. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:

bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter; and a power supply coupled with said electric circuit and said meter and operative to store energy from said electric circuit and provide said energy to said meter when a power quality event occurs on said electric circuit, said power supply including:
a high voltage portion coupled with said electric circuit and a low voltage portion coupled with said high voltage portion and said meter;
and a processor coupled with said high voltage portion and operative to monitor said power supply and signal said meter when said stored energy runs low.
109. The revenue meter of Claim 108 wherein said power supply comprises at least one capacitor.
110. A revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
bayonet terminals disposed on said meter mateable with matching jaws of a detachable meter mounting device;
a seal connected between said meter and said detachable meter mounting device, said seal operative to prevent removal of said meter and indicate tampering with said meter; and a power supply coupled with said electric circuit and said meter and operative to store energy from said electric circuit and provide said energy to said meter when a power quality event occurs on said electric circuit, said power supply including:

a rectification circuit coupled with said electric circuit and operative to receive AC electric energy from said electric circuit and convert said AC electric energy to high voltage DC electric energy;
a charge control circuit coupled with said rectification circuit;
a first energy store coupled with said charge control circuit and operative to receive and store said high voltage DC electric energy from said rectification circuit at a rate controlled by said charge control circuit, said first energy store further operative to provide said stored high voltage DC electric energy to said meter when a power quality event occurs on said electric circuit; and a switching regulator coupled with said rectification circuit and said first energy store, said switching regulator operative to receive said high voltage DC electric energy from said rectification circuit and said first energy store, said switching regulator further operative to covert said high voltage DC electric energy to low voltage DC electric energy and provide said low voltage DC electric energy to said meter.
111. The revenue meter of Claim 110, wherein said charge control circuit comprises a microprocessor.
112. The revenue meter of Claim 110, wherein said first energy store comprises at least one capacitor.
113. The revenue meter of Claim 110, wherein said charge control circuit is further operative to compare the amount of high voltage DC electric energy stored in said first energy store to a threshold and signal said meter when said stored high voltage DC electric energy crosses said threshold.
114. The revenue meter of Claim 113, wherein said meter is operative to execute a power up sequence when said charge control circuit signals that said stored DC electric energy has risen above said threshold and execute a power down sequence when said charge control circuit signals that said DC
electric energy has fallen below said threshold.
115. The revenue meter of Claim 110, wherein said charge control circuit comprises:
a current limner operative to limit inrush current to said meter; and a bypass operative to bypass said current limiter when said at least one energy store is charged.
116. The revenue meter of Claim 110, further comprising a second energy store coupled with said rectification circuit, said charge control circuit and said switching regulator, said second energy store having a faster charging time than said first energy store and operative to provide stored high voltage DC
electric energy to said switching regulator before said first energy store is charged.
117. The revenue meter of Claim 116, wherein said second energy store comprises at least one capacitor.
118. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
one or more sensors coupled with said electric circuit and operative to sense one or more power parameters in said electric circuit and generate one or more analog signals indicative of said power parameters;
at least one analog to digital converter coupled with said sensors and operative to convert said analog signals to one or more digital samples; and a detector coupled with said analog to digital converter and operative to compare each of said digital samples to a threshold and indicate a power quality event when said digital sample deviates from said threshold.
119. The revenue meter of Claim 118 wherein said analog to digital converter converts said analog signals to said one or more digital samples at a rate of at least 32 samples per cycle.
120. The revenue meter of Claim 118 wherein said detector comprises a digital signal processor.
121. The revenue meter of Claim 118 wherein said detector is further operative to calculate and record the amount by which each of said digital samples deviates from said threshold.
122. The revenue meter of Claim 121 wherein said detector is further operative to calculate and record the maximum amount by which any one of said digital samples deviates from said threshold for successive of said digital samples which deviate from said threshold.
123. The revenue meter of Claim 118 wherein said detector is further operative to calculate and record the duration for which successive of said digital samples deviate from said threshold.
124. The revenue meter of Claim 118 wherein said threshold is computed dynamically.
125. The revenue meter of Claim 124 wherein said computation is based on the nominal voltage and the meter scaling.
126. The revenue meter of Claim 118 wherein said detector is further operative to trigger a waveform recorder when any of said digital samples deviate from said threshold.
127. The revenue meter of Claim 118 wherein said detector is further operative to indicate the occurrence of a single power quality event for successive of said digital samples which deviate from said threshold.
128. The revenue meter of Claim 118 wherein said power parameters include parameters selected from the group consisting of voltage and current.
129. The revenue meter of Claim 118 wherein said power quality event includes events selected from group consisting of transient, sag, swell, wave shape deviation, harmonic deviation and component symmetry deviation.
130. The revenue meter of Claim 129 wherein said detector is further operative to suppress indication of a transient event when a sag/swell event is concurrently detected.
131. The revenue meter of Claim 118 further comprising a memory coupled with said analog to digital converter and operative to receive and store said digital samples and wherein said detector is coupled with said memory and operative to compare at least one of said digital samples to at least one other of said stored digital samples.
132. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;

terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
a sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate an analog signal indicative of said voltage;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples; and a detector coupled with said analog to digital converter and operative to compare each of said digital samples to a threshold and indicate a transient event when said digital sample exceeds said threshold.
133. The revenue meter of Claim 132 wherein said analog to digital converter converts said analog signals to said one or more digital samples at a rate of at least 32 samples per cycle.
134. The revenue meter of Claim 132 wherein said detector comprises a digital signal processor.
135. The revenue meter of Claim 132 wherein said detector is further operative to calculate and record the amount by which said digital samples exceed said threshold.
136. The revenue meter of Claim 135 wherein said detector is further operative to calculate and record the maximum amount by which any one of said digital samples exceeds said threshold for successive of said digital samples which exceed said threshold.
137. The revenue meter of Claim 132 wherein said detector is further operative to calculate and record the duration for which successive of said digital samples exceed said threshold.
138. The revenue meter of Claim 132 wherein said threshold is computed dynamically.
139. The revenue meter of Claim 138 wherein said computation is based on the nominal voltage and the meter scaling.
140. The revenue meter of Claim 132 wherein said detector is further operative to trigger a waveform recorder when said digital samples exceed said threshold.
141. The revenue meter of Claim 132 wherein said detector is further operative to indicate the occurrence of a single transient event for successive of said digital samples which exceed said threshold.
142. The revenue meter of Claim 132 wherein said detector is further operative to suppress said indication when a sag/swell event is concurrently detected.
143. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;

a sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate an analog signal indicative of said voltage, said voltage having a wave shape;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples;
a memory coupled with said analog to digital converter and operative to receive and store at least 2 cycles worth of said one or more digital samples; and a detector coupled with said memory and operative to compare a first of said digital samples to a second of said digital samples and calculate a difference, said second digital sample being non-consecutive with said first digital sample, said detector further operative to compare said difference to a threshold and indicate a deviation in said wave shape when said difference exceeds said threshold.
144. The revenue meter of Claim 143 wherein said analog to digital converter converts said analog signals to said one or more digital samples at a rate of at least 32 samples per cycle.
145. The revenue meter of Claim 143 wherein said detector is further operative to calculate and record the amount by which said difference exceeds said threshold.
146. The revenue meter of Claim 145 wherein said detector is further operative to calculate and record the maximum amount by which any one of said differences exceeds said threshold for successive of said differences which exceed said threshold.
147. The revenue meter of Claim 143 wherein said detector is further operative to calculate and record the duration for which successive of said differences exceed said threshold.
148. The revenue meter of Claim 143 wherein said detector is further operative to trigger a waveform recorder when said difference exceeds said threshold.
149. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
a first sensor coupled with said electric circuit and operative to sense the voltage in said electric circuit and generate a first analog signal indicative of said voltage;
a second sensor coupled with said electric circuit and operative to sense the current in said electric circuit and generate a second analog signal indicative of said current;
an analog to digital converter coupled with said first and second sensors and operative to convert said first and second analog signals to one or more digital samples a memory coupled with said analog to digital converter and operative to receive and store said digital samples; and a calculator coupled with said memory and operative to compute one or more harmonic frequencies of said voltage and said current from said stored digital samples.
150. The revenue meter of Claim 149 wherein said analog to digital converter converts said first and second analog signals at a rate of at least 64 samples per cycle.
151. The revenue meter of Claim 149 wherein said memory stores at least 1 cycle of digital samples.
152. The revenue meter of Claim 149, said voltage in said electric circuit having a fundamental frequency, wherein said analog to digital converter converts said first and second analog signals to said one or more digital samples at a rate synchronous to said fundamental frequency.
153. The revenue meter of Claim 149 wherein said calculator comprises a Fourier Transform.
154. The revenue meter of Claim 149 wherein said calculator is capable of calculating the magnitude of said harmonic frequencies up to at least the 31 st harmonic.
155. The revenue meter of Claim 154 wherein said calculator is further operative to record said harmonic frequencies.
156. The revenue meter of Claim 149 wherein said calculator is further operative to compute the magnitude and phase angle of said harmonic frequencies.
157. The revenue meter of Claim 156 further comprising a graphical display wherein said meter is capable of displaying said magnitude and said phase angle of said harmonic frequencies on said display in a graphical format.
158. The revenue meter of Claim 156 further comprising a graphical display wherein said meter is capable of displaying said magnitude and said phase angle of said harmonic frequencies on said display in a numeric format.
159. The revenue meter of Claim 156 further comprising a detector coupled with said harmonic calculator and operative to compare said magnitude to a threshold and indicate when said magnitude exceeds said threshold.
160. The revenue meter of Claim 159 wherein said detector is further operative to trigger a waveform recorder when said magnitude exceeds said threshold.
161. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said electric circuit comprising at least one phase, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
one or more voltage sensors coupled with each of said at least one phase of said electric circuit and operative to sense the voltage in each of said at least one phase and generate an analog signal indicative of said voltage;
one or more current sensors coupled with each of said at least one phase of said electric circuit and operative to sense the current in each of said at least one phase and generate an analog signal indicative of said current;
at least one analog to digital converter coupled with said one or more voltage sensors and said one or more current sensors and operative to convert said analog signals to one or more digital samples at a rate of at least 64 samples per cycle;
a memory coupled with said analog to digital converter and operative to receive and store said one or more digital samples; and a processor coupled with said memory and operative to compute one or more fundamental voltage vectors from the magnitude and phase angle of the fundamental frequency of each of said voltage and said current and further operative to compute the zero, positive and negative sequence voltages by performing a vector addition of said one or more fundamental voltage vectors.
162. The revenue meter of Claim 161 wherein said memory stores at least 1 cycle of digital samples.
163. The revenue meter of Claim 161 wherein said processor comprises a Fourier Transform.
164. The revenue meter of Claim 161 wherein said processor is further operative to compute the zero, positive and negative sequence currents.
165. The revenue meter of Claim 161 further comprising a graphical display wherein said meter is capable of displaying said one or more fundamental voltage vectors.
166. The revenue meter of Claim 161 further comprising a symmetrical component detector coupled with said processor and operative to compare said zero, positive and negative sequence voltages to a threshold and indicate when said voltages exceed said threshold.
167. The revenue meter of Claim 166 wherein said symmetrical component detector is further operative to trigger a waveform recorder when said voltages exceed said threshold.
168. In a switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said electric circuit comprising at least one phase, a method of computing symmetrical components comprising:
providing a switchboard revenue meter including a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure, terminals disposed on said chassis for engaging matching terminals within said enclosure, a display, a meter cover operative to enclose said meter and said display within said enclosure and a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
sensing the voltages in each of said at least one phase and generating analog signals indicative thereof;
converting said analog signals to one or more digital samples at a rate of at least 64 samples per cycle;
storing said digital samples in a memory;
computing one or more fundamental voltage vectors from the magnitude and angle of the fundamental frequency of each of the sensed voltages from said stored digital samples; and performing a vector addition of said one or more fundamental voltage vectors to compute the zero sequence voltage.
169. The method of Claim 168 wherein storing further comprises storing at least one cycle of digital samples.
170. The method of Claim 168 wherein said computing further comprises performing a Fourier Transform on said stored digital samples.
171. The method of Claim 168 further comprising:
shifting a first of said one or more fundamental voltage vectors by plus 120 degrees from a first starting point;

