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NI FGEN Arbitrary Waveform Output Functions
- niFgen_ConfigureGain
- niFgen_ConfigureSampleRate
- niFgen_QueryArbWfmCapabilities
- niFgen_CreateWaveformF64
- niFgen_CreateWaveformI16
- niFgen_CreateWaveformComplexF64
- niFgen_CreateWaveformFromFileI16
- niFgen_CreateWaveformFromFileF64
- niFgen_CreateWaveformFromFileHWS
- niFgen_ConfigureArbWaveform
- niFgen_ClearArbWaveform
ViStatus niFgen_ConfigureGain (ViSession vi, ViConstString channelName, ViReal64 gain);
Configures the amount of gain to apply to the waveform.
Note: The signal generator must not be in the Generating state when you call this function.
You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to configure the gain. Default Value: "0" |
gain | ViReal64 |
Specifies the factor by which the signal generator scales the arbitrary waveforms in the sequence. When you create an arbitrary waveform, you must first normalize the data points to a range of –1.00 to +1.00. You can use this parameter to scale the waveform to other ranges. The gain is applied before the offset is added. For example, to configure the output signal to range from –2.00 to +2.00 V, set gain to 2.00. Units: unitless Default Value: None |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_ConfigureSampleRate (ViSession vi, ViReal64 sampleRate);
Configures the NIFGEN_ATTRIBUTE_ARB_SAMPLE_RATE attribute, which determines the rate at which the signal generator produces arbitrary waveforms. When you configure the signal generator to produce an arbitrary sequence, this value is the sample rate for all arbitrary waveforms in the sequence.
Note: The signal generator must not be in the Generating state when you call this function.
You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB, NIFGEN_VAL_OUTPUT_SEQ, or NIFGEN_VAL_OUTPUT_SCRIPT before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
sampleRate | ViReal64 |
Specifies the sample rate at which you want the signal generator to generate arbitrary waveforms. NI-FGEN sets the NIFGEN_ATTRIBUTE_ARB_SAMPLE_RATE attribute to this value. Units: Samples/s Default Value: None |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_QueryArbWfmCapabilities (ViSession vi, ViInt32* maximumNumberofWaveforms, ViInt32* waveformQuantum, ViInt32* minimumWaveformSize, ViInt32* maximumWaveformSize);
Returns the attributes of the signal generator that are related to creating arbitrary waveforms. These attributes are the maximum number of waveforms, waveform quantum, minimum waveform size, and maximum waveform size.
Note: If you do not want to obtain the waveform quantum, pass a value of VI_NULL for this parameter.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
Output | ||
Name | Type | Description |
maximumNumberofWaveforms | ViInt32* | Returns the maximum number of arbitrary waveforms that the signal generator allows. NI-FGEN obtains this value from the NIFGEN_ATTRIBUTE_MAX_NUM_WAVEFORMS attribute. |
waveformQuantum | ViInt32* |
The size (number of points) of each waveform must be a multiple of a constant quantum value. This parameter obtains the quantum value that the signal generator uses. NI-FGEN returns this value from the NIFGEN_ATTRIBUTE_WAVEFORM_QUANTUM attribute. For example, when this attribute returns a value of 8, all waveform sizes must be a multiple of 8. |
minimumWaveformSize | ViInt32* | Returns the minimum number of points that the signal generator allows in a waveform. NI-FGEN obtains this value from the NIFGEN_ATTRIBUTE_MIN_WAVEFORM_SIZE attribute. |
maximumWaveformSize | ViInt32* | Returns the maximum number of points that the signal generator allows in a waveform. NI-FGEN obtains this value from the NIFGEN_ATTRIBUTE_MAX_WAVEFORM_SIZE attribute. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_CreateWaveformF64 (ViSession vi, ViConstString channelName, ViInt32 waveformSize, ViReal64[] waveformDataArray, ViInt32* waveformHandle);
Creates an onboard waveform from binary F64 (floating point double) data for use in Arbitrary Waveform output mode or Arbitrary Sequence output mode. The waveformHandle returned can later be used for setting the active waveform, changing the data in the waveform, building sequences of waveforms, or deleting the waveform when it is no longer needed.
