FB_CMA_RealFFT
Calculation of the Fast Fourier Transform (FFT) for real-valued input signals.
The function block FB_CMA_RealFFT calculates the Fourier transform of the real-valued input signal x[n] present at the function block. A high-performance FFT algorithm is used. It is possible to calculate the forward and inverse transform. The setting is made via the input stInitPars
(see inputs and outputs).
Definition of the forward Fourier transform in DFT notation:
Definition of the inverse Fourier transform in DFT notation:
The highest frequency of a component in the input signal should be at the most around half of the sampling rate of the input signal so that aliasing effects are avoided.
The FFT is defined as the transform of a cyclically continued signal. This can lead to the determination of jumps as soon as the cyclically continued signal is not exactly continuous, i.e. the same at the beginning and end. The function blocks FB_CMA_PowerSpectrum and FB_CMA_MagnitudeSpectrum avoid these difficulties by an analysis in overlapping sections multiplied by a window function.
Scaling
For the quantitative evaluation of the spectrum by measurement means, the calculated spectrum is to be weighted with 1/nFFT_Length
for the DC component, i.e. the first array element of the output, and with 2/nFFT_Length
for all other elements of the output. The function block scales during the forward and inverse transformation in such a way that, in the case of successive forward and inverse transformations, the original input signal is directly calculated again at the output.
NaN occurrence
If the input vector contains one or more NaN (Not a Number) values, the entire output sector is filled with NaN. See separate section for further information on NaN values.
Handling of NaN values If the situations described above, which lead to NaN values, cannot be ruled out or safely neglected, the application program must be able to handle these error values. |
Behavior when processing multi-channel input data
When processing several channels (nChannels > 1
), there is a possibility of each channel having different return values. In this case, return values can be queried separately on the function block. If the results from one or more channels are impermissible, but not all channels, the value on the function block corresponds to eCM_InfRTime_AmbiguousChannelResults
. If the results of all channels are impermissible, then the value on the function block corresponds to eCM_ErrRTime_ErrornousChannelResults
.
A list of return values of all channels can be queried using the method GetChannelErrors()
.
Sample implementation
A sample implementation is available under the following link: FFT with real-value input signal.
Inputs and outputs
The input and output buffers correspond to one of the following definitions (input / output shape). The variable parameters are part of the function block input stInitPars
.
Versions | Input buffer (MultiArray input stream) | Output buffer (MultiArray output stream) |
---|---|---|
Standard version |
|
|
Version with full spectrum* |
|
|
Multi-channel version |
|
|
Multi-channel version with full spectrum* |
|
|
*: If the output buffer of the full spectrum is to be output, this can be achieved by negating the parameter bHalfSpec (:=FALSE)
.
VAR_INPUT
stInitPars : ST_CM_RealFFT_InitPars; // init parameter
nOwnID : UDINT; // ID for this FB instance
aDestIDs : ARRAY[1..cCMA_MaxDest] OF UDINT; // IDs of destinations for output
nResultBuffers : UDINT := 4; // number of MultiArrays which should be initialized for results (0 for no initialization)
tTransferTimeout : LTIME := LTIME#500US; // timeout checking off during access to inter-task FIFOs
END_VAR
Input parameters
The input parameters of this function block represent initialization parameters and must already be assigned in the declaration of the FB instance! (Alternatively: Init() method). They may only be assigned once. A change at runtime is not possible.
stInitPars
: Function-block structure with initialization parameters of the type ST_CM_RealFFT_InitPars. The parameters must correlate to the above definition of the input and output buffers.nOwnID
: Identifies the function block instance with a unique ID. This must always be greater than zero. A proven approach is to define an enumeration for this purpose.aDestIDs
: Defines the destinations to which the results are to be forwarded by specifying the IDs of the destinations. The definition of the output buffer (as described above) must correlate to the definition of the input buffer of each selected destination.nResultBuffers
: The function block initializes a Transfer Tray Stream with the specified number of MultiArray buffers. The default value is four.tTransferTimeout
: Setting of the synchronous timeout for internal MultiArray forwardings. See section Parallel processing.
Output parameters
VAR_OUTPUT
bError : BOOL; // TRUE if an error occurs. Reset by next method call.
hrErrorCode : HRESULT; // '< 0' = error; '> 0' = info; '0' = no error/info
ipErrorMessage : I_TcMessage := fbErrorMessage; // Shows detailed information about occurred errors, warnings and more.
nCntResults : ULINT; // Counts outgoing results (MultiArrays were calculated and sent to transfer tray).
END_VAR
-
bError
: The output isTRUE
if an error occurs. -
hrErrorCode
: If an error occurs, a corresponding error code of the typeHRESULT
is output. Possible values are described in the List of error codes. -
ipErrorMessage
: Contains more detailed information on the current return value. Refer here to the section Error description and information. This special interface pointer is internally secured so that it is always valid/assigned.
