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Fault Analysis 
Symmetrical Components 
For an unbalanced 3 – phase system, the analysis is done better by means of symmetrical 
components. 
            
a0
V ? Zero sequence components 
            
a1
V ? Positive sequence components  
            
a2
V ? Negative sequence components 
             
a0 a
2
a1 b
2
a2 c
V 1 1 1 V
1
V 1 V
3
V 1 V
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ?
??
          ;    Where 
0
j120
e ?? 
             
? ? ? ?
1
sp
V A V
?
?? ?
??
 
            
p
V = phase voltage 
             
s
V = Symmetrical component 
            
2
2
1 1 1
A1
1
??
??
? ? ?
??
??
??
??
 
            Power in terms of symmetrical components 
           
a1 a1 a2 a2 a3 a0
P 3 V I V I V I
? ? ?
?? ? ? ?
??
 
     Remember, same transformation exist for current also. 
Sequence Network 
Alternators 
? Positive Sequence Network 
 
1
Z positive sequence impedance  
"
1d
Z jX ? 
 
Page 2


 
 
 
 
 
 
  
                   
 
Fault Analysis 
Symmetrical Components 
For an unbalanced 3 – phase system, the analysis is done better by means of symmetrical 
components. 
            
a0
V ? Zero sequence components 
            
a1
V ? Positive sequence components  
            
a2
V ? Negative sequence components 
             
a0 a
2
a1 b
2
a2 c
V 1 1 1 V
1
V 1 V
3
V 1 V
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ?
??
          ;    Where 
0
j120
e ?? 
             
? ? ? ?
1
sp
V A V
?
?? ?
??
 
            
p
V = phase voltage 
             
s
V = Symmetrical component 
            
2
2
1 1 1
A1
1
??
??
? ? ?
??
??
??
??
 
            Power in terms of symmetrical components 
           
a1 a1 a2 a2 a3 a0
P 3 V I V I V I
? ? ?
?? ? ? ?
??
 
     Remember, same transformation exist for current also. 
Sequence Network 
Alternators 
? Positive Sequence Network 
 
1
Z positive sequence impedance  
"
1d
Z jX ? 
 
 
 
 
 
 
 
? Negative Sequence Network 
 
a2 a2 2
V I Z ?? 
2
Z : Negative sequence impedance 
dq
2
X " X "
Zj
2
?
??
?
??
??
 
 
 
? Zero Sequence Network 
 
? ?
a0 a0 0 n
V I Z 3Z ? ? ? 
0
Z = Zero sequence impedance 
n
Z =Neutral impedance ( ? in case of delta) 
 
0l
Z jX ?
 
 
l
X = leakage reactance 
 
Transformers 
? Positive Sequence Network 
              
1
Z = Positive sequence impedance 
              
1l
Z jX ? 
? Negative Sequence Network 
              
2
Z = Negative sequence impedance 
             
2l
Z jX ? 
? Zero sequence network 
            Depending upon scheme of connection, we close series or shunt connection & method     
of grounding. 
              
 
 
 
 
Page 3


 
 
 
 
 
 
  
                   
 
Fault Analysis 
Symmetrical Components 
For an unbalanced 3 – phase system, the analysis is done better by means of symmetrical 
components. 
            
a0
V ? Zero sequence components 
            
a1
V ? Positive sequence components  
            
a2
V ? Negative sequence components 
             
a0 a
2
a1 b
2
a2 c
V 1 1 1 V
1
V 1 V
3
V 1 V
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ?
??
          ;    Where 
0
j120
e ?? 
             
? ? ? ?
1
sp
V A V
?
?? ?
??
 
            
p
V = phase voltage 
             
s
V = Symmetrical component 
            
2
2
1 1 1
A1
1
??
??
? ? ?
??
??
??
??
 
            Power in terms of symmetrical components 
           
a1 a1 a2 a2 a3 a0
P 3 V I V I V I
? ? ?
?? ? ? ?
??
 
     Remember, same transformation exist for current also. 
Sequence Network 
Alternators 
? Positive Sequence Network 
 
1
Z positive sequence impedance  
"
1d
Z jX ? 
 
 
 
 
 
 
 
? Negative Sequence Network 
 
a2 a2 2
V I Z ?? 
2
Z : Negative sequence impedance 
dq
2
X " X "
Zj
2
?
??
?
??
??
 
