Nameplate Connected Power per Phase and Total

Nameplate Connected Power per Phase calculations use exactly the same equations as Nameplate Connected Power, but with calculation for each phase and totals.

Nameplate Connected Electrical Power Phase1

• Nameplate Connected Electrical Power Phase1 has a unit value of kW.

• Nameplate Connected Electrical Power Phase1 is the total active power for all fed equipment tags associated with Phase 1.

• Nameplate Connected Electrical Power Phase1 is derived from Nameplate Electrical Power Per Phase.

The equation for Nameplate Connected Electrical Power Phase1 is:

Nameplate Connected Electrical Power Phase1 = Σ Nameplate Electrical Power Per Phase associated with Phase 1

Nameplate Connected Reactive Power Phase1

• Nameplate Connected Reactive Power Phase1 is the reactive power passing through a tag (Supply Tag) associated with Phase 1.

• Nameplate Connected Reactive Power Phase1 has a unit value of kVAr.

• Nameplate Connected Reactive Power Phase1 can have a positive or negative value. If positive, the associated power factor unit = LAG and if negative, the associated power factor unit = LEAD.

• Nameplate Connected Reactive Power Phase1 is the total reactive power for all fed equipment tags associated with Phase 1.

The equation for Nameplate Connected Reactive Power Phase1 attributes is:

Nameplate Connected Reactive Power Phase1 = Σ Nameplate Reactive Power Per Phase associated with Phase 1

Nameplate Connected Apparent Power Phase1

• Nameplate Connected Apparent Power Phase1 is calculated using Nameplate Connected Electrical Power Phase1 and Nameplate Connected Reactive Power Phase1.

• Nameplate Connected Power has a unit value of kVA.

The equation for Nameplate Connected Apparent Power Phase1 is:

Nameplate Connected Apparent Power Phase1 = √ (Nameplate Connected Electrical Power Phase1 + Nameplate Connected Apparent Power Phase12 )

Nameplate Connected Phase1 Power Factor

• Nameplate Connected Phase1 Power Factor is calculated using Nameplate Connected Reactive Power Phase1 and Nameplate Connected Apparent Power Phase1.

• Nameplate Connected Power Factor has a unit value between 0 and 1.

The equation for Nameplate Connected Phase1 Power Factor is:

Nameplate Connected Phase1 Power Factor = Nameplate Connected Electrical Power Phase1 / Nameplate Connected Apparent Power Phase1

Equations for Nameplate Connected Power Factor Unit attributes are:

If Nameplate Connected Reactive Power Phase1 value is positive then Nameplate Connected Phase1 Power Factor Unit = LAG

If Nameplate Connected Reactive Power Phase1 value is negative then Nameplate Connected Phase1 Power Factor Unit = LEAD

If Nameplate Connected Reactive Power Phase1 value = 0 then Nameplate Connected Phase1 Power Factor Unit = null

Nameplate Connected Full Load Current Phase1

• Nameplate Connected Full Load Current Phase1 is calculated using Connection Voltage data (Project Voltage for single phase) and Nameplate Connected Apparent Power Phase1.

• Nameplate Connected Full Load Current Phase1 has a unit value of Amp.

Equation for Nameplate Connected Full Load Current Phase1 attributes are:

Nameplate Connected Full Load Current Phase1 = (Nameplate Connected Apparent Power Phase1 * 1000) / Project Voltage (Phase voltage)

Nameplate Connected Electrical Power Phase2

• Nameplate Connected Electrical Power Phase2 has a unit value of kW.

• Nameplate Connected Electrical Power Phase2 is the total active power for all fed equipment tags associated with Phase 2.

• Nameplate Connected Electrical Power Phase2 is derived from Nameplate Electrical Power Per Phase.

The equation for Nameplate Connected Electrical Power Phase2 is:

Nameplate Connected Electrical Power Phase2 = Σ Nameplate Electrical Power Per Phase associated with Phase 2

Nameplate Connected Reactive Power Phase2

• Nameplate Connected Reactive Power Phase2 is the reactive power passing through a tag (Supply Tag) associated with Phase 2.

• Nameplate Connected Reactive Power Phase2 has a unit value of kVAr.

• Nameplate Connected Reactive Power Phase2 can have a positive or negative value. If positive, the associated power factor unit = LAG and if negative, the associated power factor unit = LEAD.

• Nameplate Connected Reactive Power Phase2 is the total reactive power for all fed equipment tags associated with Phase 2.

The equation for Nameplate Connected Reactive Power Phase2 attributes is:

Nameplate Connected Reactive Power Phase2 = Σ Nameplate Reactive Power Per Phase associated with Phase 2

Nameplate Connected Apparent Power Phase2

• Nameplate Connected Apparent Power Phase2 is calculated using Nameplate Connected Electrical Power Phase2 and Nameplate Connected Reactive Power Phase2.

• Nameplate Connected Power has a unit value of kVA.

The equation for Nameplate Connected Apparent Power Phase2 is:

Nameplate Connected Apparent Power Phase2 = √ (Nameplate Connected Electrical Power Phase22 + Nameplate Connected Apparent Power Phase22)

Nameplate Connected Phase2 Power Factor

• Nameplate Connected Phase2 Power Factor is calculated using Nameplate Connected Reactive Power Phase2 and Nameplate Connected Apparent Power Phase2.

