Appendix A—Abbreviated Regist er Listing 63230-300-212
Register Listing April 2001
©200 1 Schneider Electric All Rights Reserved
138
1419 MinimumCurrent K-Factor,Phase B —0.10 0 to 10,000
1420 MinimumCurrent K-Factor,Phase C —0.10 0 to 10,000
1421 MinimumCrest Factor,Current, Phase A —0.01 0to 10,000
1422 MinimumCrest Factor,Current, Phase B —0.01 0to 10,000
1423 MinimumCrest Factor,Current, Phase C —0.01 0to 10,000
1424 MinimumCrest Factor,Current, Neutral —0.01 0 to 10,000
1425 Minimum C rest Factor, Voltage A-N/A-B —0.01 0to 10,000
1426 Minimum C rest Factor, Voltage B-N/B-C —0.01 0 to 10,000
1427 Minimum C rest Factor, Voltage C-N/C-A —0.01 0 to 10,000
1430 MinimumCurrent FundamentalRMS Magnitude, Phase A A Amps/Scale 0to 32,767
1431 MinimumCurrent FundamentalCoincident Angle,Phase A —0.1 °0to3,599
1432 MinimumCurrent FundamentalRMS Magnitude, Phase B A Amps/Scale 0to 32,767
1433 MinimumCurrent FundamentalCoincident Angle,Phase B —0.1 °0to3,599
1434 MinimumCurrent FundamentalRMS Magnitude, Phase C A Amps/Scale 0 to 32,767
1435 MinimumCurrent FundamentalCoincident Angle,Phase C —0.1°0to3,599
1436 MinimumCurrent FundamentalRMS Magnitude, Neutral B Amps/Scale 0 to 32,767
1437 MinimumCurrent FundamentalCoincident Angle,Neutral —0.1 °0to3,599
1438 MinimumCurrent FundamentalRMS Magnitude, Ground C Amps/Scale 0 to 32,767
1439 MinimumCurrent FundamentalCoincident Angle,Ground —0.1 °0to3,599
1444 MinimumVoltage FundamentalRMS Magnitude,A-N/A-B D Volts/Scale 0 to 32,767
1445 MinimumVoltage FundamentalCoincident Angle,A-N/A-B —0.1 °0to3,599
1446 MinimumVoltage FundamentalRMS Magnitude,B-N/B-C D Volts/Scale 0 to 32,767
1447 MinimumVoltage FundamentalCoincident Angle,B-N/B-C —0.1 °0to3,599
1448 MinimumVoltage FundamentalRMS Magnitude,C-N/C-A D Volts/Scale 0 to 32,767
1449 MinimumVoltage FundamentalCoincident Angle,C-N/C-A —0.1 °0to3,599
1450 MinimumVoltage FundamentalRMS Magnitude,N-G E Volts/Scale 0to 32,767
1451 MinimumVoltage FundamentalCoincident Angle,N-G —0.1°0to3,599
1455 MinimumFundamental Real Power,Phase A F kW/Scale -32,767 to 32,767
1456 MinimumFundamental Real Power,Phase B F kW/Scale -32,767 to 32,767
1457 MinimumFundamental Real Power,Phase C F kW/Scale -32,767 to 32,767
1458 MinimumFundamental Real Power,Total F kW/Scale -32,767 to 32,767
1459 MinimumFundamental ReactivePower,Phase A F kVAr/Scale -32,767to 32,767
1460 MinimumFundamental ReactivePower,Phase B F kVAr/Scale -32,767to 32,767
1461 MinimumFundamental ReactivePower,Phase C F kVAr/Scale -32,767 to 32,767
1462 MinimumFundamental ReactivePower,Total F kVAr/Scale -32,767to 32,767
1464 MinimumDistortion Power,Phase A F kW/Scale -32,767 to 32,767
1465 MinimumDistortion Power,Phase B F kW/Scale -32,767 to 32,767
Tabl e A–3:AbbreviatedRegister List
Register
Number Description Scale
Factor Units Register Range
See “How Power Factor is Stored in t he Register”on page 128.
Thealternate storage methodfor power factor(PF) is useful for outputtingPF on analog outputs.The PF valueis stored as a positivevalue
between0 and 2,centered around1 (unity). A valueof 0 lagging mapsto 0; -0.999 mapsto 0.999;0.999 leadingmaps to 1.001;and 0 leading
mapsto 2. The alternate PF is alsostored with a scale factor0.001.
Theseconfiguration registersrequire that youenter the setup mode to change the register’scontents. Issuecommand 9020 to enter setup
mode and 9021 to exit setup mode. See “Us ing the Command Interface to Cha nge Configuration Regist ers”on page 187 for instruction s on
howtousethesetup-modecommands.
Quantity available for 4- wire system only. Value set to - 32,768 if not available.