 
 
? Zero Sequence Network 
 
? ?
a0 a0 0 n
V I Z 3Z ? ? ? 
0
Z = Zero sequence impedance 
n
Z =Neutral impedance ( ? in case of delta) 
 
0l
Z jX ?
 
 
l
X = leakage reactance 
 
Transformers 
? Positive Sequence Network 
              
1
Z = Positive sequence impedance 
              
1l
Z jX ? 
? Negative Sequence Network 
              
2
Z = Negative sequence impedance 
             
2l
Z jX ? 
? Zero sequence network 
            Depending upon scheme of connection, we close series or shunt connection & method     
of grounding. 
              
 
 
 
 
 
 
 
 
 
Shunt connection are closed for delta connection & series connection are closed for star      
connection with grounded neutral. If primary & secondary are inter changed then circuit 
becomes mirror image. 
? Case – 1 
                                                                     If neutral is grounded through an impedance 
n
Z 
                                                                    
0 T0 n
Z Z 3Z ?? 
 
 
? Case – 2 
 
 
 
 
? Case – 3 
         
 
 
 
 
? Case – 4  
 
 
 
 
 
 
Page 4


 
 
 
 
 
 
  
                   
 
Fault Analysis 
Symmetrical Components 
For an unbalanced 3 – phase system, the analysis is done better by means of symmetrical 
components. 
            
a0
V ? Zero sequence components 
            
a1
V ? Positive sequence components  
            
a2
V ? Negative sequence components 
             
a0 a
2
a1 b
2
a2 c
V 1 1 1 V
1
V 1 V
3
V 1 V
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ?
??
          ;    Where 
0
j120
e ?? 
             
? ? ? ?
1
sp
V A V
?
?? ?
??
 
            
p
V = phase voltage 
             
s
V = Symmetrical component 
            
2
2
1 1 1
A1
1
??
??
? ? ?
??
??
??
??
 
            Power in terms of symmetrical components 
           
a1 a1 a2 a2 a3 a0
P 3 V I V I V I
? ? ?
?? ? ? ?
??
 
     Remember, same transformation exist for current also. 
Sequence Network 
Alternators 
? Positive Sequence Network 
 
1
Z positive sequence impedance  
"
1d
Z jX ? 
 
 
 
 
 
 
 
? Negative Sequence Network 
 
a2 a2 2
V I Z ?? 
2
Z : Negative sequence impedance 
dq
2
X " X "
Zj
2
?
??
?
??
??
 
 
 
? Zero Sequence Network 
 
? ?
a0 a0 0 n
V I Z 3Z ? ? ? 
0
Z = Zero sequence impedance 
n
Z =Neutral impedance ( ? in case of delta) 
 
0l
Z jX ?
 
 
l
X = leakage reactance 
 
Transformers 
? Positive Sequence Network 
              
1
Z = Positive sequence impedance 
              
1l
Z jX ? 
? Negative Sequence Network 
              
2
Z = Negative sequence impedance 
             
2l
Z jX ? 
? Zero sequence network 
            Depending upon scheme of connection, we close series or shunt connection & method     
of grounding. 
              
 
 
 
 
 
 
 
 
 
Shunt connection are closed for delta connection & series connection are closed for star      
connection with grounded neutral. If primary & secondary are inter changed then circuit 
becomes mirror image. 
? Case – 1 
                                                                     If neutral is grounded through an impedance 
n
Z 
                                                                    
0 T0 n
Z Z 3Z ?? 
 
 
? Case – 2 
 
 
 
 
? Case – 3 
         
 
 
 
 
? Case – 4  
 
 
 
 
 
 
 
 
 
 
 
? Case – 5  
 
 
 
 
Transmission Lines 
? Positive Sequence Network 
 
 
 
 
 
 
? Negative Sequence Network 
                
 
 
? Zero Sequence Network 
              
1 2 s m
Z Z Z Z ? ? ? 
              
0 s m
Z Z 2Z ?? 
              
s
Z = Self impedance 
              
m
Z = mutual impedance 
         Remembers, all sequence networks are always drawn in per unit & never in actual values. 
Fault Analysis 
The following short circuit faults are considered 
1. LG (Single Line to ground fault) 
2. LL (Line to line fault) 
3. LLG (Line to Line to Ground fault) 
4. 3-phase short circuit fault. 
Page 5


 
 
 
 
 
 
  
                   
 
Fault Analysis 
Symmetrical Components 
For an unbalanced 3 – phase system, the analysis is done better by means of symmetrical 
components. 
            
a0
V ? Zero sequence components 
            
a1
V ? Positive sequence components  
            
a2
V ? Negative sequence components 
             
a0 a
2
a1 b
2
a2 c
V 1 1 1 V
1
V 1 V
3
V 1 V
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ? ? ? ?
? ? ?
??
          ;    Where 
0
j120
e ?? 
             