Note: You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB or NIFGEN_VAL_OUTPUT_SEQ before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to create the waveform. Default Value: "0" |
waveformSize | ViInt32 |
Specifies the size of the arbitrary waveform that you want to create. - The size must be less than or equal to the maximum waveform size that the device allows. - The size must be greater than or equal to the minimum waveform size that the device allows. - The size must be an integer multiple of the device waveform quantum. You can obtain these values from the maximumWaveformSize, minimumWaveformSize, and waveformQuantum parameters of the niFgen_QueryArbWfmCapabilities function. Default Value: None |
waveformDataArray | ViReal64[] |
Specifies the array of data you want to use for the new arbitrary waveform. The array must have at least as many elements as the value that you specify in waveformSize. You must normalize the data points in the array to be between –1.00 and +1.00. Default Value: None |
Output | ||
Name | Type | Description |
waveformHandle | ViInt32* | The handle that identifies the new waveform. This handle is used later when referring to this waveform. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_CreateWaveformI16 (ViSession vi, ViConstString channelName, ViInt32 waveformSize, ViInt16[] waveformDataArray, ViInt32* waveformHandle);
Creates an onboard waveform from binary 16-bit signed integer (I16) data for use in Arbitrary Waveform or Arbitrary Sequence output mode. The waveformHandle returned can later be used for setting the active waveform, changing the data in the waveform, building sequences of waveforms, or deleting the waveform when it is no longer needed.
Note: You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB or NIFGEN_VAL_OUTPUT_SEQ before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to create the waveform. Default Value: "0" |
waveformSize | ViInt32 |
Specifies the size of the arbitrary waveform that you want to create. - The size must be less than or equal to the maximum waveform size that the device allows. - The size must be greater than or equal to the minimum waveform size that the device allows. - The size must be an integer multiple of the device waveform quantum. You can obtain these values from the maximumWaveformSize, minimumWaveformSize, and waveformQuantum parameters of the niFgen_QueryArbWfmCapabilities function.
|
waveformDataArray | ViInt16[] | Specify the array of data that you want to use for the new arbitrary waveform. The array must have at least as many elements as the value that you specify in the Waveform Size parameter. You must normalize the data points in the array to be between -32768 and +32767. Default Value: None |
Output | ||
Name | Type | Description |
waveformHandle | ViInt32* | The handle that identifies the new waveform. This handle is used later when referring to this waveform. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_CreateWaveformComplexF64 (ViSession vi, ViConstString channelName, ViInt32 numberofSamples, niFgen_ComplexF64[] waveformDataArray, ViInt32* waveformHandle);
Creates an onboard waveform from complex double-precision floating-point (F64) data for use with the NIFGEN_ATTRIBUTE_OUTPUT_MODE attribute set to Arbitrary Waveform or Arbitrary Sequence output mode on devices with the NIFGEN_ATTRIBUTE_OUTPUT_ENABLED attribute set to VI_TRUE and the NIFGEN_ATTRIBUTE_OSP_DATA_PROCESSING_MODE attribute set to NIFGEN_VAL_OSP_COMPLEX. The waveformHandle returned by the function can be used later for setting the active waveform, changing the data in the waveform, building sequences of waveforms, or deleting the waveform when it is no longer needed.
Note: You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB or NIFGEN_VAL_OUTPUT_SEQ before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to create the waveform. Default Value: "0" |
numberofSamples | ViInt32 |
Specifies the size of the arbitrary waveform that you want to create. The size must meet the following restrictions: - The size must be less than or equal to the maximum waveform size that the device allows. - The size must be greater than or equal to the minimum waveform size that the device allows. - The size must be an integer multiple of the device waveform quantum. You can obtain these values from the maximumWaveformSize, minimumWaveformSize, and waveformQuantum parameters of the niFgen_QueryArbWfmCapabilities function.
|
waveformDataArray | ViReal64[] |
Specifies the array of data you want to use for the new arbitrary waveform. The array must have at least as many elements as the value that you specify in waveformSize. You must normalize the data points in the array to be between –1.00 and +1.00. Default Value: None |
Output | ||
Name | Type | Description |
waveformHandle | ViInt32* | The handle that identifies the new waveform. This handle is used later when referring to this waveform. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_CreateWaveformFromFileI16 (ViSession vi, ViConstString channelName, ViConstString filename, ViInt32 byteOrder, ViInt32* waveformHandle);
Takes the binary 16-bit signed integer (I16) data from the specified file and creates an onboard waveform for use in Arbitrary Waveform or Arbitrary Sequence output mode. The waveformHandle returned by this function can later be used for setting the active waveform, changing the data in the waveform, building sequences of waveforms, or deleting the waveform when it is no longer needed.
