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Feeder Measurement & Control

Accura 2300S/2350

Voltage Measurement in the Incoming Feeder  
Measures voltage by sensing voltage in the incoming feeder in distribution panels  
Display  
Displays the measurement data of Accura 2300S, as well as the data collected from Accura 2350 modules on the LCD screen^{1}  
Measurement Parameters  
Voltage

Linetoneutral voltage, Linetoline voltage, Frequency, Fundamental^{2,3}, Harmonics^{2,3}, THD  
Vector diagram(phasor)^{3}, Residual voltage ^{3,4}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{3}, the NEMA standard^{3}  
Temperature  Measures the temperature of Accura 2300S with a sensor located on the back of the module  
Power Quality  
Dip(Sag), Swell  RMS voltage values measured over 1 cycle(refreshed every half cycle)  
Harmonics  Up to the 40th order  
Unbalance^{3}  Linetoneutral/Linetoline voltage unbalance, zerosequence/negativesequence unbalance  
Measurement Events  
Type of Event

Dip(Sag), Swell events  
Phase open events^{3}, Fuse fail events, Over temperature events  
Over current events, Over leakage current events  
Over demand current events, Over power events  
Max number of event logs  100  
Internal Communication with Accura 2350 Modules  
Dedicated communication

Sends sampled voltage data to multiple Accura 2350 modules  
Collects measurement data from multiple Accura 2350 modules  
External Communication with the Host System  
Ethernet

Communicates with the host system using 100 Mbps full duplex Modbus TCP protocol  
Ethernet switching using 2 ports  
Wiring mode: Star, Daisychain, Ring topology(RSTP^{5} supported)  
RS485  Communicates with the host system using Modbus RTU protocol at 1,200 – 115,200 bps^{6}  
Digital Input/Output^{7}  
Digital Input  2 channels, dry contact  
Digital Output  1 channel, Form A relay  
Power Supply  
Power voltage  AC 85 – 265 V 50/60 Hz, DC 100 – 300 V 
Power Measurement in Branch Loads/ Main Incoming Feeder  
Measures various power characteristics based on the sampled current data measured in the incoming feeder or branch load, as well as the sampled voltage data received from Accura 2300 module  
Model  Basic Current  
Threephase

Accura 23503P250A105  250 A  
Accura 23503P125A90  125 A  
Accura 23503P100A75  100 A  
Accura 23503P60A75  60 A  
Accura 23503PCT5A75^{1}  CT5 A  
Singlephase

Accura 23501P250A105  250 A  
Accura 23501P125A60  125 A  
Accura 23501P100A50  100 A  
Accura 23501P60A50  60 A  
Accura 23501P50A35  50 A  
Accura 23501P30A35  30 A  
Singlephase singlehole

Accura 23501PSH50A35  50 A  
Accura 23501PSH30A35  30 A  
Measurements  
Current

RMS, Fundamental, THD, TDD, Harmonics^{2}, Residual current^{3}, Leakage current  
Vector diagram(Phasor)^{2}, Crest factor^{2}, Kfactor^{2}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{3}, the NEMA standard^{3}  
Power  Active power, Reactive power, Apparent power  
Energy  Active energy(Received/Delivered/Net/Sum), Reactive energy ^{2}, Apparent energy ^{2}  
Power factor  Power factor  
Demand  Current/power demand, Peak current/power demand, Predicted current/power demand^{2}  
Internal Communication with Accura 2300S  
Dedicated communication

Receives sampled voltage data from Accura 2300S  
Sends measurement and operational status data to Accura 2300S  
Power Supply  
Power voltage  Receives power from Accura 2300S 
Power Measurement in Branch Loads/ Main Incoming Feeder  
Measures various power characteristics based on the sampled current data measured in the incoming feeder or branch load, as well as the sampled voltage data received from Accura 2300 module  
Model  Basic Current  
Splitcore threephase

Accura 23503PSC250A105  250 A  
Accura 23503PSC125A90  125 A  
Accura 23503PSC60A75  100 A  
Accura 23503PSCCT5A90^{1}  60 A  
Splitcore singlephase