shifting a second of said one or more fundamental voltage vectors by minus 120 degrees from a second starting point;
performing a vector addition of said first, said second and remaining fundamental voltage vectors;
computing the positive voltage sequence;
shifting said first of said one more fundamental voltage vectors by minus 120 degrees from said first starting point;
shifting said second of said one or more fundamental voltage vectors by plus 120 degrees from said second starting point;
performing a vector addition of said first, said second and remaining fundamental voltage vectors; and computing the negative voltage sequence.
172. The method of Claim 171 further comprising displaying said one or more fundamental voltage vectors.
173. The method of Claim 171 further comprising:
comparing said zero, positive and negative sequence voltages to a threshold; and indicating when said voltages exceed said threshold.
174. The method of Claim 173 further comprising triggering a waveform recorder when said voltages exceed said threshold.
175. The method of Claim 168 further comprising:
sensing the currents in each of said at least one phase and generating analog signals indicative thereof;
converting said analog signals to one or more digital samples;
storing said digital samples in a memory;
computing one or more fundamental current vectors from the magnitude and angle of the fundamental frequency of each of the sensed currents from said stored digital samples;

performing a vector addition of said one or more fundamental current vectors; and computing the zero sequence current.
176. The method of Claim 175 further comprising:
shifting a first of said one or more fundamental current vectors by plus 120 degrees from a first starting point;
shifting a second of said one or more fundamental current vectors by minus 120 degrees from second starting point;
performing a vector addition of said first, said second and remaining fundamental current vectors;
computing the positive current sequence;
shifting said first of said one more fundamental current vectors by minus 120 degrees from said first starting point;
shifting said second of said one or more fundamental current vectors by plus 120 degrees from said second starting point;
performing a vector addition of said first, said second and remaining fundamental current vectors; and computing the negative current sequence.
177. The method of Claim 176 further comprising displaying said one or more fundamental current vectors.
178. The method of Claim 176 further comprising:
comparing said zero, positive and negative sequence currents to a threshold; and indicating when said currents exceed said threshold.
179. The method of Claim 178 further comprising triggering a waveform recorder when said currents exceed said threshold.
180. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
a sensor coupled with said electric circuit and operative to sense a power parameter in said electric circuit and generate an analog signal indicative of said power parameter;
an analog to digital converter coupled with said sensor and operative to convert said analog signal to one or more digital samples at a rate of at least 64 samples per cycle;
a first memory coupled with said analog to digital converter and operative to receive and store said one or more digital samples;
a second memory coupled with said first memory;
a power quality event detector coupled with said analog to digital converter and operative to detect a power quality event and generate a trigger signal;
a holdoff timer coupled with said detector and operative to receive, delay and re-transmit said trigger signal; and a memory preservation mechanism coupled with said first memory, said second memory and said holdoff timer and operative to preserve the contents of said first memory using said second memory upon receipt of said trigger signal from said holdoff timer.
181. The revenue meter of Claim 180 wherein said power parameter is a parameter selected from the group consisting of voltage and current.
182. The revenue meter of Claim 180 wherein said memory stores at least 1 cycle of digital samples.
183. The revenue meter of Claim 180 wherein said power quality event includes events selected from group consisting of transient, sag, swell, wave shape deviation, harmonic deviation and component symmetry deviation.
184. The revenue meter of Claim 180 wherein said memory transfer mechanism is further operative to only transfer a user programmable subset of the contents of said first memory to said second memory.
185. The revenue meter of Claim 180 wherein said first and second memories have a user programmable capacity.
186. The revenue meter of Claim 180 further comprising communications means for communicating the contents of said second memory to a remote location.
187. The revenue meter of Claim 186 wherein said communications means comprise a modem.
188. The revenue meter of Claim 186 wherein said communications means comprise a communications network interface.
189. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;