? ? ? ?
1
sp
V A V
?
?? ?
??
 
            
p
V = phase voltage 
             
s
V = Symmetrical component 
            
2
2
1 1 1
A1
1
??
??
? ? ?
??
??
??
??
 
            Power in terms of symmetrical components 
           
a1 a1 a2 a2 a3 a0
P 3 V I V I V I
? ? ?
?? ? ? ?
??
 
     Remember, same transformation exist for current also. 
Sequence Network 
Alternators 
? Positive Sequence Network 
 
1
Z positive sequence impedance  
"
1d
Z jX ? 
 
 
 
 
 
 
 
? Negative Sequence Network 
 
a2 a2 2
V I Z ?? 
2
Z : Negative sequence impedance 
dq
2
X " X "
Zj
2
?
??
?
??
??
 
 
 
? Zero Sequence Network 
 
? ?
a0 a0 0 n
V I Z 3Z ? ? ? 
0
Z = Zero sequence impedance 
n
Z =Neutral impedance ( ? in case of delta) 
 
0l
Z jX ?
 
 
l
X = leakage reactance 
 
Transformers 
? Positive Sequence Network 
              
1
Z = Positive sequence impedance 
              
1l
Z jX ? 
? Negative Sequence Network 
              
2
Z = Negative sequence impedance 
             
2l
Z jX ? 
? Zero sequence network 
            Depending upon scheme of connection, we close series or shunt connection & method     
of grounding. 
              
 
 
 
 
 
 
 
 
 
Shunt connection are closed for delta connection & series connection are closed for star      
connection with grounded neutral. If primary & secondary are inter changed then circuit 
becomes mirror image. 
? Case – 1 
                                                                     If neutral is grounded through an impedance 
n
Z 
                                                                    
0 T0 n
Z Z 3Z ?? 
 
 
? Case – 2 
 
 
 
 
? Case – 3 
         
 
 
 
 
? Case – 4  
 
 
 
 
 
 
 
 
 
 
 
? Case – 5  
 
 
 
 
Transmission Lines 
? Positive Sequence Network 
 
 
 
 
 
 
? Negative Sequence Network 
                
 
 
? Zero Sequence Network 
              
1 2 s m
Z Z Z Z ? ? ? 
              
0 s m
Z Z 2Z ?? 
              
s
Z = Self impedance 
              
m
Z = mutual impedance 
         Remembers, all sequence networks are always drawn in per unit & never in actual values. 
Fault Analysis 
The following short circuit faults are considered 
1. LG (Single Line to ground fault) 
2. LL (Line to line fault) 
3. LLG (Line to Line to Ground fault) 
4. 3-phase short circuit fault. 
 
 
 
 
 
3-phase short circuit fault comes under the category of symmetrical SC fault whereas other 3 
faults are called as unsymmetrical SC fault. 
Order of severity 
      LG < LL < LLG < 3 - ? SC 
But if faults occur at terminal of alternator then LG fault is most severe. 
Occurrence of SC fault 
        LG > LL > LLG > 3 - ? SC 
Transient on a Transmission line 
Equivalent Circuit 
           ? ?
t ss
i t i i ?? 
           
? ? ? ?
Rt
mm L
VV
sin e sin wt
ZZ
?
? ? ? ? ? ? ? ? ? 
           
? ?
2
12
L
tan ; Z R L
R
?
??
??
??
?
? ? ? ? ? 
Maximum momentary current 
           
? ?
m
mm
2V
i sin
Z
? ? ? ?  
            If resistance is neglected,      
0
90 ?? 
            
m
mm
i
2V
cos
Z
?? 
Short circuit model of a synchronous machine 
During initial SC period for 1-2 cycles, current are induced in field & damper winding of machine 
so reactance at least & called as sub transient reactance ? ?
d
X" 
After initial sub-transient period, current in damper winding in reduced to zero, and this period 
is called as transient period & reactance of machine is called as Transient Reactance ? ?
d
X" 
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