SEQUENCE IMPEDANCE – [ZSEQ]
Compute the sequence impedance matrix in function of the phase impedance matrix. The input and output are represented by phasors.
CATEGORY
Harmonic_Analysis
DESCRIPTION
Output the sequence impedance matrix in function of an phase impedance matrix. The following equations are used to calculate the impedences:
RESULT VARIABLES AND PARAMETERS
Results:
Z00_mag | Magnitude of the Z00 |
Z01_mag | Magnitude of the Z01 |
Z02_mag | Magnitude of the Z02 |
Z10_mag | Magnitude of the Z10 |
Z11_mag | Magnitude of the Z11 |
Z12_mag | Magnitude of the Z12 |
Z20_mag | Magnitude of the Z20 |
Z21_mag | Magnitude of the Z21 |
Z22_mag | Magnitude of the Z22 |
Z00_ang | Angle of the Z00 (in degrees) |
Z01_ang | Angle of the Z01 (in degrees) |
Z02_ang | Angle of the Z02 (in degrees) |
Z10_ang | Angle of the Z10 (in degrees) |
Z11_ang | Angle of the Z11 (in degrees) |
Z12_ang | Angle of the Z12 (in degrees) |
Z20_ang | Angle of the Z20 (in degrees) |
Z21_ang | Angle of the Z21 (in degrees) |
Z22_ang | Angle of the Z22 (in degrees) |
Signals:
Zaa_mag | Magnitude of the Zaa |
Zab_mag | Magnitude of the Zab |
Zac_mag | Magnitude of the Zac |
Zba_mag | Magnitude of the Zba (not required) |
Zbb_mag | Magnitude of the Zbb |
Zbc_mag | Magnitude of the Zbc |
Zca_mag | Magnitude of the Zca (not required) |
Zcb_mag | Magnitude of the Zcb (not required) |
Zca_mag | Magnitude of the Zcc |
Zaa_ang | Angle of the Zaa (in degrees) |
Zab_ang | Angle of the Zab (in degrees) |
Zac_ang | Angle of the Zac (in degrees) |
Zba_ang | Angle of the Zba (in degrees) (not required) |
Zbb_ang | Angle of the Zbb (in degrees) |
Zbc_ang | Angle of the Zbc (in degrees) |
Zca_ang | Angle of the Zca (in degrees) |
Zcb_ang | Angle of the Zcb (in degrees) (not required) |
Zcc_ang | Angle of the Zcc (in degrees) (not required) |
SYNTAX
[Z00_mag,Z01_mag,Z02_mag,Z10_mag,Z11_mag,Z12_mag,Z20_mag,Z21_mag,Z22_mag,Z00_ang,Z01_ang,Z02_ang,Z10_ang,Z11_ang,Z12_ang,Z20_ang,Z21_ang,Z22_ang] = zseq(Zaa_mag,Zab_mag,Zac_mag,Zba_mag,Zbb_mag,Zbc_mag,Zca_mag,Zcb_mag,Zcc_mag,Zaa_ang,Zab_ang,Zac_ang,Zba_ang,Zbb_ang,Zbc_ang,Zca_ang,Zcb_ang,Zcc_ang)
CHARACTERISTICS
Data type support
Double Floating point
EXAMPLE
For this example, a phase impedance matrix is created and the sequence impedance will be computed by zseq function.
This matrix is imported through ScopeView:
Using the zseq function and putting the result in a table:
Which corresponds to this matrix: