Modbus point map (cont.) – Veris Industries E50C3A Install User Manual
Page 24
ZL0116-0A
Page 24 of 26
©2013 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected] 07132
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50B1A, E50C2A, E50C3A
TM
E50C2A FDS
E50C3A L
og
E50xxA REG.
R/W NV Format
Units
Scale
Range
Description
• 166
R
NV UInt
Month /
Day
See Bytes
Most Significant Byte (MSB)
Least Significant Byte (LSB)
Date & Time of the newest entry in the log.
After a power cycle, resets to:
Day 01 Month 01
Hour 00 Year (20) 00
Day 1-31 (0x01-0x1F)
Month 1-12 (0x01-0x0C)
• 167
R
NV UInt
Year /
Hour
See Bytes
Hour 0-23 (0x00-0x17)
Year 0-199 (0x00-0xC7)
• 168
R
NV UInt
Minutes /
Seconds
See Bytes
Seconds 0-59 (0x00-0x3B)
Minutes 0-59 (0x00-0x3B)
• 169
R/W NV UInt
1-42, 146,
155-157,
257-336
Log Register Pointer 1 –
Default is 1 (Real Energy MSR)
Log Register Selection – Write the number of the 16 bit register to be logged.
To log a 32 bit value (such as accumulators and floating point values) two log
registers must be used, one each for the most and least significant register
(MSR & LSR).
• 170
R/W NV UInt
Log Register Pointer 2 –
Default is 2 (Real Energy LSR)
• 171
R/W NV UInt
Log Register Pointer 3 –
Default is 29 (Reactive Energy
MSR)
• 172
R/W NV UInt
Log Register Pointer 4 –
Default is 30 (Reactive Energy
LSR)
• 173
R/W NV UInt
Log Register Pointer 5 –
Default is 37 (Real Demand)
• 174
R/W NV UInt
Log Register Pointer 6 –
Default is 38 (Reactive Demand)
• 175
R/W NV UInt
Log Register Pointer 7 –
Default is 39 (Apparent Demand)
• 176
R/W NV UInt
Log Register Pointer 8 –
Default is 155 (Month/Day)
• 177
R/W NV UInt
Log Register Pointer 9 –
Default is 156 (Year/Hour)
• 178
R/W NV UInt
Log Register Pointer 10 –
Default is 157 (Minutes/Seconds)
Floating Point Data
•
• 257/258 R
NV Float
kWh
Real Energy Consumption (clear via reset register)
•
• 259/260 R
NV Float
kWh
Real Energy Consumption (clear via reset register)
•
• 261/262 R
Float
kW
Total Instantaneous Real Power
•
• 263/264 R
Float
kVAR
Total Instantaneous Reactive Power
•
• 265/266 R
Float
kVA
Total Instantaneous Apparent Power
•
• 267/268 R
Float
Ratio
0.0-1.0
Total Power Factor (Total KW / Total KVA)
•
• 269/270 R
Float
Volt
Voltage, L-L, Average of 3 Phases
•
• 271/272 R
Float
Volt
Voltage, L-N, Average of 3 Phases
•
• 273/274 R
Float
Amp
Current, Average of 3 Phases
•
• 275/276 R
Float
kW
Real Power, Phase A
•
• 277/278 R
Float
kW
Real Power, Phase B
•
• 279/280 R
Float
kW
Real Power, Phase C
•
• 281/282 R
Float
Ratio
0.0-1.0
Power Factor, Phase A
•
• 283/284 R
Float
Ratio
0.0-1.0
Power Factor, Phase B
•
• 285/286 R
Float
Ratio
0.0-1.0
Power Factor, Phase C
•
• 287/288 R
Float
Volt
Voltage, Phase A-B
•
• 289/290 R
Float
Volt
Voltage, Phase B-C
•
• 291/292 R
Float
Volt
Voltage, Phase A-C
•
• 293/294 R
Float
Volt
Voltage, Phase A-N
•
• 295/296 R
Float
Volt
Voltage, Phase B-N
•
• 297/298 R
Float
Volt
Voltage, Phase C-N
•
• 299/300 R
Float
Amp
Current, Instantaneous, Phase A
Modbus Point Map (cont.)