Accura 23501PSC250A105  250 A  
Accura 23501PSC125A60  125 A  
Accura 23501PSC60A50  60 A  
Splitcore singlephase singlehole^{4}

Accura 23501PSCSH800A  800 A  
Accura 23501PSCSH630A  630 A  
Accura 23501PSCSH400A  400 A  
Measurements  
Current

RMS, Fundamental, THD, TDD, Harmonics^{2}, Residual current^{3}, Leakage current  
Vector diagram(Phasor)^{2}, Crest factor^{2}, Kfactor^{2}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{3}, the NEMA standard^{3}  
Power  Active power, Reactive power, Apparent power  
Energy  Active energy(Received/Delivered/Net/Sum), Reactive energy ^{2}, Apparent energy ^{2}  
Power factor  Power factor  
Demand  Current/power demand, Peak current/power demand, Predicted current/power demand^{2}  
Internal Communication with Accura 2300S  
Dedicated communication

Receives sampled voltage data from Accura 2300S  
Sends measurement and operational status data to Accura 2300S  
Power Supply  
Power voltage  Receives power from Accura 2300S 
Model  Description  
Threephase

TM3P105  For use with Accura 23503P250A105 module 
TM3P90  For use with Accura 23503P125A90 module  
TM3P75L  For use with Accura 23503P100A75 module  
TM3P75  For use with Accura 23503P60A75 module  
TM3P105LB^{1}  For use with Accura 23503P250A105 module  
TM3P90LB^{1}  For use with Accura 23503P125A90 module  
TM3P75LLB^{1}  For use with Accura 23503P100A75 module  
TM3P75LB^{1}  For use with Accura 23503P60A75 module  
Singlephase

TM1P105  For use with Accura 23501P250A105 module 
TM1P60  For use with Accura 23501P125A60 module  
TM1P50L  For use with Accura 23501P100A50 module  
TM1P50  For use with Accura 23501P60A50 module  
TM1P105LB^{1}  For use with Accura 23501P250A105 module  
TM1P60LB^{1}  For use with Accura 23501P125A60 module  
TM1P50LLB^{1}  For use with Accura 23501P100A50 module  
TM1P50LB^{1}  For use with Accura 23501P60A50 module 
Power Supply  
Port name  L+, N, G(earth ground)  
Connector type  Screwtype terminal(pluggable)  
Wire specs  2.1 – 4.0 mm^{2}(14 – 12 AWG), copper or aluminum  
Wire temp rating  Above 70 °C  
Power voltage  AC 85 – 265 V 50/60 Hz, DC 100 – 300 V  
Withstand voltage  AC 2,500 V RMS, 60 Hz for 1 minute  
Operating envir.  Pollution degree 2  
Power consumption  Max 20 VA  Varies by the number of connected Accura 2350 modules 
Inrush current  Peak 25 A, duration: less than 2 msec(AC 220 V)^{2}  
Voltage Input  
Port name  V_{1}, V_{2}, V_{3}, V_{N}  
Connector type  Terminal block^{1}  
Wire specs  2.1 – 3.5 mm^{2}(14 – 12 AWG), copper or aluminum  
Wire temp rating  Above 70 °C  
Burden  0.02 VA/phase @ 220 V  
Withstand voltage  AC 2,000 V RMS, 60 Hz for 1 minute  
Impedance  10 M¥Ø/phase  
Meas. category  Category ¥²  
Internal Communication with Accura 2350 Modules  
Dedicated communication

Port name  RJ12–1, RJ12–2 (2 ports) 
Comm. cable  6C telephone line^{3}  
Cable length^{4}  Up to 6 m for each port  
Max number of connectable modules^{5}  15 for each port  
External Communication with the Host System  
Ethernet

Port name  Ethernet1, Ethernet2 (2 ports) 
Connector type  RJ45  
Protocol  Modbus TCP  
Ethernet cable  STP(Shielded Twisted Pair)/ SFTP(Screened Foiled Twisted Pair) Cat 5e  
Comm. speed  100 Base–TX(100 Mbps/Full Duplex)  
Wiring mode  Star, DaisyChain, Ring topology  
RS–485

