Digital power metering
First Claim
1. Apparatus for metering an electrical power supply, comprising:
- step-down means connectable with said supply for deriving first and second electrical parameter sample signals of given waveform amplitudes during corresponding given cycles of said supply;
amplifier means having gain characteristics controllable in response to a gain control input for selectively amplifying said first and second sample signals to provide corresponding first and second scaled signals;
converter means actuable for converting said first and second sample signals to corresponding first and second range digital values and subsequently actuable to convert said first and second scaled signal to corresponding first and second data digital values; and
control means for actuating said converter means to derive said first and second range digital values and deriving corresponding first and second scaling factors, responsive to said first and second range digital values for providing said gain control input at predetermined scaling levels, for subsequently actuating said converter means to derive said first and second data digital values, said control means multiplying said first and second data digital values with respective said first and second scaling factors to provide first and second expanded data digital values within a range extending to at least about twenty-one binary bits, said control means being responsive to a predetermined commencement location of the said waveform of a said first electrical parameter sample signal for commencing said actuation of said converter means and subsequently effecting said actuation at predetermined, regular intervals, said control means including a parameter memory for selectively retaining said first expanded data digital values and responsive to effect a multiplication of each said parameter memory retained first expanded data digital value with a said second expanded data digital value from the sequence thereof developed following a delay selected to derive predetermined power parameter metering output data.
0 Assignments
0 Petitions
Accused Products
Abstract
Method and apparatus for metering polyphase power sources in which cycles for each phase are sampled at each degree and converted to a binary representation of amplitude. Sampling commences with a zero cross-over and a first digital conversion provides range data for developing scaling factors which are retained in memory and for providing a selective gain for amplifying. The scaling factor and the range data then are multipled to develop a digital representation of the sample amplitude which may have as many as 21 significant bits plus a sign bit. These expanded data valuations for current and voltage then are selectively multiplied for each degree sampled to develop data available for generation of 12 electrical parameter outputs. Generally, six of these outputs will be elected by the user. Volt amperes are computed with respect to the zero cross-over events for both voltage and current samples, while quantities such as Q and var are developed by selective delayed multiplication of the unit degree samples.
240 Citations
43 Claims
-
1. Apparatus for metering an electrical power supply, comprising:
-
step-down means connectable with said supply for deriving first and second electrical parameter sample signals of given waveform amplitudes during corresponding given cycles of said supply; amplifier means having gain characteristics controllable in response to a gain control input for selectively amplifying said first and second sample signals to provide corresponding first and second scaled signals; converter means actuable for converting said first and second sample signals to corresponding first and second range digital values and subsequently actuable to convert said first and second scaled signal to corresponding first and second data digital values; and control means for actuating said converter means to derive said first and second range digital values and deriving corresponding first and second scaling factors, responsive to said first and second range digital values for providing said gain control input at predetermined scaling levels, for subsequently actuating said converter means to derive said first and second data digital values, said control means multiplying said first and second data digital values with respective said first and second scaling factors to provide first and second expanded data digital values within a range extending to at least about twenty-one binary bits, said control means being responsive to a predetermined commencement location of the said waveform of a said first electrical parameter sample signal for commencing said actuation of said converter means and subsequently effecting said actuation at predetermined, regular intervals, said control means including a parameter memory for selectively retaining said first expanded data digital values and responsive to effect a multiplication of each said parameter memory retained first expanded data digital value with a said second expanded data digital value from the sequence thereof developed following a delay selected to derive predetermined power parameter metering output data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. Apparatus for metering a polyphase power supply of waveform exhibiting voltage and current electrical parameters of given amplitudes within cycles defined by cycle envelopes, comprising:
-
