Below is the list of measurement names that the 4-30 report requires from a meter:
2-hour report:
===========
'Voltage Flicker Plt on Input V1'
'Voltage Flicker Plt on Input V2'
'Voltage Flicker Plt on Input V3'
'Power Quality Event 2-hour Status'
'Voltage Magnitude 2-hour Mean on Input V1'
'Voltage Magnitude 2-hour Mean on Input V2'
'Voltage Magnitude 2-hour Mean on Input V3'
'Voltage Total Harmonic Distortion 2-hour Mean on Input V1'
'Voltage Total Harmonic Distortion 2-hour Mean on Input V2'
'Voltage Total Harmonic Distortion 2-hour Mean on Input V3'
'Voltage Dip 2-hour Mean as Percentage of Nominal on Input V1'
'Overvoltage 2-hour Mean as Percentage of Nominal on Input V1'
'Voltage Dip 2-hour Mean as Percentage of Nominal on Input V2'
'Overvoltage 2-hour Mean as Percentage of Nominal on Input V2'
'Voltage Dip 2-hour Mean as Percentage of Nominal on Input V3'
'Overvoltage 2-hour Mean as Percentage of Nominal on Input V3'
'Voltage Unbalance Negative Sequence Component 2-hour Mean'
'Voltage Unbalance Zero Sequence Component 2-hour Mean'
'Power Frequency 2-hour Mean'


10-minute report:
===========
'Voltage Flicker Pst on Input V2'
'Voltage Flicker Pst on Input V3'
'Voltage Flicker Pst on Input V1'
'Power Quality Event 10-minute Status'
'Voltage Magnitude 10-minute Mean on Input V1'
'Voltage Magnitude 10-minute Mean on Input V2'
'Voltage Magnitude 10-minute Mean on Input V3'
'Voltage Total Harmonic Distortion 10-minute Mean on Input V1'
'Voltage Total Harmonic Distortion 10-minute Mean on Input V2'
'Voltage Total Harmonic Distortion 10-minute Mean on Input V3'
'Voltage Dip 10-minute Mean as Percentage of Nominal on Input V1'
'Overvoltage 10-minute Mean as Percentage of Nominal on Input V1'
'Voltage Dip 10-minute Mean as Percentage of Nominal on Input V2'
'Overvoltage 10-minute Mean as Percentage of Nominal on Input V2'
'Voltage Dip 10-minute Mean as Percentage of Nominal on Input V3'
'Overvoltage 10-minute Mean as Percentage of Nominal on Input V3'
'Voltage Unbalance Negative Sequence Component 10-minute Mean'
'Voltage Unbalance Zero Sequence Component 10-minute Mean'
'Power Frequency 10-minute Mean'


3-second report:
===========
'Power Quality Event 150/180-cycle Status'
'Voltage Magnitude 150/180-cycle Mean on Input V1'
'Voltage Magnitude 150/180-cycle Mean on Input V2'
'Voltage Magnitude 150/180-cycle Mean on Input V3'
'Voltage Total Harmonic Distortion 150/180-cycle Mean on Input V1'
'Voltage Total Harmonic Distortion 150/180-cycle Mean on Input V2'
'Voltage Total Harmonic Distortion 150/180-cycle Mean on Input V3'
'Voltage Dip 150/180-cycle Mean as Percentage of Nominal on Input V1'
'Overvoltage 150/180-cycle Mean as Percentage of Nominal on Input V1'
'Voltage Dip 150/180-cycle Mean as Percentage of Nominal on Input V2'
'Overvoltage 150/180-cycle Mean as Percentage of Nominal on Input V2'
'Voltage Dip 150/180-cycle Mean as Percentage of Nominal on Input V3'
'Overvoltage 150/180-cycle Mean as Percentage of Nominal on Input V3'
'Voltage Unbalance Negative Sequence Component 150/180-cycle Mean'
'Voltage Unbalance Zero Sequence Component 150/180-cycle Mean'


The ION7650 and ION8800 with the below framework templates or newer will have all the required measurements by default:
7650_FAC-PQ_V3.3.0.0.0
8800A_FAC_V3.3.0.0.0

Even though CM4000s feature IEC61000-4-30 "Anomaly evaluations", it is not supported in the default IEC61000-4-30. The CM4000 stores its IEC61000-4-30 data in a very different way than ION meters do and it would require a new IEC61000-4-30 to be designed.

The above is applicable to ION Enterprise versions 5.6 SP2 and 6.0 SP0.

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Legacy KB System (APS) Data: RESL200253 V1.0, Originally authored by DaMi on 10/15/2009, Last Edited by DaMi on 10/15/2009
Related ranges: ION8800, ION7550/ION7650, ION Enterprise V6.0