1. three phase circuits.pdf
TRANSCRIPT
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Advanced Electrical Engineering
Michael E. Auer
Three Phase Circuits
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
AEE ContentAdvanced Circuit Analysis
• Basic Concepts• Three-Phase Circuits• Transforms• Power Conversion and Management
Field Theory• Waves and Vector Fields• Transmission Line Theory• Electrostatics• Magnetostatics
Applications• Magnetic Field Applications• Basics of Electrical Machines
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Chapter Content
• Introduction
• Balanced Three-Phase Voltages
• Balanced Three-Phase Connections
• Power in Balanced Systems
• Unbalanced Three-Phase Systems
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Chapter Content
• Introduction• Balanced Three-Phase Voltages
• Balanced Three-Phase Connections
• Power in Balanced Systems
• Unbalanced Three-Phase Systems
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Single Phase Systems
two-wire type three-wire type
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Two-Phase Three-Wire System
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
It is a system produced by a generator consisting of three sources having the same amplitude and frequency but out of phase with each other by 120°.
Three sources with 120° out
of phase Four-wire system
What is a Three-Phase Circuit?
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Advantages:
1. Most of the electric power is generated and distributed in three-phase. Operating frequency 50Hz (Europe) or 60Hz (US).
2. The instantaneous power in a three-phase system can be constant (not pulsating!).
3. For the same amount of power, the three-phase system is more economical that the single-phase.
4. In fact, the amount of wire required for a three-phase system is less than that required for an equivalent single-phase system.
Reasons for the Use of Three-Phase Circuits
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Chapter Content
• Introduction
• Balanced Three-Phase Voltages• Balanced Three-Phase Connections
• Power in Balanced Systems
• Unbalanced Three-Phase Systems
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
A three-phase generator consists of a rotating magnet (rotor) surrounded by a stationary winding (stator).
Three-phase generator Generated voltages
Balanced Three-Phase Voltages (1)
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Two possible configurations:
Balanced Three-Phase Voltages (2)
Y-connected ∆-connected
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Phase Voltages and ist Sequences
Positive sequence (abc)
Negative sequence (acb)
cnbnan
cnbnan
VVV 0VVV
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Phase Voltage Sequences ExampleDetermine the phase sequence of the set of voltages.
)110cos(200)230cos(200
)10cos(200
tvtvtv
cn
bn
an
Solution:
The voltages can be expressed in phasor form as
We notice that Van leads Vcn by 120° and Vcn in turn leads Vbn by 120°.
Hence, we have an acb sequence.
V 110200VV 230200V
V 10200V
cn
bn
an
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced phase voltages are equal in magnitude and are out of phase with each other by 120°.
The phase sequence is the time order in which the voltages pass through their respective maximum values.
A balanced load is one in which the phase impedances are equal in magnitude and in phase
Properties of Three-Phase Systems
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Possible Load Configurations
Four possible connections between source and load:
1. Y-Y connection (Y-connected source with a Y-connected load)
2. Y-∆ connection (Y-connected source with a ∆-connected load)
3. ∆-∆ connection
4. ∆-Y connection
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Chapter Content
• Introduction
• Balanced Three-Phase Voltages
• Balanced Three-Phase Connections• Power in Balanced Systems
• Unbalanced Three-Phase Systems
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced Y–Y System (1)
A balanced Y-Y system is a three-phase system with a balanced y-connected source and a balanced y-connected load.
LlSYwhere ZZZZ
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced Y–Y System (2)
cabcabL
cnbnanp
pL
V
V
VV
VVV
VVV
where, 3
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced Y–Y System Example
Calculate the line currents in the three-wire Y-Y system shown below:
A 2.9881.6IA 8.14181.6I
A 8.2181.6I:Answer
c
b
a
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced Y–Δ System (1)
A balanced Y-∆ system is a three-phase system with a balanced y-connected source and a balanced ∆-connected load.
CABCABp
cbaL
pL
I
I
II
III
III
where, 3
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced Y–Δ System (2)
Transformation of the ∆-connected load to an equivalent Y-connectedload
Single Phase Equivalent
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Balanced Y–Δ System ExampleA balanced abc-sequence Y-connected source with is
connected to a Δ-connected load (8+j4) per phase. Calculate the phase and line currents.
Solution
Using single-phase analysis,
Other line currents are obtained using the abc phase sequence
10100Van
A 57.1654.3357.26981.2
101003/Z
VI an
a
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
BalancedΔ–Δ System
A balanced ∆-∆ system is a three-phase system with a balanced ∆-connected source and a balanced ∆-connected load.
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
BalancedΔ–Δ System ExampleA balanced ∆-connected load having an impedance 20-j15 is connected to a ∆-connected positive-sequence generator having . Calculate the phase currents of the load and the line currents.
Answer:The phase currents
The line currents
V 0330Vab
A 87.1562.13IA; 13.812.13IA; 87.362.13I CABCAB
A 87.12686.22IA; 13.11386.22IA; 87.686.22I cba
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
BalancedΔ–Y System (1)
A balanced ∆-Y system is a three-phase system with a balanced Y-connected source and a balanced y-connected load.
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
BalancedΔ–Y System (2)
Transformation of the ∆-connected source to a Y-connected one.
903
V1503
V
303
V
Pcn
Pbn
Pan
VV
V Y
P
a Z
V
I
30
3
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Chapter Content
• Introduction
• Balanced Three-Phase Voltages
• Balanced Three-Phase Connections
• Power in Balanced Systems• Unbalanced Three-Phase Systems
![Page 28: 1. Three Phase Circuits.pdf](https://reader031.vdocuments.site/reader031/viewer/2022012319/577cc30e1a28aba7119505e1/html5/thumbnails/28.jpg)
Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Power in Balanced Systems
)120(cos2
)120(cos2cos2
tVv
tVvtVv
PCN
PBNPAN
For a Y-connected load the phase voltages are:
For: ZYZThe phase currents lag behind their corresponding phase voltages by θ
)120(cos2
)120(cos2)(cos2
tIi
tIitIi
Pc
PbPa
)(cos3 tfIVpppp PPcba
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Comparison of Power Loss
phase-single ,2' 2
2
L
Lloss V
PRP phase- three,'' 2
2
L
Lloss V
PRP
If same power loss is tolerated in both system, three-phase system use only 75% of materials of a single-phase system!
Single Phase System Three Phase System
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Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
Chapter Content
• Introduction
• Balanced Three-Phase Voltages
• Balanced Three-Phase Connections
• Power in Balanced Systems
• Unbalanced Three-Phase Systems
![Page 31: 1. Three Phase Circuits.pdf](https://reader031.vdocuments.site/reader031/viewer/2022012319/577cc30e1a28aba7119505e1/html5/thumbnails/31.jpg)
Advanced Electrical Engineering
Michael E.Auer 08.05.2012 AEE0x
An unbalanced system is due to unbalanced voltage sources or an unbalanced load.
)III(I
,ZVI ,
ZVI ,
ZVI
cban
C
CNc
B
BNb
A
ANa
To calculate power in an unbalanced three-phase system requires that we find the power in each phase.
The total power is not simply three times the power in one phase but the sum of the powers in the three phases.
Unbalanced Three-Phase Systems