GE AMP1B1 Manual Download Page 21

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A M P1B1 , A M P1C 2 , A M P1C 3 Com pac t Powe r a nd E ne rg y M ete r

2 F

3 L

xx R

R/W NV Format Units

Scale Range

Description

–

•

161

NV UInt

–

0-32767

Log Buffer Wrap / Missed Log Counter. In continous mode, this counter increments
each time the internal circular log buffer wraps and overwrites old data. The total
number of logged entries since the last log reset is: (Register 161 x 5760) + Register
163. In single shot mode this counter is the number of log entries lost due to the
buffer being full. The counter is cleared on logging reset.

–

•

162

NV UInt

–

0-32767

Max Number of Logging Days. Based on the Sub-Interval Length and the depth of the
log buffer, this register shows the maximum number of days that data will be logged
following a reset until the Buffer is full (Single Shot Mode) or overwrites old data
(Continuous).

–

•

163

NV UInt

–

0-32767

Real Energy Consumption
(MSR)

Real Energy (Register 001/002) at the time of the most
recent log entries.

–

•

164

NV ULong

kWh

0-0xFFFF

Real Energy Consumption
(LSR)

–

•

165

0-0xFFFF 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

–

•

166

NV UInt

Month /
Day

–

See Bytes Day 1-31 (0x01-0x1F)

Month 1-12 (0x01-0x0C)

–

•

167

NV UInt

Year /
Hour

–

See Bytes Hour 0-23 (0x00-0x17)

Year 0-199 (0x00-0xC7)

–

•

168

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

NV Float

kWh

–

Real Energy Consumption (clear via reset register)

•

259/260

NV Float

kWh

–

Real Energy Consumption (clear via reset register)

•

261/262

–

Float

–

Total Instantaneous Real Power

•

263/264

–

Float

kVAR

–

Total Instantaneous Reactive Power

•

265/266

–

Float

kVA

–

Total Instantaneous Apparent Power

•

267/268

–

Float

Ratio

–

0.0-1.0

Total Power Factor (Total KW / Total KVA)

•

269/270

–

Float

Volt

–

Voltage, L-L, Average of 3 Phases

•

271/272

–

Float

Volt

–

Voltage, L-N, Average of 3 Phases

•

273/274

–

Float

Amp

–

Current, Average of 3 Phases

•

275/276

–

Float

–

Real Power, Phase A

•

277/278

–

Float

–

Real Power, Phase B

•

279/280

–

Float

–

Real Power, Phase C

•

281/282

–

Float

Ratio

–

0.0-1.0

Power Factor, Phase A

•

283/284

–

Float

Ratio

–

0.0-1.0

Power Factor, Phase B

•

285/286

–

Float

Ratio

–

0.0-1.0

Power Factor, Phase C

Summary of Contents for AMP1B1

Page 1: ...AMP1B1 AMP1C2 AMP1C3 Compact Power and Energy Meter for ReliaGear Lighting Panels ...

Page 2: ...ieve a safe state during and after a path failure Examples of critical control functions are emergency stop and over travel stop This symbol indicates an electrical shock hazard exists Documentation must be consulted where this symbol is used on the product DANGER Hazard of Electric Shock Explosion or Arc Flash Failure to follow these instructions will result in death or serious injury Follow safe...

Page 3: ... 30 VAC DC 100 mA max 25 C derate 0 56 mA per C above 25 C Real Energy Pulse Contacts all models AND Reactive Energy Pulse Contacts AMP1B1 only N O static output 30 VAC DC 100 mA max 25 C derate 0 56 mA per C above 25 C RS 485 Port AMP1Cx 2 wire 1200 to 38400 baud Modbus RTU Mechanical Weight 0 62 lb 0 28 kg IP Degree of Protection IEC 60529 IP40 front displate IP20 meter Display Characteristics B...

Page 4: ...d Line Neutral Power Real Reactive and Apparent 3 phase total and per phase Power factor 3 phase average and per phase Frequency Power demand most Recent and Peak Demand configuration Fixed Rolling Block and External Sync Modbus only Data Logging includes all FDS outputs plus Real Time Clock user configurable 10 user configurable log buffers each buffer holds 5760 16 bit entries user configures wh...