Note: The I16 data (values between –32768 and +32767) is assumed to represent –1 to +1 V. Use the NIFGEN_ATTRIBUTE_DIGITAL_GAIN attribute to generate different voltage outputs.
You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB or NIFGEN_VAL_OUTPUT_SEQ before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to create the waveform. Default Value: "0" |
fileName | ViConstString | The full path and name of the file where the waveform data resides. |
byteOrder | ViInt32 | Specifies the byte order of the data in the file. Note: Data written by most applications in Windows (including LabWindows™/CVI™) is in Little Endian format. Data written to a file from LabVIEW is in Big Endian format by default on all platforms. Big Endian and Little Endian refer to the way data is stored in memory, which can differ on different processors. Default Value: NIFGEN_VAL_LITTLE_ENDIAN Defined Values: |
NIFGEN_VAL_LITTLE_ENDIAN | Little Endian Data—The least significant bit is stored at the lowest address, followed by the other bits, in order of increasing significance. |
---|---|
NIFGEN_VAL_BIG_ENDIAN | Big Endian Data—The most significant bit is stored at the lowest address, followed by the other bits, in order of decreasing significance. |
Output | ||
---|---|---|
Name | Type | Description |
waveformHandle | ViInt32* | The handle that identifies the new waveform. This handle is used later when referring to this waveform. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_CreateWaveformFromFileF64 (ViSession vi, ViConstString channelName, ViConstString filename, ViInt32 byteOrder, ViInt32* waveformHandle);
This function takes the floating point double (F64) data from the specified file and creates an onboard waveform for use in Arbitrary Waveform or Arbitrary Sequence output mode. The waveformHandle returned by this function can later be used for setting the active waveform, changing the data in the waveform, building sequences of waveforms, or deleting the waveform when it is no longer needed.
Note: The F64 data must be between –1.0 and +1.0 V. Use the NIFGEN_ATTRIBUTE_DIGITAL_GAIN attribute to generate different voltage outputs.
You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB or NIFGEN_VAL_OUTPUT_SEQ before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to create the waveform. Defined Value: "0" Default Value: "0" |
fileName | ViConstString | The full path and name of the file where the waveform data resides. |
byteOrder | ViInt32 | Specifies the byte order of the data in the file.
Note: Data written by most applications in Windows (including LabWindows™/CVI™) is in Little Endian format. Data written to a file from LabVIEW is in Big Endian format by default on all platforms. Big Endian and Little Endian refer to the way data is stored in memory, which can differ on different processors. Default Value: NIFGEN_VAL_LITTLE_ENDIAN Defined Values |
NIFGEN_VAL_LITTLE_ENDIAN | Little Endian Data—The least significant bit is stored at the lowest address, followed by the other bits, in order of increasing significance. |
---|---|
NIFGEN_VAL_BIG_ENDIAN | Big Endian Data—The most significant bit is stored at the lowest address, followed by the other bits, in order of decreasing significance. |
Output | ||
---|---|---|
Name | Type | Description |
waveformHandle | ViInt32* | The handle that identifies the new waveform. This handle is used later when referring to this waveform. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_CreateWaveformFromFileHWS (ViSession vi, ViConstString channelName, ViConstString filename, ViBoolean useRateFromWaveform, ViBoolean useGain&OffsetFromWaveform, ViInt32* waveformHandle);
Takes the waveform data from the specified HWS (Hierarchical Waveform Storage) file and creates an onboard waveform for use in Arbitrary Waveform or Arbitrary Sequence output mode. The waveformHandle returned by this function can be used later for setting the active waveform, changing the data in the waveform, building sequences of waveforms, or deleting the waveform when it is no longer needed.
When the Analog Waveform Editor saves data in an HWS file, it also stores the rate, gain, and offset with the data. If the useRateFromWaveform and useGain&OffsetFromWaveform parameters are set to VI_TRUE, this function also sets those properties.
Note: If you choose to have this function set the gain and offset properties for you, you should not use the niFgen_ConfigureArbWaveform or niFgen_ConfigureArbSequence functions, as they also set the gain and offset, thereby overriding the values set by this function. Instead, use the NIFGEN_ATTRIBUTE_ARB_WAVEFORM_HANDLE or NIFGEN_ATTRIBUTE_ARB_SEQUENCE_HANDLE attributes.