• Nameplate Connected Power Factor has a unit value between 0 and 1.

The equation for Nameplate Connected Phase2 Power Factor is:

Nameplate Connected Phase2 Power Factor = Nameplate Connected Electrical Power Phase2 / Nameplate Connected Apparent Power Phase2

Equations for Nameplate Connected Power Factor Unit attributes are:

If Nameplate Connected Reactive Power Phase2 value is positive then Nameplate Connected Phase2 Power Factor Unit = LAG

If Nameplate Connected Reactive Power Phase2 value is negative then Nameplate Connected Phase2 Power Factor Unit = LEAD

If Nameplate Connected Reactive Power Phase2 value = 0 then Nameplate Connected Phase2 Power Factor Unit = null

Nameplate Connected Full Load Current Phase2

• Nameplate Connected Full Load Current Phase2 is calculated using Connection Voltage data (Project Voltage for single phase) and Nameplate Connected Apparent Power Phase2.

• Nameplate Connected Full Load Current Phase2 has a unit value of Amp.

Equation for Nameplate Connected Full Load Current Phase2 attributes are:

Nameplate Connected Full Load Current Phase2 = (Nameplate Connected Apparent Power Phase2 * 1000) / Project Voltage (Phase voltage)

Nameplate Connected Electrical Power Phase3

• Nameplate Connected Electrical Power Phase3 has a unit value of kW.

• Nameplate Connected Electrical Power Phase3 is the total active power for all fed equipment tags associated with Phase 3.

• Nameplate Connected Electrical Power Phase3 is derived from Nameplate Electrical Power Per Phase.

The equation for Nameplate Connected Electrical Power Phase3 is:

Nameplate Connected Electrical Power Phase3 = Σ Nameplate Electrical Power Per Phase associated with Phase 3

Nameplate Connected Reactive Power Phase3

• Nameplate Connected Reactive Power Phase3 is the reactive power passing through a tag (Supply Tag) associated with Phase 3.

• Nameplate Connected Reactive Power Phase3 has a unit value of kVAr.

• Nameplate Connected Reactive Power Phase3 can have a positive or negative value. If positive, the associated power factor unit = LAG and if negative, the associated power factor unit = LEAD.

• Nameplate Connected Reactive Power Phase3 is the total reactive power for all fed equipment tags associated with Phase 3.

The equation for Nameplate Connected Reactive Power Phase3 attributes is:

Nameplate Connected Reactive Power Phase3 = Σ Nameplate Reactive Power Per Phase associated with Phase 3

Nameplate Connected Apparent Power Phase3

• Nameplate Connected Apparent Power Phase3 is calculated using Nameplate Connected Electrical Power Phase3 and Nameplate Connected Reactive Power Phase3.

• Nameplate Connected Power has a unit value of kVA.

The equation for Nameplate Connected Apparent Power Phase3 is:

Nameplate Connected Apparent Power Phase3 = √ (Nameplate Connected Electrical Power Phase32 + Nameplate Connected Apparent Power Phase32)

Nameplate Connected Phase3 Power Factor

• Nameplate Connected Phase3 Power Factor is calculated using Nameplate Connected Reactive Power Phase3 and Nameplate Connected Apparent Power Phase3.

• Nameplate Connected Power Factor has a unit value between 0 and 1.

The equation for Nameplate Connected Phase3 Power Factor is:

Nameplate Connected Phase3 Power Factor = Nameplate Connected Electrical Power Phase3 / Nameplate Connected Apparent Power Phase3

Equations for Nameplate Connected Power Factor Unit attributes are:

If Nameplate Connected Reactive Power Phase3 value is positive then Nameplate Connected Phase2 Power Factor Unit = LAG

If Nameplate Connected Reactive Power Phase3 value is negative then Nameplate Connected Phase2 Power Factor Unit = LEAD

If Nameplate Connected Reactive Power Phase3 value = 0 then Nameplate Connected Phase2 Power Factor Unit = null

Nameplate Connected Full Load Current Phase3

• Nameplate Connected Full Load Current Phase3 is calculated using Connection Voltage data (Project Voltage for single phase) and Nameplate Connected Apparent Power Phase3.

• Nameplate Connected Full Load Current Phase3 has a unit value of Amp.

Equation for Nameplate Connected Full Load Current Phase3 attributes are:

Nameplate Connected Full Load Current Phase3 = (Nameplate Connected Apparent Power Phase3 * 1000) / Project Voltage (Phase voltage)

Note:
Nameplate Connected Electrical Power 3Phase, Nameplate Connected Reactive Power 3Phase, Nameplate Connected Apparent Power 3Phase, Nameplate Connected 3Phase Power Factor, Nameplate Connected 3Phase Power Factor Unit, Nameplate Connected Full Load Current 3Phase will have the same values as Nameplate Connected Power, Nameplate Connected Reactive Power, Nameplate Connected Apparent Power, Nameplate Connected Power Factor, Nameplate Connected Power Factor Unit, Nameplate Connected Current as the fed tags are identical and the calculations are for all 3 phases.