Methods
METHOD Init : HRESULT
VAR_INPUT
stInitPars : ST_CM_RealFFT_InitPars; // init parameter
nOwnID : UDINT; // ID for this FB instance
aDestIDs : ARRAY[1..cCMA_MaxDest] OF UDINT; // IDs of destinations for output
nResultBuffers : UDINT := 4; // number of MultiArrays which should be initialized for results (0 for no initialization)
END_VAR
Call():
The method is called each cycle in order to apply the algorithm to the current input data. The function block waits for input data if the method indicates neither new results nor an error. This is a regular behavior in the process of the analysis chain.
- Return value: If an error occurs, a corresponding error code of the type
HRESULT
is output. Possible values are described in the List of error codes.
METHOD Call : HRESULT
VAR_OUTPUT
bNewResult : BOOL; // TRUE every time when outgoing MultiArray was calculated and sent to transfer tray.
bError : BOOL; // TRUE if an error occurs.
hrErrorCode : HRESULT; // '< 0' = error; '> 0' = info; '0' = no error/info
END_VAR
bError
: The output isTRUE
if an error occurs.hrErrorCode
: If an error occurs, a corresponding error code of the typeHRESULT
is output. Possible values are described in the List of error codes. This output is identical to the return value of the method.
If a timeout occurs or no MultiArray buffer is available for the result, then neither the input data nor the result data are lost. They are forwarded on the next call. |
Init():
This method is not usually necessary in a Condition Monitoring application. It offers an alternative to the function block initialization. The Init()
method may only be called during the initialization phase of the PLC. It cannot be used at runtime. You are referred to the use of an FB_init
method or the attribute 'call_after_init'
(see TwinCAT PLC reference). In addition, this facilitates the function block encapsulation.
The input parameters of the function block instance may not be assigned in the declaration if the initialization is to take place using the Init() method.
- Return value: If an error occurs, a corresponding error code of the type
HRESULT
is output. Possible values are described in the List of error codes.
stInitPars
: Function-block structure with initialization parameters of the type ST_CM_RealFFT_InitPars. The parameters must correlate to the above definition of the input and output buffers.nOwnID
: Identifies the function block instance with a unique ID. This must always be greater than zero. A proven approach is to define an enumeration for this purpose.aDestIDs
: Defines the destinations to which the results are to be forwarded by specifying the IDs of the destinations. The definition of the output buffer (as described above) must correlate to the definition of the input buffer of each selected destination.nResultBuffers
: The function block initializes a Transfer Tray Stream with the specified number of MultiArray buffers. The default value is four.
PassInputs():
As long as an FB_CMA_Source
instance is called and signal data are thus transferred to a target block, all further function blocks of the analysis chain have to be called cyclically as explained in the API PLC Reference.
Sometimes it is useful not to execute an algorithm for a certain time. For example, some algorithms should be executed only after prior training or configuration. The function block must be called cyclically, but it is sufficient for the data arriving at the function block to be forwarded in the communication ring. This is done using the PassInputs()
method in place of the Call()
method. The algorithm itself is not called here, and accordingly no result is calculated and no output buffer generated.
- Return value: If an error occurs, a corresponding error code of the type
HRESULT
is output. Possible values are described in the List of error codes.
METHOD PassInputs : HRESULT
VAR_INPUT
END_VAR
GetChannelErrors():
The method enables the querying of a list of the channel-specific return values when processing several channels (nChannels > 1
). A call is useful in the case that the return value of the function block corresponds to one of the values eCM_InfRTime_AmbiguousChannelResults
or eCM_ErrRTime_ErrornousChannelResults
.
-
Return value: Information on the reading process of the list of error codes. The value is set to
TRUE
if the query was successful, otherwise toFALSE
.
METHOD GetChannelErrors : BOOL
VAR_IN_OUT
aChannelErrors : ARRAY[*] OF HRESULT;
END_VAR
-
aChannelErrors
: Error list of the typeHRESULT
of the lengthnChannels
.
Similar function blocks
The function block FB_CMA_ComplexFFT calculates the Fourier transformation of a complex-valued input signal.
The function block FB_CMA_PowerSpectrum calculates the power spectrum of a real-valued input signal.
The function block FB_CMA_MagnitudeSpectrum calculates the magnitude spectrum of a real-valued input signal.
Requirements
Development environment | Target platform | PLC libraries to include |
---|---|---|
TwinCAT v3.1.4022.25 | PC or CX (x86, x64) | Tc3_CM, Tc3_CM_Base |
Limited functional scope already available with CM 3.1. See section Compatibility. |