HWS files may contain I16 or DBL data, depending on how it was saved. This function automatically adapts to either data type. If the file contains DBL data, it must be between –1.0 and +1.0. Check the "Scale Data to +/– 1V" option in the Analog Waveform Editor to ensure your data is between –1.0 and +1.0.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to create the waveform. Defined Value: "0" Default Value: "0" |
fileName | ViConstString | The full path and name of the file where the waveform data resides. |
useRateFromWaveform | ViBoolean |
If you set this parameter input to VI_TRUE and if onboard signal processing (OSP) is enabled, the rate from the waveform is interpreted as the data rate, and FGEN sets the data rate attribute for you. In all other cases, it is interpreted as the sample rate, and FGEN sets the sample rate attribute for you. Default Value: VI_TRUE Defined Values |
VI_TRUE | Use rate from waveform. |
---|---|
VI_FALSE | Do not use rate from waveform. |
Name | Type | Description |
---|---|---|
useGain&OffsetFromWaveform | ViBoolean |
If this input is set to VI_TRUE, NI-FGEN retrieves the gain and offset values from the specified HWS file and applies them to the NI-FGEN driver. Default Value: VI_TRUE Defined Values: |
VI_TRUE | Use gain and offset from waveform. |
---|---|
VI_FALSE | Do not use gain and offset from waveform. |
Output | ||
Name | Type | Description |
waveformHandle | ViInt32* | The handle that identifies the new waveform. This handle is used later when referring to this waveform. |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_ConfigureArbWaveform (ViSession vi, ViConstString channelName, ViInt32 waveformHandle, ViReal64 gain, ViReal64 offset);
Configures the attributes of the signal generator that affect arbitrary waveform generation. Sets the NIFGEN_ATTRIBUTE_ARB_WAVEFORM_HANDLE, NIFGEN_ATTRIBUTE_ARB_GAIN, and NIFGEN_ATTRIBUTE_ARB_OFFSET attributes.
Note: The signal generator must not be in the Generating state when you call this function.
You must call the niFgen_ConfigureOutputMode function to set the outputMode parameter to NIFGEN_VAL_OUTPUT_ARB before calling this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
channelName | ViConstString |
Specifies the channel name for which you want to configure an arbitrary waveform. Default Value: "0" |
waveformHandle | ViInt32 |
Specifies the handle of the arbitrary waveform you want the signal generator to produce. NI-FGEN sets the NIFGEN_ATTRIBUTE_ARB_WAVEFORM_HANDLE attribute to this value. You can create an arbitrary waveform using one of the following niFgen Create Waveform functions: - niFgen_CreateWaveformF64 - niFgen_CreateWaveformI16 - niFgen_CreateWaveformFromFileI16 - niFgen_CreateWaveformFromFileF64 - niFgen_CreateWaveformFromFileHWS These functions return a handle that you use to identify the waveform. Default Value: None |
gain | ViReal64 |
Specifies the factor by which the signal generator scales the arbitrary waveforms in the sequence. When you create an arbitrary waveform, you must first normalize the data points to a range of –1.00 to +1.00. You can use this parameter to scale the waveform to other ranges. The gain is applied before the offset is added. For example, to configure the output signal to range from –2.00 to +2.00 V, set gain to 2.00. Units: unitless Default Value: None |
offset | ViReal64 |
Specifies the value the signal generator adds to the arbitrary waveform data. When you create arbitrary waveforms, you must first normalize the data points to a range of –1.00 to +1.00 V. You can use this parameter to shift the range of the arbitrary waveform. NI-FGEN sets the NIFGEN_ATTRIBUTE_ARB_OFFSET attribute to this value. For example, to configure the output signal to range from 0.00 to 2.00 V instead of –1.00 to 1.00 V, set the offset to 1.00. Units: volts Default Value: None |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
ViStatus niFgen_ClearArbWaveform (ViSession vi, ViInt32 waveformHandle);
Removes a previously created arbitrary waveform from the signal generator memory and invalidates the waveform handle.
Note: The signal generator must not be in the Generating state when you call this function.
