APPENDIX D—Register List
Appendix D Table –1 Register List
Reg Name Size Type Access NV Units Notes System Setup & Status
Product & Features
30Meter Name20UTF8RWC Y---
50Meter Model20UTF8RWC Y---
70Manufacturer20UTF8RWC Y---
90Product ID Number1INT16U RWC Y---PM5350 = 15234 Manufacturing Data
Meter
130Serial Number2INT32U R Y---
132Date of Manufacture4DATETIME R Y---
136Hardware Revision5UTF8R Y---
Firmware Versions
Operating System
1637Present Firmware Version (DLF Format)
X.Y.T
1INT16U R Y---
1642Previous Firmware Version (DLF Format)
X.Y.T
1INT16U R Y---
1647Date/Time of Last Firmware Download4DATETIME R Y---Reset
1669Present Firmware Version (DLF Format)
X.Y.T
1INT16U R Y---
Language
1701Present Firmware Version (DLF Format)
X.Y.T
1INT16U R Y---
Meter Resets
1824Last Unit Restart DateTime4DATETIME R Y---1828Number of Metering System Restarts1INT16U R Y---1829Number of Control Power Failures1INT16U R Y---1830Date/Time of Last Control Power Failure 4DATETIME R Y---1834Duration of Last Control Power Failure2INT32U R Y seconds
1836Cause of Last Meter Reset1INT16U R Y---0 = Unknown
1 = Reset command
2 = Power failure
Timekeeping
Present Date & Time (7 register format)
1837Year1INT16U R N year 1838Month1INT16U R N month 1839Day1INT16U R N days 1840Hour1INT16U R N hours 1841Minute1INT16U R N minutes 1842Second1INT16U R N seconds 1843Millisecond1INT16U R N msec Present Date & Time (4 register format)
1845Year1INT16U R N---1846Month & Day1INT16U R N---1847Hour & Minute1INT16U R N---
1848Milliseconds1INT16U R N---Time Management Setup
1850Time Zone Offset From GMT1INT16U RWC Y---
1851GMT or Local Date/Time Selection1INT16U RWC Y---0 = GMT
1 = Local Date/Time
Security Revenue Security
1920Revenue Security Switch Status1INT16U R Y---0 = disabled
1 = enabled
1921Revenue Security Status1INT16U R Y---0 = inactive 1= active
1922Date/Time of Last Revenue Security State
Change
4DATETIME R Y---
Meter Setup & Status Miscellaneous Control  & Status
2002Active Load Timer2INT32U R Y seconds Increments when average current exceeds the Active Load Timer Setpoint.
2004Meter Operation Timer2INT32U R Y seconds Metering Setup
Power System
2014Number of Phases1INT16U RWC Y---2015Number of Wires1INT16U RWC Y---
2016Power System Configuration1INT16U RWC Y---0 = 1ph, 2w, LN
1 = 1ph, 2w, LL
2 = 1ph, 3w, LL with N
3 = 3ph, 3w, Delta, Ungrounded
4 = 3ph, 3w, Delta, Corner Grounded
5 = 3ph, 3w, Wye, Ungrounded
6 = 3ph, 3w, Wye Grounded
7 = 3ph, 3w, Wye, Resistance Grounded
8 = 3ph, 4w, Open Delta, Center-Tapped
9 = 3ph, 4w, Delta, Center-Tapped
10 = 3ph, 4w, Wye, Ungrounded
11 = 3ph, 4w, Wye Grounded
12 = 3ph, 4w, Wye, Resistance Grounded
13 = Multiple 1ph, 2w, LN
2017Nominal Frequency1INT16U RWC Y Hz 2018Nominal Voltage2FLOAT32RWC Y V 2020Nominal Current2FLOAT32RWC Y A 2022Nominal Power Factor2PF32RWC Y---2024Normal Phase Rotation1INT16U RWC Y---Instrument Transformers
2025Number VTs1INT16U RWC Y---2026VT Primary2FLOAT32RWC Y V 2028VT Secondary1INT16U RWC Y V 2029Number CTs1INT16U RWC Y---2030CT Primary1INT16U RWC Y A 2031CT Secondary1INT16U RWC Y A
2034CT Location for 1 CT Metering1INT16U RWC Y---1 = Phase A,
2 = Phase B
3 = Phase C
2035VT Location for 1 VT Metering1INT16U RWC Y---1 = Phase A
2 = Phase B
3 = Phase C
Appendix D Table –1 Register List
Reg Name Size Type Access NV Units Notes
2036VT Connection Type 1INT16U RWC Y ---
0 = Direct Connect 1 = Delta (2 VT)2 = Wye (3 VT)3 = L-N (1 VT)4 = L-L (1 VT)
5 = L-L W/N (2 VT)
Operating Modes 2048Peak Current Demand Over Last Year 2FLOAT32RWC Y A Entered by the user for use in calculation of Total Demand Distortion. 0 = Calculation performed using peak demand of 3-phase average current.