step-down means connectable with said supply for deriving first and second electrical parameter sample, signals of amplitudes corresponding with said given amplitudes; conversion means responsive to said first and second electrical parameter sample signals and actuable to derive respective first and second digital data values corresponding with said given amplitudes and having a range extending to at least about twenty-one binary bits; sampling control means for actuating said conversion means to effect said derivation of first and second digital data values at a predetermined regular sampling rate commencing at a predetermined commencement location of said cycle envelope of said first electrical parameter sample signal and including memory means for selectively retaining said first digital data values derived with each said actuation, responsive to effect a multiplication of said memory retained first digital data values and said second digital data values following selective power parameter defining delays to provide power parameter digital values with respect to each said conversion means actuation; and processing means responsive to effect integration of a sequence of said power parameter digital values for deriving meter output signals. - View Dependent Claims (11, 12, 13, 14, 15, 16)
-
-
17. The method of metering a power supply of waveform exhibiting current and voltage electrical parameters of given amplitudes within cycles defined by cycle envelopes, comprising the steps of:
-
monitoring said supply to provide first and second electrical parameter sample signals of amplitudes corresponding with said given amplitudes; converting said first and second electrical parameter sample signals to respective first and second binary range values at a predetermined regular sampling rate commencing upon the occurrence of predetermined commencement locations of select said cycle envelopes; deriving first and second scaling factors for each respective said first and second binary range value; amplifying said first and second electrical parameter sample signals at gains corresponding with respective said first and second binary range values; converting said amplified first and second electrical parameter sample signals to respective first and second binary data values at said predetermined regular sampling rate; multiplying said first and second binary data values with respective said first and second scaling factors to derive corresponding first and second expanded binary data values within a range extending to at least about twenty-one binary significant bits; selectively multiplying said first and second expanded binary data values together to derive predetermined metering outputs; and displaying said metering outputs. - View Dependent Claims (18, 19, 20, 21, 22)
-
-
23. Apparatus for metering an electrical power supply, of waveform exhibiting voltage and current electrical parameters of given amplitudes within cycles defined by cycle envelopes, comprising:
-
step-down means connectable with said supply for deriving current and voltage sample inputs of given cycle and amplitude characteristics for each phase and exhibiting predetermined gain and phase error values; conversion means responsive to said current and voltage sample inputs and actuable to derive respective current and voltage digital data values corresponding with said given amplitude characteristics and having a range extending to at least about twenty-one binary bits; memory means for retaining correction values corresponding with said gain and phase error values; sampling control means for actuating said conversion means to effect said derivation of said current and voltage digital data values as discrete samples commencing at a predetermined commencement location of said cycle envelope of said voltage sample input, for accessing said memory means correction values and effecting a correction of said digital data values with respect thereto, and for selectively retaining said voltage and current digital data values derived with each said actuation within said memory means, responsive to effect a multiplication of said memory retained voltage digital data values and said current digital data values following selective power parameter defining delays to provide power parameter digital values with respect to each said conversion actuation; and processing means responsive to effect integration of a sequence of said power parameter digital values for deriving meter output signals, - View Dependent Claims (24, 25)
-
-
26. Apparatus for metering a polyphase power supply, comprising:
-
step-down means connectable with said supply for deriving current and voltage sample inputs of given cycle, amplitude and phase characteristics; conversion means responsive to said current and voltage sample inputs and actuable to derive respective current and voltage digital data values corresponding with said given amplitude characteristics; sampling control means for actuating said conversion means to effect said derivation of current and voltage digital data values at a regular sampling rate of 360 said actuations with respect to a said given cycle, for effecting select multiplications of said data values to provide power parameter digital values with respect to each said conversion means actuation, including memory means for selectively retaining said voltage digital data values derived with each said actuation, responsive to effect a multiplication of a first voltage digital data value with a corresponding first current digital data value resulting from a common said actuation to provide a watt power parameter digital value, and effecting a said multiplication of said memory retained first voltage digital data value with a sixtieth said current digital data value derived sixty said actuations subsequent to the actuation deriving said first voltage digital data value to provide a Q power parameter digital value; and processing means responsive to effect integration of a sequence of said power parameter digital values for deriving meter output signals.
