General purpose function performs a Fourier analysis on a vector. This function is used by the schematic's fixed Fourier probe.
Number | Type | Compulsory | Default | Description |
1 | real vector | Yes | Input signal | |
2 | real vector | Yes | Configuration |
Input signal
real vector to configure operation on function.
Index | Description |
} | |
0 | Method |
0: FFT | |
1: Continuous Fourier | |
1 | Output |
0: complex | |
1: magnitude | |
2: dB | |
3: phase (degrees) | |
4: dBuV | |
2 | Use default resolution. Continuous Fourier only |
0: Use resolution in arg3 | |
1: Use default resolution | |
3 | Resolution. Continuous Fourier only |
4 | Start frequency |
Actual start frequency will be N*actual_resolution where N is an integer | |
5 | Stop frequency |
FFT: max Numpoints*resolution/2. Defaults to Numpoints*resolution/2 if <=0. | |
Continuous Fourier: fails if<=0 | |
6 | Know fundamental frequency |
7 | Fundamental frequency |
8 | FFT only - number of points - must be ???MATH???2^N???MATH???. |
If not next value that is ???MATH???2^N???MATH??? is used | |
9 | FFT only - interp order |
10 | 0: Time interval defined by arg12 and arg11 |
1: Use all time data | |
11 | t start (if arg10=0) |
12 | t stop (if arg10=0) |
13 | Window |
0: Rectangular | |
1: Hanning | |
2: Hamming | |
3: Blackman | |
14 | Max calculation time - aborts if exceeds this value. |
Return type: complex array
Fourier spectrum of input
▲Function Summary▲ | ||
◄ Spectrum | SplitPath ▶ |