Page 5: ...uct Diagram Alarm Energy kWh 123 4 4 4 5 CONTROL POWER 0 1A 50 60 Hz A B C N 1 2 A B C Alarm Energy NC NO S OUTPUT Common 1 or 1 3 VAC Input IA IB IC Phase Loss Alarm Output Varies by Model 1 Phase VA VB VC Neutral Earth Control Power UL 90V L N 600VL L CE 90V L N 300VL N VOLTAGE INPUTS CAT III 50 60 Hz The red alarm LED lights when any of the 3 phase voltages drop below the selected threshold The...

Page 6: ... A B C N White Black White Black Figure 4 3 phase 3 wire system connection CT no PT USE SYSTEM TYPE 31 3L L1 L2 L3 X2 X1 A B C N A B C X2 X1 X2 X1 White Black White Black White Black Figure 5 3 phase 4 wire wye direct voltage input connection 3 CT USE SYSTEM TYPE 40 3L 1n L1 N L2 L3 X2 X1 A B C N A B C X2 X1 X2 X1 White Black White Black White Black Figure 6 3 phase 4 wire wye connection 3 CT 3 PT...

Page 7: ... at or above the supply voltage Use the earth connection for electromagnetic compatibility EMC not a protective earth ground Control Power Direct Connect Control Power Line to Line L1 1 2 G L2 L3 Direct Connect Control Power Line to Neutral L1 N L2 L3 1 2 G Line to Neutral from 90 VAC to 347 VAC UL or 300 VAC CE Direct Connect Control Power DC Control Power 1 2 G DC Control Power from 125 VDC to 3...

Page 8: ...Interface Menu Abbreviation Defined The user can set the display mode to IEC or IEEE notation in the SETUP menu 100 mA 100 mA 100 mA Alarm Energy Output S LOAD LOAD LOAD Over Current Protective Device1 not supplied Power Source2 3 30 VDC 6 30 VAC AMP1B1 and AMP1Cx AMP1B1 only Power Source2 3 30 VDC 6 30 VAC Power Source2 3 30 VDC 6 30 VAC Main Menu IEC IEEE Description D D Demand MAX M Maximum Dem...

Page 9: ... VLN C A C VAC C KW C VLN A KVA B KVA C KVA A PF 3 PF B PF C PF 3KVAR Total Reactive Power Q AKVAR BKVAR CKVAR KVARh KVAh Accumulated Reactive Energy Qh Accumulated Apparent Energy Sh DEMND D KW Present Real Power Demand P M KW MKVAR M KVA Maximum Apparent Power Demand S Maximum Reactive Power Demand Q Maximum Real Power Demand P DKVAR Present Reactive Power Demand Q D KVA Present Apparent Power D...

Page 10: ...k Display nOnE if no alerts To Setup Setup Meter Reset Data Phase Loss A B C Low Power Factor A B C Frequency Out of Range A Current Out of Range Voltage Out of Range A B C A B C INFO MODEL OS SN RS Serial Number Reset System Operating System ALERT INFO PLOSS A b C LOWPF A b C F ERR A I OVR A b C V OVR A b C PASWD 00000 PASWD 00000 Model Number Energy Pulse Output Error Overrun Error ConF Con gura...

Page 11: ...ithin the meter s operating range when divided by the PT ratio System Power MX KW The theoretical Maximum System Power is calculated by the meter from the System Voltage CT size and System Type Power Factor is assumed to be unity The value of System Power is used to determine which combinations of pul se weight and duration are valid and will keep up with the maximum power the meter will see This ...

Page 12: ...nd a pulse duration that will allow the pulse output to keep up with Theoretical Maximum System Power see S_PWR screen When moving up to a larger energy the meter will jump to the first value where it can and a valid solution mS P Minimum Pulse Duration Time This read only value is set by the meter to the slowest duration in mS per closure that will keep up with the Theoretical Maximum System Powe...

Page 13: ...splay Screen Diagram Tx Rx ERR Screen Name or Units Diagnostic Alert Logo Numeric Data Alive Indicator Transmit Data RS 485 Equipped Units Only Receive Data Error Receive Data 00 0 0 0 00 0 0 0 00 0 0 0 Right Next Left Back Up Select Down Select 120 Ω terminators on the first and last devices of the daisy chain S Shield Wire Display Screen Diagram Tx Rx ERR Screen Name or Units Diagnostic Alert Lo...