2050
Active Load Timer Setpoint
2
FLOAT32
RWC
Y
A
Energy Pulse Output Setup
Alarm / Energy LED Mode 2126
Alarm / Energy LED Mode
1
INT16U
RWC
Y
---0 = Disable
1 = Active Alarm (default)
2 = Energy
Energy Pulse Output Channel 01
2130Energy Channel 1INT16U RWC Y ---
0 = Not Used
1 = Active Energy Delivered (Into Load)
2 = Active Energy Received (Out of Load)
3 = Active Energy Delivered + Received
4 = Reactive Energy Delivered
5 = Reactive Energy Received
6 = Reactive Energy Delivered + Received
7 = Apparent Energy Delivered
8 = Apparent Energy Received
9 = Apparent Energy Delivered + Received 2131Digital Output Association 1INT16U RWC Y ---0 = No association 1 - 2 = Digital Output 99 = LED
2132Pulse Weight 2FLOAT32RWC Y
kWh, kVAh, kVAh
Meter Data (Basic)
1s Metering (50/60 Cycles)
Current 3000Current A 2FLOAT32R N A 3002Current B 2FLOAT32R N A 3004Current C 2FLOAT32R N A 3006Current N 2FLOAT32R N A 3008Current G 2FLOAT32R N A 3010
Current Avg
2
FLOAT32
R
N
A
Current Unbalance 3012Current Unbalance A 2FLOAT32R N %3014Current Unbalance B 2FLOAT32R N %3016Current Unbalance C 2FLOAT32R N %3018Current Unbalance Worst
2
FLOAT32
R
N
%
Voltage 3020Voltage A-B 2FLOAT32R N V 3022Voltage B-C 2FLOAT32R N V 3024Voltage C-A 2FLOAT32R N V 3026Voltage L-L Avg 2FLOAT32R N V 3028Voltage A-N 2FLOAT32R N V 3030Voltage B-N 2FLOAT32R N V 3032Voltage C-N 2FLOAT32R N V 3036
Voltage L-N Avg
2
FLOAT32
R
N
V
Appendix D Table –1 Register List
Reg
Name
Size
Type
Access NV
Units
Notesactive下载
Appendix D Table –1 Register List
Reg Name Size Type Access NV Units Notes
Voltage Unbalance
3038Voltage Unbalance A-B2FLOAT32R N%
3040Voltage Unbalance B-C2FLOAT32R N%
3042Voltage Unbalance C-A2FLOAT32R N%
3044Voltage Unbalance L-L Worst2FLOAT32R N%
3046Voltage Unbalance A-N2FLOAT32R N%
3048Voltage Unbalance B-N2FLOAT32R N%
3050Voltage Unbalance C-N2FLOAT32R N%
3052Voltage Unbalance L-N Worst2FLOAT32R N%
Power
3054Active Power A2FLOAT32R N kW
3056Active Power B2FLOAT32R N kW
3058Active Power C2FLOAT32R N kW
3060Active Power Total2FLOAT32R N kW
3062Reactive Power A2FLOAT32R N kVAR
3064Reactive Power B2FLOAT32R N kVAR
3066Reactive Power C2FLOAT32R N kVAR
3068Reactive Power Total2FLOAT32R N kVAR
3070Apparent Power A2FLOAT32R N kVA
3072Apparent Power B2FLOAT32R N kVA
3074Apparent Power C2FLOAT32R N kVA
3076Apparent Power Total2FLOAT32R N kVA
Power Factor
3078Power Factor A2PF32R N---
3080Power Factor B2PF32R N---
3082Power Factor C2PF32R N---
3084Power Factor Total2PF32R N---
3086Displacement Power Factor A2PF32R N---
3088Displacement Power Factor B2PF32R N---
3090Displacement Power Factor C2PF32R N---
3092Displacement Power Factor Total2PF32R N---
Frequency
3110Frequency2FLOAT32R N Hz
Miscellaneous
3134Phase Rotation1INT16U R N---0 = ABC, 1 = CBA Energy
Accumulated Energy
3200Accumulated Energy Reset Date/Time4DATETIME R Y---
3204Active Energy Delivered (Into Load)4INT64R Y Wh
3208Active Energy Received (Out of Load)4INT64R Y Wh
3212Active Energy Delivered + Received4INT64R Y Wh
