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Transcript
Three-Phase circuits
Prof. Siripong Potisuk
Faraday’s Law
“The EMF induced in a circuit is directly proportional
to the time rate of change of magnetic flux through
the circuit.”
The EMF can be produced by changing B (induced
EMF) or by changing the area, e.g., by moving the
wire (motional EMF).
 It is the relative movement between the coil and
the magnet that matters
Magnet
Magnetic
Flux lines
DC source
brush
Coil
Slip ring
Conductor
loop
¾ Cycle
¾ Cycle
½ Cycle
½ Cycle
¼ Cycle
¼ Cycle
Start
¾ Cycle
½ Cycle
¼ Cycle
Start
Three-phase Voltage Sources
Y-connected Source
D-connected Source
Balanced Y-connected Voltage Source
• Balanced phase voltages are equal in magnitude and are out of
phase with one another by 120 degrees.
• Phase voltages sum up to zero.
• Two possible combinations:
abc or (+) sequence
acb or () sequence
Balanced Y-connected Voltage Source
• Balanced line voltages are equal in magnitude and
are out of phase with one another by 120 degrees.
• Line voltages sum up to zero.
• The magnitude of line voltages is 1.732 times the
magnitude of the phase voltages
• Line Voltages lead their corresponding phase
voltages by 30 degrees
Balanced Three-phase Load Configurations
A balanced load is one in which the phase impedances are equal
in magnitude and in phase.
Y-connected Load
D-connected Load
Balanced Y-Y Connection
Z Y = Z S + Zl + Z L
Example Calculate the line currents in the three-wire Y-Y system
as shown.
Balanced Y-D Connection
Example A balanced abc-sequence Y-connected
source with Van  10010  V is connected to a Dconnected balanced load of 8+j4  per phase.
Calculate the phase and the line currents.
Balanced D-D Connection
Example A balanced D-connected load having an
impedance of 20-j15  is connected to
a D-connected, positive sequence generator
having Vab  3300 V. Calculate the phase
currents of the load and the line currents.
Balanced D-Y Connection
Example A balanced Y-connected load with a
phase impedance of 40+j 25  is connected to
a balanced, positive sequence D-connected
source with a line voltage of 210 V. Calculate
the phase currents. Use Vab as reference.