Page 14: ...If the unit has an RS 485 interface the first Setup screen is S COM set communications a Press to go to the ADDR screen and through the address digits Use or to select the Modbus address b Press to accept the value and go to the BAUD screen Use or to select the baud rate c Press to go to the PAR screen Use or to select the parity d Press to go back to the S COM screen 6 Press to go to the S CT Set...

Page 15: ... selects a buffer to read Data from the selected buffer appears in registers 8000 to 13760 Read Write Collision If the demand sub interval timeout occurs while the user is reading a page register 158 0 the log data will be held in RAM until the next demand subinterval At that time both the saved data from the previous cycle and the new data will be written to the log whether the page register has ...

Page 16: ...non volatile memory The value will still be available if the meter experiences a power loss and reset Format UInt Unsigned 16 bit integer SInt Signed 16 bit integer ULong Unsigned 32 bit integer Upper 16 bits MSR in lowest numbered first listed register 001 002 MSR LSR Float 32 bit floating point Upper 16 bits MSR in lowest numbered first listed register 257 258 MSR LSR Encoding is per IEEE standa...

Page 17: ...ge Phase A C 019 R UInt Volt V 0 32767 Voltage Phase A N 020 R UInt Volt V 0 32767 Voltage Phase B N 021 R UInt Volt V 0 32767 Voltage Phase C N 022 R UInt Amp I 0 32767 Current Instantaneous Phase A 023 R UInt Amp I 0 32767 Current Instantaneous Phase B 024 R UInt Amp I 0 32767 Current Instantaneous Phase C 025 R UInt Reserved returns 0x8000 QNAN 026 R UInt Hz 0 01 4500 6500 Frequency derived fro...

Page 18: ... Primary Current Inputs 132 R W NV UInt 1 3 CT Ratio Secondary Interface 1 or 1 3 V may not be user configurable 133 R W NV UInt 100 0 01 320 00 PT Ratio The meter scales this value by 100 i e entering 200 yields a potential transformer ratio of 2 1 The default is 100 1 00 1 which is with no PT attached Set this value before setting the system voltage below 134 R W NV UInt 82 32000 System Voltage ...

Page 19: ...arger value kWh Pulse Contacts Note The kWh pulse contact can keep up with a maximum power Watts of 1800000 x Wh pulse weight contact closure duration in mses 145 R NV UInt ms 500 250 100 50 25 10 Pulse Contact Closure Duration in msec Read only Set to the slowest duration that will keep up with the theoretical max system power register 135 The open time the closure time so the max pulse rate puls...

Page 20: ...ata will be written to the log and logging will resume on the following sub interval timeout whether the page register has been cleared or not resulting in the appearance of data moving in the buffer during reads To avoid this log buffer reads should be completed and this register set back to 0 in less time than the Demand Sub interval preferred or logging should be halted by setting Bit 1 in regi...

Page 21: ...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 ...

Page 22: ...ent Demand 329 330 R NV Float kVA Total Apparent Power Present Demand 331 332 R NV Float kW Total Real Power Max Demand 333 334 R NV Float kVAR Total Reactive Power Max Demand 335 336 R NV Float kVA Total Apparent Power Max Demand 337 3381 R Float 0 4294967040 Pulse Counter 1 Real Energy Contact Closure Counters Valid for both Pulse inputs and outputs AMP1 meter counts are shown in See register 14...

Page 23: ...t clips from outside Supported System Types CAUTION RISK OF EQUIPMENT DAMAGE This product is designed only for use with 1V or 0 33V current transducers CTs DO NOT USE CURRENT OUTPUT e g 5A CTs ON THIS PRODUCT Failure to follow these instructions can result in over heating and permanent equipment damage The meter has a number of different possible system wiring configurations see Wiring Diagrams pa...

Page 24: ...e is incorrect Verify that the baud rate of the meter matches that of all other devices on its communications link see Setup section Communications lines are improperly connected Verify the power meter communications connections see the Communications section Verify the terminating resistors are properly installed on both ends of a chain of units Units in the middle of a chain should not have a te...

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