Handbook of Electrical Engineering

118 HANDBOOK OF ELECTRICAL ENGINEERING

requires stabilising with a ‘deceleration’ factor. Equation (5.7) for slip=1 can be expanded to yield
the following equation,

Z 231 =R 231 +jX 231 =

C 1 E 1 +D 1 F 1

G 1

+

j(D 1 E 1 −C 1 F 1 )

G 1

( 5. 9 )

Similarly (5.8) for slip=scan be expanded to yield the following equation,

Z 230 =R 230 +jX 230 =

C 0 E 0 +D 0 F 0

G 0

+

j(D 0 E 0 −C 0 F 0 )

G 0

( 5. 10 )

From (5.9) a new value ofR 22 can be found asR 22 N,

R 22 N=

G 1 R 231 −D 1 F 1

E 1 R 33

+

X 22 X 33

R 33

( 5. 11 )

Also from (5.9) a new value ofX 22 can found be asX 22 N,

X 22 N=

G 1 X 231 +C 1 F 1

E 1 R 33

−

R 22 X 33

R 33

( 5. 12 )

From (5.10) a new value ofR 33 can be found asR 33 N,

R 33 N=

G 0 R 230 −D 0 F 0

U^2 E 0 R 22

+

X 22 X 33

U^2 R 22

( 5. 11 )

Also from (5.10) a new value ofX 33 can be found asX 33 N,

X 33 N=

G 0 X 230 +C 0 F 0

UE 0 R 22

−

X 22 R 33

R 22

( 5. 12 )

Where U= 1 /slip= 1 /s
C 1 =R 22 R 33 −X 22 X 33
D 1 =R 22 X 33 +X 22 R 33
E 1 =R 22 +R 33
F 1 =X 22 +X 33
G 1 =E 12 +F 12

and C 0 =U^2 R 22 R 33 −X 22 X 33
D 0 =UR 22 X 33 +X 22 R 33
E 0 =U(R 22 +R 33 )
F 0 =X 22 +X 33
G 0 =U^2 E 02 +F 02

The calculation process is simple and convergent provided some deceleration ‘k’ is applied.
An initial guess is required forR 22 ,X 22 ,R 33 andX 33 , which may require a little trial and error
experimentation to find suitable values. These values are used in the equations to yield a new set of