-
-
27. Apparatus for metering a polyphase power supply, comprising:
-
step-down means connectable with said supply for deriving current and voltage sample inputs of given cycle, amplitude and phase characteristics; conversion means responsive to said current and voltage sample inputs and actuable to derive respective current and voltage digital data values corresponding with said given amplitude characteristics; sampling control means for actuating said conversion means to effect said derivation of current and voltage digital data values at a regular sampling rate of 360 actuations with respect to a said given cycle for effecting select multiplications of said data values to provide power parameter digital values with respect to each said conversion means actuation, memory means for selectively retaining said voltage and current digital data values derived with each said actuation, responsive to effect said multiplication of a first said voltage digital data value with a corresponding first said current digital data value resulting from a common said actuation to provide a watt power parameter digital value, and said sampling control means effecting a multiplication of said memory retained first voltage digital data value with a ninetieth said current digital data value derived ninety said actuations subsequent to the actuation deriving said first voltage digital data value to provide a VAR power parameter digital value; and processing means responsive to effect integration of a sequence of said power parameter digital values for deriving meter output signals.
-
-
28. The method of metering a power supply of waveform exhibiting current and voltage electrical parameters of given amplitudes within cycles defined between zero cross-overs, comprising the steps of:
-
monitoring said supply to provide first and second said electrical parameter sample signals of amplitudes corresponding with said given amplitudes; converting said first and second electrical parameter sample signals to respective first and second binary range values at a predetermined sampling rate and commencing with a said zero cross-over of said first electrical parameter; deriving first and second scaling factors for each respective said first and second binary range value; amplifying said first and second electrical parameter sample signals at gains corresponding with respective said first and second binary range values; converting said amplified first and second electrical parameter sample signals to respective first and second binary data values; multiplying said first and second binary data values with respective said first and second scaling factors to derive corresponding first and second expanded binary data values; selectively multiplying said first and second expanded binary data values together to derive predetermined metering outputs; and
displaying said metering outputs.
-
-
29. The method of metering a power supply of waveform exhibiting current and voltage electrical parameters of given amplitudes within cycles defined by zero cross-overs, comprising the steps of:
-
monitoring said supply to provide first and second said electrical parameter sample signals of amplitudes corresponding with said given amplitudes; converting said first and second electrical parameter sample signals to respective first and second binary range values at a predetermined sampling rate; deriving first and second scaling factors for each respective said first and second binary range value; amplifying said first and second electrical parameter sample signals at gains corresponding with respective said first and second binary range values; converting said amplified first and second electrical parameter sample signals to respective first and second binary data values; multiplying said first and second binary data values with respective said first and second scaling factors to derive corresponding first and second expanded binary data values; multiplying each first expanded binary data value derived from first to last for a cycle defined between said zero cross-overs with each corresponding second expanded binary data values derived from first to last for a cycle defined between said zero cross-over to provide a volt-ampere said metering output; and displaying said metering output.
-
-
30. The method of metering a power supply of waveform exhibting current and voltage electrical parameters of given amplitudes within cycles defined by zero cross-overs, comprising the steps of:
-
monitoring said supply to provide first and second said electrical parameter sample signals of amplitudes corresponding with said given amplitudes; converting said first and second electrical parameter sample signals to respective first and second binary range values at a sampling rate of 360 samples per cycle; deriving first and second scaling factors for each respective said first and second binary range value; amplifying said first and second electrical parameter sample signals at gains corresponding with respective said first and second binary range values; converting said amplified first and second electrical parameter sample signals to respective first and second binary data values; multiplying said first and second binary data values with respective said first and second scaling factors to derive corresponding first and second expanded binary data values; retaining said first expanded binary data values for an interval corresponding with 60 said samples, then commencing selective multiplication of said first expanded binary data values, from first to last for a given said cycle, with said second expanded binary data values to provide a Q output; and displaying said output.
-
-
31. The method of metering a power supply of waveform exhibiting current and voltage electrical parameters of given amplitudes within cycles defined by zero cross-overs, comprising the steps of:
-
monitoring said supply to provide first and second said electrical parameter sample signals of amplitudes corresponding with said given amplitudes; converting said first and second electrical parameter sample signals to respective first and second binary range values at a sampling rate of 360 samples per cycle; deriving first and second scaling factors for each respective said first and second binary range value; amplifying said first and second electrical parameter sample signals at gains corresponding with respective said first and second binary range values; converting said amplified first and second electrical parameter sample signals to respective first and second binary data values; multiplying said first and second binary data values with respective said first and second scaling factors to derive corresponding first and second expanded binary data values; retaining said first expanded binary data values for an interval corresponding with 90 said samples, then commencing multiplication of said first expanded binary data values, from first to last for a given cycle, with said second expanded binary data values to provide a VAR output; and displaying said output.
-
-
32. The method of metering a power supply of waveform exhibiting current and voltage electrical parameters of given amplitudes within cycles defined by cycle envelopes comprising the steps of:
-
monitoring said supply to provide first and second electrical parameter sample signals of amplitudes corresponding with said given amplitudes; converting said first and second electrical parameter sample signals, commencing upon the occurrence of a predetermined commencement location of said cycle envelope of said first parameter sample signal, to respective first and second binary data values each exhibiting a range of significant bits extending to at least about twenty-one, at a predetermined regular sampling rate; retaining said first binary data values in memory for delay intervals selected for deriving select power parameter digital values; multiplying concurrently developed said first and second binary data values to derive watt digital values; multiplying said second binary data values with said memory retained first binary data values following a predetermined delay to derive a said select power parameter digital value; accumulating a sequence of said watt digital values to derive watthour meter output signals; and accumulating a sequence of said select power parameter digital values to derive corresponding select meter output signals. - View Dependent Claims (33, 34, 35, 36)
-
-
37. Apparatus for metering an electrical power supply, comprising:
-
step-down means connectable with said supply for deriving first and second electrical parameter sample signals of given amplitudes during corresponding given cycles of said supply; amplifier means having gain characteristics controllable in response to a gain control input for selectively amplifying said first and second sample signals to provide corresponding first and second scaled signals; converter means actuable for converting said first and second sample signals to corresponding first and second range digital values and subsequently actuable to convert said first and second scaled signals to corresponding first and second data digital values; and control means responsive in the presence of a zero cross-over commencing said first electrical parameter sample signal given cycle for commencing the actuation of said converter means to derive said first and second range digital values and deriving corresponding first and second scaling factors, responsive to said first and second range digital values for providing a gain control input at predetermined scaling levels, for subsequently actuating said converter means to derive said first and second data digital values, said control means multiplying said first second data digital values with respective said first and second scaling factors to provide first and second expanded data digital values, said control means effecting said actuations at predetermined, substantially regular intervals, and effecting a select multiplication of said first and second expanded data digital values to derive predetermined metering outputs. - View Dependent Claims (38)
-
-
39. Apparatus for metering an electrical power supply, comprising:
-
step-down means connectable with said supply for deriving first and second electrical parameter sample signals of given amplitudes during corresponding given cycles of said supply; amplifier means having gain characteristics controllable in response to a gain control input for selectively amplifying said first and second sample signals to provide corresponding first and second scaled signals; converter means actuable for converting said first and second sample signals to corresponding first and second range digital values and subsequently actuable to convert said first and second scaled signals to corresponding first and second data digital values; and control means for actuating said converter means to derive said first and second range digital values and corresponding first and second scaling factors, responsive to said first and second range digital values for providing a gain control input at predetermined scaling levels, for subsequently actuating said converter means to derive said first and second data digital values, said control means multiplying said first and second data digital values with respective said first and second scaling factors to provide first and second expanded data digital values, said control means being responsive in the presence of a zero cross-over commencing a said given cycle of said first electrical parameter sample signal for commencing said converter means actuation to derive said first expanded digital data values from first to last, and being responsive in the presence of a corresponding zero cross-over commencing a said given cycle of said second electrical parameter sample signal for effecting a multiplication of said second expanded digital data values from first to last with corresponding first to last said first expanded digital data values to derive predetermined metering outputs as volt-amperes.
