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Formulas : 27 Size : 407 kb

Contents of the Open Conductor Fault PDF

List of 46 Open Conductor Fault Formulas

A-Phase Current (Two Conductor Open)

A-Phase EMF using Positive Sequence Current (Two Conductor Open)

A-Phase EMF using Positive Sequence Voltage (One Conductor Open)

A-Phase EMF using Positive Sequence Voltage (Two Conductor Open)

A-Phase EMF using Zero Sequence Impedance (One Conductor Open)

A-Phase Voltage using Sequence Voltages (Two Conductor Open)

B-Phase Current (One Conductor Open)

C-Phase Current (One Conductor Open)

Negative Sequence Current using A-Phase Current(Two Conductor Open)

Negative Sequence Current using Negative Sequence Impedance (One Conductor Open)

Negative Sequence Current using Negative Sequence Voltage (Two Conductor Open)

Negative Sequence Potential Difference (Two Conductor Open)

Negative Sequence Potential Difference using A-Phase Current (One Conductor Open)

Negative Sequence Voltage using A-Phase Current(Two Conductor Open)

Negative Sequence Voltage using Negative Sequence Current (Two Conductor Open)

Negative Sequence Voltage using Negative Sequence Impedance (One Conductor Open)

Positive Sequence Current (Two Conductor Open)

Positive Sequence Current using A-Phase EMF (Two Conductor Open)

Positive Sequence Current using Positive Sequence Voltage (One Conductor Open)

Positive Sequence Current using Positive Sequence Voltage (Two Conductor Open)

Positive Sequence Current using Zero Sequence Impedance (One Conductor Open)

Positive Sequence Impedance using A-Phase EMF (Two Conductor Open)

Positive Sequence Impedance using Positive Sequence Voltage (One Conductor Open)

Positive Sequence Impedance using Positive Sequence Voltage (Two Conductor Open)

Positive Sequence Potential Difference (Two Conductor Open)

Positive Sequence Potential Difference using A-Phase Potential Difference (One Conductor Open)

Positive Sequence Voltage using Positive Sequence Current (Two Conductor Open)

Positive Sequence Voltage using Positive Sequence Impedance (One Conductor Open)

Potential Difference between A-Phase (Three Conductor Open)

Potential Difference between A-Phase and Neutral (One Conductor Open)

Potential Difference between A-Phase using Zero Sequence Potential Difference (One Conductor Open)

Potential Difference between B-Phase (Three Conductor Open)

Potential Difference between B-Phase (Two Conductor Open)

Potential Difference between C-Phase (Three Conductor Open)

Potential Difference between C-Phase (Two Conductor Open)

Zero Sequence Current (One Conductor Open)

Zero Sequence Current using A-Phase Current(Two Conductor Open)

Zero Sequence Current using Zero Sequence Voltage (One Conductor Open)

Zero Sequence Current using Zero Sequence Voltage (Two Conductor Open)

Zero Sequence Impedance using Zero Sequence Voltage (One Conductor Open)

Zero Sequence Impedance using Zero Sequence Voltage (Two Conductor Open)

Zero Sequence Potential Difference (Two Conductor Open)

Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open)

Zero Sequence Potential Differences (Three Conductor Open)

Zero Sequence Voltage using Zero Sequence Current (Two Conductor Open)

Zero Sequence Voltage using Zero Sequence Impedance (One Conductor Open)

Variables used in Open Conductor Fault PDF

E_a(oco) A Phase EMF in OCO (Volt)
E_a(tco) A Phase EMF in TCO (Volt)
I_0(oco) Zero Sequence Current in OCO (Ampere)
I_0(tco) Zero Sequence Current in TCO (Ampere)
I_1(oco) Positive Sequence Current in OCO (Ampere)
I_1(tco) Positive Sequence Current in TCO (Ampere)
I_2(oco) Negative Sequence Current in OCO (Ampere)
I_2(tco) Negative Sequence Current in TCO (Ampere)
I_a(oco) A-Phase Current in OCO (Ampere)
I_a(tco) A-Phase Current in TCO (Ampere)
I_b(oco) B Phase Current in OCO (Ampere)
I_c(oco) C Phase Current in OCO (Ampere)
V_0(oco) Zero Sequence Voltage in OCO (Volt)
V_0(tco) Zero Sequence Voltage in TCO (Volt)
V_1(oco) Positive Sequence Voltage in OCO (Volt)
V_1(tco) Positive Sequence Voltage in TCO (Volt)
V_2(oco) Negative Sequence Voltage in OCO (Volt)
V_2(tco) Negative Sequence Voltage in TCO (Volt)
V_a(oco) A Phase Voltage in OCO (Volt)
V_a(tco) A Phase Voltage in TCO (Volt)
Vaa'_(oco) Potential Difference Between A Phase in OCO (Volt)
Vaa'_(thco) Potential Difference Between A Phase in THCO (Volt)
Vaa'_0(oco) Zero Sequence Potential Difference in OCO (Volt)
Vaa'_0(tco) Zero Sequence Potential Difference in TCO (Volt)
Vaa'_0(thco) Zero Sequence Potential Difference in THCO (Volt)
Vaa'_1(oco) Positive Sequence Potential Difference in OCO (Volt)
Vaa'_1(tco) Positive Sequence Potential Difference in TCO (Volt)
Vaa'_2(oco) Negative Sequence Potential Difference in OCO (Volt)
Vaa'_2(tco) Negative Sequence Potential Difference in TCO (Volt)
Vbb'_(tco) Potential Difference between B Phase in TCO (Volt)
Vbb'_(thco) Potential Difference between B Phase in THCO (Volt)
Vcc'_(tco) Potential Difference between C Phase in TCO (Volt)
Vcc'_(thco) Potential Difference between C Phase in THCO (Volt)
Z_0(oco) Zero Sequence Impedance in OCO (Ohm)
Z_0(tco) Zero Sequence Impedance in TCO (Ohm)
Z_1(oco) Positive Sequence Impedance in OCO (Ohm)
Z_1(tco) Positive Sequence Impedance in TCO (Ohm)
Z_2(oco) Negative Sequence Impedance in OCO (Ohm)
Z_2(tco) Negative Sequence Impedance in TCO (Ohm)

Constants, Functions and Measurements used in Open Conductor Fault PDF

Measurement: Electric Current in Ampere (A)
Electric Current Unit Conversion
Measurement: Electric Resistance in Ohm (Ω)
Electric Resistance Unit Conversion
Measurement: Electric Potential in Volt (V)
Electric Potential Unit Conversion

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