madeza
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This is my Fourier analisis about single phase rectifier resitive load
The voltage load and current load
(1)
There is a concept related to nonsinusoidal power definition
(2)
I got in matlab the next using the discrete fourier block wich gives me the ability to read the magnitud an angle phase of every harmonic order...
DC COMPONENT = 1.151467E+01
HARMONIC FREQUENCY FOURIER NORMALIZED PHASE NORMALIZED
NO (HZ) COMPONENT COMPONENT (DEG) PHASE (DEG)
1 5.000E+01 1.821E+01 1.000E+00 7.078E-03 0.000E+00
2 1.000E+02 7.965E+00 4.373E-01 -8.999E+01 -9.001E+01
3 1.500E+02 1.937E-01 1.064E-02 1.798E+02 1.797E+02
4 2.000E+02 1.583E+00 8.689E-02 -9.001E+01 -9.004E+01
5 2.500E+02 1.149E-01 6.310E-03 1.789E+02 1.788E+02
6 3.000E+02 6.708E-01 3.683E-02 -8.990E+01 -8.994E+01
7 3.500E+02 8.038E-02 4.413E-03 1.790E+02 1.790E+02
8 4.000E+02 3.670E-01 2.015E-02 -8.987E+01 -8.993E+01
9 4.500E+02 5.977E-02 3.281E-03 1.785E+02 1.784E+02
10 5.000E+02 2.313E-01 1.270E-02 -8.972E+01 -8.979E+01
11 5.500E+02 4.860E-02 2.668E-03 1.782E+02 1.781E+02
12 6.000E+02 1.576E-01 8.654E-03 -8.948E+01 -8.956E+01
13 6.500E+02 4.077E-02 2.238E-03 1.782E+02 1.781E+02
14 7.000E+02 1.132E-01 6.215E-03 -8.924E+01 -8.934E+01
TOTAL HARMONIC DISTORTION = 4.483567E+01 PERCENT
well indeed tis a report about orcad but the fourier component an phase angle is what I got in matlab simulink
My question is how do I make or resolve the equation (2) using the series of fourier or the report got from matlab simulink
thanks for your replies
The voltage load and current load
(1)
There is a concept related to nonsinusoidal power definition
(2)
I got in matlab the next using the discrete fourier block wich gives me the ability to read the magnitud an angle phase of every harmonic order...
DC COMPONENT = 1.151467E+01
HARMONIC FREQUENCY FOURIER NORMALIZED PHASE NORMALIZED
NO (HZ) COMPONENT COMPONENT (DEG) PHASE (DEG)
1 5.000E+01 1.821E+01 1.000E+00 7.078E-03 0.000E+00
2 1.000E+02 7.965E+00 4.373E-01 -8.999E+01 -9.001E+01
3 1.500E+02 1.937E-01 1.064E-02 1.798E+02 1.797E+02
4 2.000E+02 1.583E+00 8.689E-02 -9.001E+01 -9.004E+01
5 2.500E+02 1.149E-01 6.310E-03 1.789E+02 1.788E+02
6 3.000E+02 6.708E-01 3.683E-02 -8.990E+01 -8.994E+01
7 3.500E+02 8.038E-02 4.413E-03 1.790E+02 1.790E+02
8 4.000E+02 3.670E-01 2.015E-02 -8.987E+01 -8.993E+01
9 4.500E+02 5.977E-02 3.281E-03 1.785E+02 1.784E+02
10 5.000E+02 2.313E-01 1.270E-02 -8.972E+01 -8.979E+01
11 5.500E+02 4.860E-02 2.668E-03 1.782E+02 1.781E+02
12 6.000E+02 1.576E-01 8.654E-03 -8.948E+01 -8.956E+01
13 6.500E+02 4.077E-02 2.238E-03 1.782E+02 1.781E+02
14 7.000E+02 1.132E-01 6.215E-03 -8.924E+01 -8.934E+01
TOTAL HARMONIC DISTORTION = 4.483567E+01 PERCENT
well indeed tis a report about orcad but the fourier component an phase angle is what I got in matlab simulink
My question is how do I make or resolve the equation (2) using the series of fourier or the report got from matlab simulink
thanks for your replies