a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
a first power supply coupled with said electric circuit and operative to provide power to said meter from said electric circuit under normal operating conditions; and a second power supply operative to provide power to said meter when a power quality event occurs on said electric circuit, said second power supply including:
at least one first capacitor coupled with said electric circuit and operative to store electrical energy from said electric circuit; and at least one second capacitor coupled with said at least one first capacitor and said meter and operative to store electrical energy from said electric circuit;
said first and second capacitors further operative to provide said energy to said meter when said power quality event occurs.
190. The revenue meter of Claim 189 wherein said at least one second capacitor has a higher capacitance than said at least one first capacitor.
191. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter;
a switching regulator coupled with said electric circuit and said meter and operative to convert said high voltage electrical energy to low voltage electrical energy; and a power supply coupled between said electric circuit and said switching regulator and operative to store said high voltage electrical energy and provide power to said meter when a power quality event occurs on said electric circuit.
192. The revenue meter of Claim 191 wherein said power supply comprises at least one capacitor.
193. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter; and a power supply coupled with said electric circuit and said meter and operative to store energy from said electric circuit and provide said energy to said meter when a power quality event occurs on said electric circuit, said power supply including:
a high voltage portion coupled with said electric circuit and a low voltage portion coupled with said high voltage portion and said meter;
and a processor coupled with said high voltage portion and operative to monitor said power supply and signal said meter when said stored power runs low.
194. The revenue meter of Claim 193 wherein said power supply comprises at least one capacitor.
195. A switchboard revenue meter for measuring the delivery of electrical energy from an energy supplier to a consumer through an electric circuit, said meter comprising:
a draw-out chassis coupled with said meter and operative to fit within a switchboard enclosure;
terminals disposed on said chassis for engaging matching terminals within said enclosure;
a display;
a meter cover operative to enclose said meter and said display within said enclosure;
a seal connected with said meter cover and operative to prevent removal of said meter cover and indicate tampering with said meter; and a power supply coupled with said electric circuit and said meter and operative to store energy from said electric circuit and provide said energy to said meter when a power quality event occurs on said electric circuit, said power supply including:
a rectification circuit coupled with said electric circuit and operative to receive AC electric energy from said electric circuit and convert said AC electric energy to high voltage DC electric energy;
a charge control circuit coupled with said rectification circuit;
a first energy store coupled with said charge control circuit and operative to receive and store said high voltage DC electric energy from said rectification circuit at a rate controlled by said charge control circuit, said first energy store further operative to provide said stored high voltage DC electric energy to said meter when a power quality event occurs on said electric circuit; and a switching regulator coupled with said rectification circuit and said first energy store, said switching regulator operative to receive said high voltage DC electric energy from said rectification circuit and said first energy store, said switching regulator further operative to covert said high voltage DC electric energy to low voltage DC electric energy and provide said low voltage DC electric energy to said meter.
196. The revenue meter of Claim 195, wherein said charge control circuit comprises a microprocessor.
197. The revenue meter of Claim 195, wherein said first energy store comprises at least one capacitor.
198. The revenue meter of Claim 195, wherein said charge control circuit is further operative to compare the amount of high voltage DC electric energy stored in said first energy store to a threshold and signal said meter when said stored high voltage DC electric energy crosses said threshold.
199. The revenue meter of Claim 198, wherein said meter is operative to execute a power up sequence when said charge control circuit signals that said stored DC electric energy has risen above said threshold and execute a power down sequence when said charge control circuit signals that said DC
electric energy has fallen below said threshold.
200. The revenue meter of Claim 195, wherein said charge control circuit comprises:
a current limiter operative to limit inrush current to said meter; and a bypass operative to bypass said current limiter when said at least one energy store is charged.
201. The revenue meter of Claim 195, further comprising a second energy store coupled with said rectification circuit, said charge control circuit and said switching regulator, said second energy store having a faster charging time than said first energy store and operative to provide stored high voltage DC
electric energy to said switching regulator before said first energy store is charged.
202. The revenue meter of Claim 201, wherein said second energy store comprises at least one capacitor.
CA002299043A 1999-08-09 2000-02-21 Revenue meter with power quality features Expired - Lifetime CA2299043C (en)

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US7342507B2 (en) 2008-03-11
US20060066456A1 (en) 2006-03-30
US20050027464A1 (en) 2005-02-03
US6687627B1 (en) 2004-02-03
US7006934B2 (en) 2006-02-28
US6792364B2 (en) 2004-09-14
CA2299043C (en) 2010-02-02
US6615147B1 (en) 2003-09-02
US20030014200A1 (en) 2003-01-16

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