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EPM 6010 MULTI-FUNCTION POWER METERING SYSTEM – USER GUIDE

CHAPTER 1: THREE-PHASE POWER MEASUREMENT

1.3

Reactive Energy and Power Factor

1.3.1

Real, Reactive, and Apparent Power

The real power and energy measurements discussed in the previous section relate to the 
quantities that are most used in electrical systems. But it is often not sufficient to only 
measure real power and energy. Reactive power is a critical component of the total power 
picture because almost all real-life applications have an impact on reactive power. 
Reactive power and power factor concepts relate to both load and generation 
applications. However, this discussion will be limited to analysis of reactive power and 
power factor as they relate to loads. To simplify the discussion, generation will not be 
considered.

Real power (and energy) is the component of power that is the combination of the voltage 
and the value of corresponding current that is directly in phase with the voltage. However, 
in actual practice the total current is almost never in phase with the voltage. Since the 
current is not in phase with the voltage, it is necessary to consider both the inphase 
component and the component that is at quadrature (angularly rotated 90o or 
perpendicular) to the voltage. Figure 1-9 shows a single-phase voltage and current and 
breaks the current into its in-phase and quadrature components.

FIGURE 1–9: Voltage and Complex Current

The voltage (V) and the total current (I) can be combined to calculate the apparent power 
or VA. The voltage and the in-phase current (IR) are combined to produce the real power or 
watts. The voltage and the quadrature current (IX) are combined to calculate the reactive 
power. 

The quadrature current may be lagging the voltage (as shown in Figure 1-9) or it may lead 
the voltage. When the quadrature current lags the voltage the load is requiring both real 
power (watts) and reactive power (VARs). When the quadrature current leads the voltage 
the load is requiring real power (watts) but is delivering reactive power (VARs) back into the 
system; that is VARs are flowing in the opposite direction of the real power flow.

Reactive power (VARs) is required in all power systems. Any equipment that uses 
magnetization to operate requires VARs. Usually the magnitude of VARs is relatively low 
compared to the real power quantities. Utilities have an interest in maintaining VAR 
requirements at the customer to a low value in order to maximize the return on plant 
invested to deliver energy. When lines are carrying VARs, they cannot carry as many watts. 

V

I

I

R

θ

I

X

Summary of Contents for Multilin EPM 6010

Page 1: ...ion 1 17 Manual P N 1601 0038 A1 Manual Order Code GEK 113637 Copyright 2012 GE Digital Energy GE Digital Energy 215 Anderson Avenue Markham Ontario Canada L6E 1B3 Tel 905 294 6222 Fax 905 201 2098 In...

Page 2: ...cuits and sources of electric power Failure to shut equipment off prior to removing the power connections could expose you to dangerous voltages causing injury or death All recommended equipment that...

Page 3: ...ous situation which if not avoided could result in minor or moderate injury Note Indicates significant issues and practices that are not related to personal injury NOTE Indicates general information a...

Page 4: ......

Page 5: ...2 6 3 MECHANICAL INSTALLATION INTRODUCTION 3 1 ANSI INSTALLATION STEPS 3 3 DIN INSTALLATION STEPS 3 4 EPM6010 TRANSDUCER INSTALLATION 3 5 4 ELECTRICAL INSTALLATION CONSIDERATIONS WHEN INSTALLING METE...

Page 6: ...METER S WEB INTERFACE 6 10 HOME WEB PAGE 6 10 BACNET OBJECTS STATUS WEB PAGE 6 11 CHANGE PASSWORD WEB PAGE 6 12 STATISTICS WEB PAGE 6 13 RESET CONFIGURATION WEB PAGE 6 14 USING THE EPM6010 IN A BACNET...

Page 7: ...DE TOC 3 APPENDIX C DNP MAPPING FOR EPM6010 INTRODUCTION C 1 DNP MAPPING DNP 1 TO DNP 2 C 2 APPENDIX D DNP 3 0 PROTOCOL ASSIGNMENTS FOR EPM6010 DNP IMPLEMENTATION D 1 DATA LINK LAYER D 2 TRANSPORT LAY...

Page 8: ...TOC 4 EPM 6010 MULTI FUNCTION POWER METERING SYSTEM USER GUIDE...

Page 9: ...a wye connection or a delta connection Each connection has several different manifestations in actual use When attempting to determine the type of connection in use it is a good practice to follow th...

Page 10: ...t from the ideal 120o separation Three phase voltages and currents are usually represented with a phasor diagram A phasor diagram for the typical connected voltages and currents is shown below FIGURE...

Page 11: ...ntains four wires if you trace the circuit back to its source usually a transformer In this type of connection the phase to ground voltage will be the phase to ground voltage indicated in the table ab...

Page 12: ...er of the delta is grounded This means the phase to ground voltage will be zero for one phase and will be full phase to phase voltage for the other two phases This is done for protective purposes FIGU...

Page 13: ...here is no current coil Three phase power measurement is accomplished by measuring the three individual phases and adding them together to obtain the total three phase value In older analog meters thi...

Page 14: ...rent simultaneously and calculate the individual phase and three phase power values The advantage of simultaneous sampling is the reduction of error introduced due to the difference in time when the s...

Page 15: ...N POWER METERING SYSTEM USER GUIDE 1 7 power flow in three wires This will require three voltage coils and three current coils a three element meter Similar figures and conclusions could be reached fo...

Page 16: ...based in part on the amount of energy used Typically electrical energy is measured in units of kilowatt hours kWh A kilowatt hour represents a constant load of one thousand watts one kilowatt for one...

Page 17: ...y to accumulate the energy readings as illustrated in Figure 1 7 above and adjust the energy reading to an hourly value that constitutes the demand In the example the accumulated energy is 14 92 kWh B...

Page 18: ...mand it is necessary to accumulate the energy readings as illustrated in the Power Use Over Time figure above and adjust the energy reading to an hourly value that constitutes the demand In the exampl...

Page 19: ...GUIDE 1 11 FIGURE 1 8 Energy Use and Demand Intervals As seen in this example it is important to recognize the relationships between power energy and demand in order to effectively control loads or t...

Page 20: ...nt that is at quadrature angularly rotated 90o or perpendicular to the voltage Figure 1 9 shows a single phase voltage and current and breaks the current into its in phase and quadrature components FI...

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