3216Active Energy Delivered – Received4INT64R Y Wh
3220Reactive Energy Delivered4INT64R Y VARh
3224Reactive Energy Received4INT64R Y VARh
3228Reactive Energy Delivered + Received4INT64R Y VARh
3232Reactive Energy Delivered – Received4INT64R Y VARh
3236Apparent Energy Delivered4INT64R Y VAh
3240Apparent Energy Received4INT64R Y VAh
3244Apparent Energy Delivered + Received4INT64R Y VAh
3248
Apparent Energy Delivered – Received
4
INT64
R
Y
VAh
Demand
Demand System 1 (Power)
3701Power Demand Method 1INT16U RWC Y ---
0 = Thermal Demand
1 = Timed Interval Sliding Block
2 = Timed Interval Block
3 = Timed Interval Rolling Block
4 = Input Synchronized Block
5 = Input Synchronized Rolling Block
6 = Command Synchronized Block
7 = Command Synchronized Rolling Block
3702Power Demand Interval Duration 1INT16U RWC Y minutes
3703Power Demand Subinterval Duration 1INT16U RWC Y minutes For Thermal and Block demand methods, must
be same as Interval Duration. Must be evenly
divisible into Interval Duration.3704Power Demand Elapsed Time in Interval 1INT16U R N seconds 3705Power Demand Elapsed Time in Subinterval
1INT16U R N seconds 3706
Power Demand Peak Reset Date/Time
4
DATETIME
R
Y
---Demand System 2 (Current)
3711Current Demand Method 1INT16U RWC Y ---
"0 = Thermal Demand
1 = Timed Interval Sliding Block
2 = Timed Interval Block
3 = Timed Interval Rolling Block
4 = Input Synchronized Block
5 = Input Synchronized Rolling Block
6 = Command Synchronized Block
7 = Command Synchronized Rolling Block"3712Current Demand Interval Duration 1INT16U RWC Y minutes 3713Current Demand Subinterval Duration 1INT16U RWC Y minutes "For Thermal and Block demand methods, must be same as Interval Duration.”
3714Current Demand Elapsed Time in Interval 1INT16U R N seconds 3715Current Demand Elapsed Time in Subinterval
1INT16U R N seconds 3716
Current Demand Peak Reset Date/Time 4
DATETIME
R
Y
---
Demand Channel 1 (Active Power)3761Demand System Assignment – Active Power
1INT16U R Y ---Power Demand 3762Register Number of Metered Quantity – Active Power
1INT16U R Y ---Active Power Total
3763Units Code – Active Power 1INT16U R Y ---3764Last Demand – Active Power 2FLOAT32R Y kW 3766Present Demand – Active Power 2FLOAT32R N kW 3768Predicted Demand – Active Power 2FLOAT32R N kW 3770Peak Demand – Active Power
2FLOAT32R Y kW 3772
Peak Demand DateTime – Active Power 4
DATETIME
R
Y
---Demand Channel 2 (Reactive Power)3777Demand System Assignment – Reactive Power
1INT16U R Y ---Power Demand 3778Register Number of Metered Quantity – Reactive Power
1INT16U R Y ---Reactive Power Total
3779Units Code – Reactive Power 1INT16U R Y ---3780Last Demand – Reactive Power 2FLOAT32R Y kVAR 3782Present Demand – Reactive Power 2FLOAT32R N kVAR 3784Predicted Demand – Reactive Power 2FLOAT32R N kVAR 3786Peak Demand – Reactive Power
2FLOAT32R Y kVAR 3788
Peak Demand DateTime – Reactive Power
4
DATETIME
R
Y
---Appendix D Table –1 Register List
Reg
Name
Size
Type
Access NV
Units
Notes

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