National Instruments Car Stereo System 320571-01 ユーザーズマニュアル
Index
NI-DSP SRM for LabVIEW for Windows
Index-2
© National Instruments Corporation
indexing output arrays to obtain results,
Part 4: 2-10 to 2-12
linking, Part 4: 2-7 to 2-8
makelib.bat file, Part 4: 2-8
memory management, Part 4: 2-3
parameter guidelines, Part 4: 2-2 to 2-3
prototypes for customizable functions,
makelib.bat file, Part 4: 2-8
memory management, Part 4: 2-3
parameter guidelines, Part 4: 2-2 to 2-3
prototypes for customizable functions,
Part 4: 3-1 to 3-3
source code creation, Part 4: 2-1 to 2-3
steps for creating, Part 4: 2-1
using WE DSP32C assembly language,
steps for creating, Part 4: 2-1
using WE DSP32C assembly language,
Part 4: 2-3 to 2-4
Custom VI. See DSP Custom VI.
customer communication, xv, B-1
customer communication, xv, B-1
D
data acquisition functions, Part 4: 3-3
data buffers. See DSP Handle Clusters.
data transfer. See memory management and data
data buffers. See DSP Handle Clusters.
data transfer. See memory management and data
transfer.
data types
DSP Handle Cluster as array data type,
Part 2: 1-4
icons representing (table), xiii
deleting (replacing) functions in NIDSP.fnc file,
Part 4: 2-5
Developer Toolkit, xv
DFT (Discrete Fourier Transform), Part 3: 1-4 to 1-5
Dispatch application, Part 4: 1-1, Part 4: 2-6
documentation
DFT (Discrete Fourier Transform), Part 3: 1-4 to 1-5
Dispatch application, Part 4: 1-1, Part 4: 2-6
documentation
conventions used in manual, xii-xiii
organization of manual, xi-xii
related documentation, xiv
organization of manual, xi-xii
related documentation, xiv
DSP Absolute function, Part 3: 2-4
DSP Add function
DSP Add function
DSP Handle Cluster input/output example,
Part 2: 1-5
purpose and use, Part 3: 2-5
DSP Allocate Memory function, Part 3: 2-6
DSP Blackman Harris Window VI, Part 3: 2-8
DSP Blackman Window VI, Part 3: 2-7
DSP Butterworth Coefficients VI, Part 3: 2-9 to 2-10
DSP Chebyshev Coefficients VI, Part 3: 2-10 to 2-11
DSP Clip VI, Part 3: 2-11
DSP Complex FFT VI, Part 3: 2-12
DSP Convolution VI, Part 3: 2-13
DSP Correlation VI, Part 3: 2-14
DSP Cross Power VI, Part 3: 2-15
DSP Custom VI
DSP Blackman Harris Window VI, Part 3: 2-8
DSP Blackman Window VI, Part 3: 2-7
DSP Butterworth Coefficients VI, Part 3: 2-9 to 2-10
DSP Chebyshev Coefficients VI, Part 3: 2-10 to 2-11
DSP Clip VI, Part 3: 2-11
DSP Complex FFT VI, Part 3: 2-12
DSP Convolution VI, Part 3: 2-13
DSP Correlation VI, Part 3: 2-14
DSP Cross Power VI, Part 3: 2-15
DSP Custom VI
calling from LabVIEW interface, Part 4: 2-10
definition, Part 4: 2-9
executing from LabVIEW interface, Part 4: 2-12
purpose and use, Part 3: 2-16
definition, Part 4: 2-9
executing from LabVIEW interface, Part 4: 2-12
purpose and use, Part 3: 2-16
DSP Decimate VI, Part 3: 2-17
DSP Deconvolution VI, Part 3: 2-18
DSP Derivative VI, Part 3: 2-19
DSP Deconvolution VI, Part 3: 2-18
DSP Derivative VI, Part 3: 2-19
DSP Divide VI, Part 3: 2-20
DSP DMA Copy(DSP to LV) VI, Part 4: 4-3
DSP DMA Copy(LV to DSP) VI; Part 4: 4-4
DSP Elliptic Coefficients VI, Part 3: 2-21 to 2-22
DSP Equi-Ripple BandPass VI, Part 3: 2-23 to 2-24
DSP Equi-Ripple BandStop VI, Part 3: 2-25 to 2-26
DSP Equi-Ripple HighPass VI, Part 3: 2-27 to 2-28
DSP Equi-Ripple LowPass VI, Part 3: 2-29
DSP Exact Blackman Window VI, Part 3: 2-30
DSP Exponential Window VI, Part 3: 2-31
DSP FHT VI, Part 3: 2-32
DSP Flat Top Window VI, Part 3: 2-33
DSP Force Window VI, Part 3: 2-34
DSP Free Memory VI, Part 3: 2-34
DSP Gaussian White Noise VI, Part 3: 2-35
DSP General Cosine Window VI, Part 3: 2-36
DSP Hamming Window VI, Part 3: 2-37
DSP Handle Clusters
DSP DMA Copy(DSP to LV) VI, Part 4: 4-3
DSP DMA Copy(LV to DSP) VI; Part 4: 4-4
DSP Elliptic Coefficients VI, Part 3: 2-21 to 2-22
DSP Equi-Ripple BandPass VI, Part 3: 2-23 to 2-24
DSP Equi-Ripple BandStop VI, Part 3: 2-25 to 2-26
DSP Equi-Ripple HighPass VI, Part 3: 2-27 to 2-28
DSP Equi-Ripple LowPass VI, Part 3: 2-29
DSP Exact Blackman Window VI, Part 3: 2-30
DSP Exponential Window VI, Part 3: 2-31
DSP FHT VI, Part 3: 2-32
DSP Flat Top Window VI, Part 3: 2-33
DSP Force Window VI, Part 3: 2-34
DSP Free Memory VI, Part 3: 2-34
DSP Gaussian White Noise VI, Part 3: 2-35
DSP General Cosine Window VI, Part 3: 2-36
DSP Hamming Window VI, Part 3: 2-37
DSP Handle Clusters
allocation examples, Part 2: 1-4
array data type, Part 2: 1-4
bundling for LabVIEW interface,
array data type, Part 2: 1-4
bundling for LabVIEW interface,
Part 4: 2-8 to 2-9
definition, Part 2: 1-2, Part 2: 1-3
hexadecimal encoding, Part 2: 1-3
illustration, Part 2: 1-3
improving execution speed of DSP VIs,
hexadecimal encoding, Part 2: 1-3
illustration, Part 2: 1-3
improving execution speed of DSP VIs,
Part 2: 1-7
input/output, Part 2: 1-5
memory management and data transfer,
memory management and data transfer,
Part 2: 1-2 to 1-4
obtaining valid DSP Handle Cluster, Part 2: 1-4
output data buffers, Part 2: 1-5
values not to be changed, Part 2: 1-3
Z in, Z out naming convention, Part 2: 1-5
output data buffers, Part 2: 1-5
values not to be changed, Part 2: 1-3
Z in, Z out naming convention, Part 2: 1-5
DSP Handle to Address VI; Part 3: 2-38
DSP Hanning Window VI, Part 3: 2-38
DSP IIR Filter VI, Part 3: 2-39 to 2-40
DSP Impulse Pattern VI, Part 3: 2-41
DSP Impulse Train Pattern VI, Part 3: 2-42
DSP Index Memory VI, Part 3: 2-43
DSP Init Memory VI, Part 3: 2-44
DSP Integral VI, Part 3: 2-45
DSP Inv Chebyshev Coeff VI, Part 3: 2-46 to 2-47
DSP Inverse FFT VI, Part 3: 2-47
DSP Inverse FHT VI, Part 3: 2-48
DSP Kaiser-Bessel Window VI,Part 3: 2-49
DSP Linear Evaluation VI, Part 3: 2-50
DSP Load VI, Part 3: 2-50
DSP Log VI, Part 3: 2-51
DSP Max & Min VI, Part 3: 2-52
DSP Median Filter VI, Part 3: 2-53
DSP Multiply VI, Part 3: 2-54
DSP Parks McClellan VI, Part 3: 2-55 to 2-57
DSP Polar to Rectangular VI; Part 3: 59
DSP Polynomial Evaluation VI, Part 3: 2-58
DSP Power Spectrum VI, Part 3: 2-59
DSP Product VI, Part 3: 2-59
DSP Pulse Pattern VI, Part 3: 2-60
DSP Hanning Window VI, Part 3: 2-38
DSP IIR Filter VI, Part 3: 2-39 to 2-40
DSP Impulse Pattern VI, Part 3: 2-41
DSP Impulse Train Pattern VI, Part 3: 2-42
DSP Index Memory VI, Part 3: 2-43
DSP Init Memory VI, Part 3: 2-44
DSP Integral VI, Part 3: 2-45
DSP Inv Chebyshev Coeff VI, Part 3: 2-46 to 2-47
DSP Inverse FFT VI, Part 3: 2-47
DSP Inverse FHT VI, Part 3: 2-48
DSP Kaiser-Bessel Window VI,Part 3: 2-49
DSP Linear Evaluation VI, Part 3: 2-50
DSP Load VI, Part 3: 2-50
DSP Log VI, Part 3: 2-51
DSP Max & Min VI, Part 3: 2-52
DSP Median Filter VI, Part 3: 2-53
DSP Multiply VI, Part 3: 2-54
DSP Parks McClellan VI, Part 3: 2-55 to 2-57
DSP Polar to Rectangular VI; Part 3: 59
DSP Polynomial Evaluation VI, Part 3: 2-58
DSP Power Spectrum VI, Part 3: 2-59
DSP Product VI, Part 3: 2-59
DSP Pulse Pattern VI, Part 3: 2-60