Port name  Ta(TRX+), Tb(TRX) 
Connector type  Screwtype terminal(pluggable)  
Protocol  Modbus TCP  
Wire specs  0.21 – 3.5 mm^{2}(24 – 12 AWG), Shielded twisted pair^{6}  
Cable length  Up to 1,219 m(4,000 ft)  
Comm. speed  1,200 – 115,200^{7} bps  
Max number of connectable modules  32 for each bus^{7}  
Digital Input/Output  
Digital Input

Port name  DI_{1}, DI_{2}, DI_{G} 
Connector type  Terminal block^{8}  
Input type  2 channels, dry contact(common ground)  
Wire specs  1.5 – 3.5 mm^{2}(16 – 12 AWG), copper or aluminum  
Rating  DC 5 V (Self excitation)  
Isolation  Max 300 V  
Min pulse width  1 s  
Digital output

Port name  DO, DO_{G} 
Connector type  Terminal block^{8}  
Wire specs  1.5 – 3.5 mm^{2}(16 – 12 AWG), copper or aluminum  
Output contact  1 channel, Form A relay  
Output type  Latch, Uncountable/Countable Pulse^{9}, Periodic Pulse^{9}  
Isolation  AC 2,000 V for 1 minute  
Min pulse width  AC 250 V 5 A, DC 110 V 0.3 A, DC 30 V 5 A  
Voltage Measurement  
Wiring mode  3P4W, 3P3W, 1P3W, 1P2W  
Sampling rate  512 samples/cycle  
Frequency meas.  50/60 Hz, 42 – 69 Hz  
Voltage

Measuring range^{10}(accuracy guaranteed)  AC 60 – 600 V Line–to–line 
Accuracy  ±0.2 % Reading  
Max measured value  AC 660 V Line–to–line  
Min measured value  AC 5 V Line–to–neutral  
Measurement data 
Linetoneutral voltage, Linetoline voltage, Frequency, Fundamenta^{11,12}, Harmonics^{11,12}, THD  
Vector diagram(Phasor)^{12}, Residual voltage^{12,13}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{12}, the NEMA standard^{12}  
Power Quality  
Dip(Sag), Swell  RMS voltage values measured over 1 cycle(refreshed every half cycle)  
Voltage harmonics^{11}

Harmonic order  Up to the 40th order 
Measurement data  THD, Magnitude of each harmonic  
Voltage unbalance^{12}

Linetoneutral/Linetoline voltage unbalance according to the NEMA standard  
Zerosequence/negativesequence voltage unbalance 
Current Input  
Connector type  Throughhole type  
Wire size  Selectable according to hole dimensions  
Measurement  
Frequency measurement  50/60 Hz, 42 – 69 Hz  
Sampling

FFT calculation(harmonic measurement)  64 samples/cycle  
RMS calculation(basic measurement)  32 samples/cycle  
Current

Model  Basic Current  Measuring Range (Accuracy guaranteed)  Min Meas.Value  Hole Dimensions  
Accura 23503P250A105  250 A 
1 A