-
-
40. Apparatus for metering an electrical poewr supply, comprising:
-
step-down means connectable with said supply for deriving first and second electrical parameter sample signals of given amplitudes during corresponding given cycles of said supply; amplifier means having gain characteristics controllable in response to a gain control input for selectively amplifying said first and second sample signals to provide corresponding first and second scaled signals; converter means actuable for converting said first and second sample signals to corresponding first and second range digital values and subsequently actuable to convert said first and second scaled signals to corresponding first and second data digital values; and control means for actuating said converter means to derive said first and second range digital values and corresponding first and second scaling factors, responsive to said first and second range digital values for providing a gain control input at predetermined scaling levels, for subsequently actuating said converter means to derive said first and second data digital values, said control means multiplying said first and second data digital values with respective said first and second scaling factors to provide first and second expanded data digital values, said control means effecting a select multiplication of said first and second expanded data digital values to derive predetermined metering outputs; register means responsive to said predetermined metering outputs for effecting a display thereof, and including non-volatile memory for retaining magnitude/phase correction values for effecting calibration correction of said first expanded data digital values; and said control means communicating with said register means memory and said control means including random access memory for receiving said magnitude/phase correction values and responsive to multiply said first expanded data digital values by said memory retained correction values.
-
-
41. Apparatus for metering a power supply, comprising:
-
step-down means connectable with said supply for deriving current and voltage sample inputs of given cycle, amplutide and phase characteristics; conversion means responsive to said current and voltage sample inputs and actuable to derive respective current and voltage digital data values corresponding with said given amplitude characteristics; sampling control means for actuating said conversion means to effect the derivation of current and voltage digital data values at a predetermined, regular sampling rate, said sampling control means being responsive in the presence of a zero cross-over of a said voltage sample input to commence said actuation of said conversion means to derive said voltage digital data values from first to last for the extent of a said voltage sample input cycle, said sampling control means being responsive in the presence of a zero cross-over of a said current sample input to commence said actuation of said conversion means to derive said current digital data values from first to last for the extent of a said current sample input cycle, and said sampling control means effecting a multiplication of said first to last current digital data values with corresponding said first to last voltage digital data values to provide volt ampere power parameter digital values; and processing means responsive to effect integration of a sequence of said volt-ampere power parameter digital values for deriving meter output signals.
-
-
42. Apparatus for metering a power supply, comprising:
-
step-down means connectable with said supply for deriving current and voltage sample inputs of given cycle, amplitude and phase characteristics; zeroing means actuable for providing a substantially zero amplitud calibration sample input; conversion means responsive to said current and voltage sample inputs and actuable to derive respective current and voltage digital data values corresponding with said given amplitude characteristics, said conversion means being responsive when actuated in conjunction with said zeroing means to derive any current and voltage offset digital values resulting from the assertion of said calibration sample input sampling control means for actuating said conversion means to effect said derivation of current and voltage digital data values at a predetermined, regular sampling rate and for effecting select multiplications of said data values to provide power parameter digital values with respect to each said conversion means actuation, said sampling control means actuating said conversion means and said zeroing means at predetermined intervals to effect said derivation of current and voltage offset digital values in sampling correspondence with said actuation to derive said current and voltage digital values at said sampling rate, and deriving power parameter offset digital values; and processing means responsive to sum said power parameter offset digital values with said power parameter digital values to effect offset correction thereof, and responsive to effect integration of a sequence of said power parameter digital values for deriving meter output signals.
-
-
43. Apparatus for metering a polyphase power supply, comprising:
-
step-down means connectable with said supply for deriving current and voltage sample inputs of given cycle, amplitude and phase characteristics; conversion means responsive to said current and voltage sample inputs and actuable to derive respective current and voltage digital data values corresponding with said given amplitude characteristics; sampling control means for actuating said conversion means to effect said derivation of current and voltage digital data values at a predetermined, regular sampling rate and for effecting select multiplications of said data values to provide power parameter digital values with respect to each said conversion means actuation, said sampling control means being responsive in the presence of a zero cross-over of said cycles of said voltage sample inputs to commence said actuation of said conversion means with respect to each phase of said polyphase supply; and processing means responsive to effect integration of a sequence of said power parameter digital values for deriving meter output signals.
-
Specification