DFD Narrowband Filter Design VI

Digital Filter Design VIs and Functions

DFD Narrowband Filter Design VI

Owning Palette: Special Filter Design VIs

Installed With: Digital Filter Design Toolkit

Creates a narrowband filter using the interpolated finite impulse response (FIR) technique.

To filter data, wire the narrowband filter out output to the narrowband filter input of the DFD Narrowband Filtering VI.

Examples

 Place on the block diagram  Find on the Functions palette
filter type specifies the type of filter that this VI creates.

0Lowpass (default)
1Highpass
2Bandpass
3Bandstop
freq specs specifies the band edge frequencies of the filter.
fpass 1 specifies the first passband edge frequency in hertz.
fstop 1 specifies the first stopband edge frequency in hertz.
fpass 2 specifies the second passband edge frequency in hertz. This VI ignores this input for lowpass and highpass filters.
fstop 2 specifies the second stopband edge frequency in hertz. This VI ignores this input for lowpass and highpass filters.
ripple specs specifies the ripple level in the passband and stopband of the filter.
passband specifies the ripple level in the passband. The default is 0.1.
stopband specifies the ripple level in the stopband. The default is 60.
dB/linear? specifies whether this VI applies a decibel scale or a linear scale to the ripple levels. If the value is TRUE, this VI applies a decibel scale to the ripple level. If the value is FALSE, this VI applies a linear scale to the ripple level. The default is TRUE.
error in describes error conditions that occur before this VI or function runs. The default is no error. If an error occurred before this VI or function runs, the VI or function passes the error in value to error out. This VI or function runs normally only if no error occurred before this VI or function runs. If an error occurs while this VI or function runs, it runs normally and sets its own error status in error out. Use the Simple Error Handler or General Error Handler VIs to display the description of the error code. Use error in and error out to check errors and to specify execution order by wiring error out from one node to error in of the next node.
status is TRUE (X) if an error occurred before this VI or function ran or FALSE (checkmark) to indicate a warning or that no error occurred before this VI or function ran. The default is FALSE.
code is the error or warning code. The default is 0. If status is TRUE, code is a nonzero error code. If status is FALSE, code is 0 or a warning code.
source specifies the origin of the error or warning and is, in most cases, the name of the VI or function that produced the error or warning. The default is an empty string.
fs specifies the sampling frequency in hertz. The value must be greater than zero. The default is 1, which is the normalized sampling frequency.
narrowband filter out contains the narrowband filter.
multirate filters contains the multirate filters this VI uses to construct the narrowband filter.
filter type contains the type of narrowband filter.
error out contains error information. If error in indicates that an error occurred before this VI or function ran, error out contains the same error information. Otherwise, it describes the error status that this VI or function produces. Right-click the error out front panel indicator and select Explain Error from the shortcut menu for more information about the error.
status is TRUE (X) if an error occurred or FALSE (checkmark) to indicate a warning or that no error occurred.
code is the error or warning code. If status is TRUE, code is a nonzero error code. If status is FALSE, code is 0 or a warning code.
source describes the origin of the error or warning and is, in most cases, the name of the VI or function that produced the error or warning.

Examples

Refer to the following VIs for examples of using the DFD Narrowband Filter Design VI:

  • Narrowband Filtering - DFD VI: labview\examples\Digital Filter Design\AALXMPL

     Open example  Browse related examples

  • Narrowband Filter Design and Processing VI: labview\examples\Digital Filter Design\Floating-Point Filters\Multirate

     Open example  Browse related examples