300 A

250 mA  Ø21.0 mm  
Accura 23503P125A90  125 A 
500 mA

150 A

125 mA  Ø16.5 mm  
Accura 23503P100A75  100 A 
400 mA

120 A

100 mA  Ø13.5 mm  
Accura 23503P60A75  60 A 
240 mA

72 A

60 mA  Ø13.5 mm  
Accura 23503PCT5A75^{1}  CT5 A 
CT20 mA

6 A^{2}

CT5 mA  Ø13.5 mm  
Accura 23501P250A105  250 A 
1 A

300 A

250 mA  Ø21.0 mm  
Accura 23501P125A60  125 A 
500 mA

150 A

125 mA  Ø16.4 mm  
Accura 23501P100A50  100 A 
400 mA

120 A

100 mA  Ø13.5 mm  
Accura 23501P60A50  60 A 
240 mA

72 A

60 mA  Ø13.5 mm  
Accura 23501P50A35  50 A 
200 mA

60 A

50 mA  Ø8.9 mm  
Accura 23501P30A35  30 A 
120 mA

36 A

30 mA  Ø8.9 mm  
Accura 23501PSH50A35  50 A 
200 mA

60 A

50 mA  Ø9.0 mm  
Accura 23501PSH30A35  30 A 
120 mA

36 A

30 mA  Ø9.0 mm  
Accuracy  ±0.2 % Reading  
Measured data

RMS, Fundamental, THD, TDD, Harmonics^{3}, Residual current^{4}, Leakage current  
Vector diagram(Phasor)^{3}, Crest factor^{3}, Kfactor^{3}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{4}, the NEMA standard^{4}  
Leakage current

Leakage current input  Voltagetype external ZCT 200 mA/100 mV @1.2 k¥Ø Burden  
Accuracy^{5}/Measuring range  ±2 % Reading + 2 mA / Up to 1 A  
Power

Active 
Accuracy

IEC 6155712 Class 0.5  
Reactive  IEC 6155712 Class 1  
Apparent  IEC 6155712 Class 0.5  
Energy

Active

Accuracy  IEC 6205322 Class 0.5S  
Measured data  Received/Delivered/Net/Sum(total) energy  
Reactive^{3}

Accuracy  IEC 6205324 Class 1  
Measured data  Positive/Negative/Net/Sum(total) energy  
Apparent^{3}  Accuracy  IEC 6155712 Class 0.5  
Power factor  Power factor  
Demand  Current/Power  Demand, Peak demand, Predicted demand^{3,6}  
Power Quality  
Current harmonics

Harmonic order  Up to the 31st harmonic  
Measured data  THD, TDD, magnitude of each harmonic^{3}  
Current unbalance^{4}

Current unbalance according to the NEMA standard  
Zerosequence/negativesequence current unbalance 
Current Input  
Connector type  Throughhole type  
Wire size  Selectable according to hole dimensions  
Measurement  
Frequency measurement  50/60 Hz, 42 – 69 Hz  
Sampling

FFT calculation(harmonic measurement)  64 samples/cycle  
RMS calculation(basic measurement)  32 samples/cycle  
Current

Model  Basic Current  Measuring Range (Accuracy guaranteed)  Min Meas.Value  Hole Dimensions  
Accura 23503PSC250A105  250 A 
2.50 A

300 A

1.67 A  23.0 x 31.7 mm  
Accura 23503PSC125A90  125 A 
1.25 A

150 A

0.83 A  18.2 x 31.7 mm  
Accura 23503PSC60A75  60 A 
0.60 A

72 A

0.40 A  13.4 x 31.7 mm  
Accura 23503PSCCT5A90 
60 A 
0.60 A

72 A 
0.40 A 
6.2 x 6.5mm(A,C)  
6.2 x 7.7 mm(B)^{3}  
Accura 23501PSC250A105  250 A 
2.50 A

300 A

1.67 A  23.0 x 31.7 mm  
Accura 23501PSC125A60  125 A 
1.25 A

150 A

0.83 A  17.9 x 31.7 mm  
Accura 23501PSC60A50  60 A 
0.60 A

72 A

0.40 A  13.0 x 31.7 mm  
Accuracy  ±0.5 % Reading^{4}  
Measured data

RMS, Fundamental, THD, TDD, Harmonics^{5}, Residual current^{6}, Leakage current  
Vector diagram(Phasor)^{5}, Crest factor^{5}, Kfactor^{5}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{6}, the NEMA standard^{6}  
Leakage current

Leakage current input  Voltagetype external ZCT 200 mA/100 mV @1.2 k¥Ø Burden  
Accuracy^{7}/Measuring range  ±2 % Reading + 2 mA / Up to 1 A  
Power

Active 
Accuracy

IEC 6155712 Class 0.5  
Reactive  IEC 6155712 Class 1  
Apparent  IEC 6155712 Class 0.5  
Energy

Active

Accuracy  IEC 6205322 Class 0.5S  
Measured data  Received/Delivered/Net/Sum(total) energy  
Reactive^{5}

Accuracy  IEC 6205324 Class 1  
Measured data  Positive/Negative/Net/Sum(total) energy  
Apparent^{5}  Accuracy  IEC 6155712 Class 0.5  
Power factor  Power factor  
Demand  Current/Power  Demand, Peak demand, Predicted demand^{5,8}  
Power Quality  
Current harmonics

Harmonic order  Up to the 31st harmonic  
Measured data  THD, TDD, magnitude of each harmonic^{5}  
Current unbalance^{6}

Current unbalance according to the NEMA standard  
Zerosequence/negativesequence current unbalance 
Current Input  
Connector type  Throughhole type  
Wire size  Selectable according to hole dimensions  
Measurement  
Frequency measurement  50/60 Hz, 42– 69 Hz  
Sampling

FFT calculation(harmonic measurement)  64 samples/cycle  
RMS calculation(basic measurement)  32 samples/cycle  
Current

Model  Basic Current  Measuring Range (Accuracy guaranteed)  Min Meas.Value  Hole Dimensions  
Accura 23501PSCSH800A  800 A 
3.20 A

960 A

0.80 A  43.9 x 45.1 mm  
Accura 23501PSCSH630A  630 A 
2.52 A

756 A

0.63 A  33.5 x 41.2 mm  
Accura 23501PSCSH400A  400 A 
1.60 A

480 A

0.40 A  33.5 x 41.2 mm  
Accuracy  ±0.2 % Reading  
Measured data

RMS, Fundamental, THD, TDD, Harmonics^{1}, Residual current^{2}, Leakage current  
Vector diagram(Phasor)^{1}, Crest factor^{1}, Kfactor^{1}  
Unbalance according to symmetrical components(zero sequence or negative sequence)^{2}, the NEMA standard^{2}  
Leakage current

Leakage current input  Voltagetype external ZCT 200 mA/100 mV @1.2 k¥Ø Burden  
Accuracy^{3}/Measuring range  ±2 % Reading + 2 mA / Up to 1 A  
Power

Active 
Accuracy

IEC 6155712 Class 0.2  
Reactive  IEC 6155712 Class 1  
Apparent  IEC 6155712 Class 0.2  
Energy

Active

Accuracy  IEC 6205322 Class 0.2S  
Measured data  Received/Delivered/Net/Sum(total) energy  
Reactive^{1}

Accuracy  IEC 6205324 Class 1  
Measured data  Positive/Negative/Net/Sum(total) energy  
Apparent^{1}  Accuracy  IEC 6155712 Class 0.2  
Power factor  Power factor  
Demand  Current/Power  Demand, Peak demand, Predicted demand^{1,4}  
Power Quality  
Current harmonics

Harmonic order  Up to the 31st harmonic  
Measured data  THD, TDD, magnitude of each harmonic^{5}  
Current unbalance^{2}

Current unbalance according to the NEMA standard  
Zerosequence/negativesequence current unbalance 
Device Type  
Model  Weight  
Threephase

TM3P105  339 g  
TM3P90  202 g  
TM3P75L  183 g  
TM3P75  133 g  
TM3P105LB^{1}  361 g  
TM3P90LB^{1}  216 g  
TM3P75LLB^{1}  220 g  
TM3P75LB^{1}  160 g  
Singlephase

TM1P105  246g  
TM1P60  134g  
TM1P50L  121g  
TM1P50  88g  
TM1P105LB^{1}  246 g  
TM1P60LB^{1}  142 g  
TM3P50LLB^{1}  128 g  
TM3P50LB^{1}  96 g 
Environmental Conditions  
Operating temperature  20 to 70 ¡É(4 to 158 ¢µ) 
Safe operating temperature^{1}  20 to 65 ¡É(4 to 149 ¢µ) 
Storage temperature  40 to 85 ¡É(40 to 185 ¢µ) 
Operating humidity  5  95 %(noncondensing) 
Operating altitude  Up to 2,000 m 


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