Input | ||
---|---|---|
Name | Type | Description |
vi | ViSession | Identifies your instrument session. vi is obtained from the niFgen_init, niFgen_InitWithOptions, or niFgen_InitializeWithChannels functions and identifies a particular instrument session. |
waveformHandle | ViInt32 |
Specifies the handle of the arbitrary waveform that you want the signal generator to remove. You can create multiple arbitrary waveforms using one of the following niFgen Create Waveform functions: - niFgen_CreateWaveformF64 - niFgen_CreateWaveformI16 - niFgen_CreateWaveformFromFileI16 - niFgen_CreateWaveformFromFileF64 - niFgen_CreateWaveformFromFileHWS Defined Value: NIFGEN_VAL_ALL_WAVEFORMS — Remove all waveforms from the signal generator. Default Value: None |
Name | Type | Description |
---|---|---|
status | ViStatus | Returns the status code of this operation. The status code either indicates success or describes an error or warning condition. You can examine the status code from each call to an NI-FGEN function to determine if an error occurred. To obtain a text description of the status code, call theniFgen_error_message function. To obtain additional information about the error condition, call the niFgen_GetError function. To clear the error information from NI-FGEN, call the niFgen_ClearError function. The general meaning of the status code is as follows: |
Value | Meaning |
---|---|
0 | Success |
Positive Values | Warnings |
Negative Values | Errors |
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- Pattern Configuration Functions
- Pattern Action Functions
- History Ram Functions
- Source Memory Functions
- Capture Memory Functions
- Triggers And Events Functions
- Conditional Jump Trigger Functions
- Sequencer Flag Functions
- Sequencer Register Functions
- Match Fail Combination Functions
- Pattern Results Functions
- Sort Results Functions
- Frequency Measurement Functions
- IVI Inherent Attributes
- Specific Driver Information Attributes, Read Only
- Driver Setup Information Attributes
- Device Attributes
- Pin Control Attributes
- Level Configuration Attributes
- Trigger Configuration Attributes
- PPMU Attributes
- Patterns Attributes
- Pattern Opcode Event Attributes
- Timing Offset Attributes
- Keep Alive Attributes
- Frequency Measurement Attributes
- Clock Generator Attributes
- History RAM
- Synchronization Attributes
- TDR Endpoint Termination Attributes
NI-FGEN
- Setup Functions
- Configuration Functions
- Standard Output Functions
- Arbitrary Waveform Output Functions
- Arbitrary Sequence Output Functions
- Incremental Waveform Write Functions
- Configure Clock Functions
- Trigger And Syncronizations Functions
- 5404 Routing Functions
- Script Output Functions
- Configure Onboard Signal Processing Functions
- Configure Peer To Peer Functions
- Attribute Functions
- Waveform Control Functions
- Error Functions
- Output Attributes
- Arbitrary Waveform Attributes
- Data Transfer Attributes
- Onboard Signal Processing Attributes
- Peer To Peer Attributes
- Standard Function Attributes
- Clock Attributes
- Event Attributes
- Triggering Attributes
- Instrument Specific Attributes
- Inherent IVI Attributes
- 5401 5411 5431
NI-RFmx Bluetooth
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Set And Get Attribute Functions
- Fetch Results Functions
- Utility Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- Packet Attributes
- Auto Detect Signal Attributes
- Modacc Attributes
- ACP Attributes
- Twenty dB Attributes
- Frequency Range Attributes
- TXP Attributes
- Advanced Attributes
NI-RFmx NR
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Set And Get Attributes Functions
- Fetch Results Functions
- Utility Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- Signal Detection Attributes
- Component Carrier Attributes
- List Attributes
- Modacc Attributes
- ACP Attributes
- CHP Attributes
- OBW Attributes
- SEM Attributes
- TXP Attributes
- Pvt Attributes
- Advanced Attributes
NI-RFmx LTE
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Ch Configuration Functions
- NB IoT Configuration Functions
- ModAcc Configuration Functions
- ACP Configuration Functions
- CHP Configuration Functions
- OBW Configuration Functions
- SEM Configuration Functions
- PVT Configuration Functions
- SlotPhase Configuration Functions
- SlotPower Configuration Functions
- Set And Get Attribute Functions
- ModAcc Fetch Functions
- ACP Fetch Functions
- CHP Fetch Functions
- OBW Fetch Functions
- SEM Fetch Functions
- PVT Fetch Functions
- SlotPhase Fetch Functions
- SlotPower Fetch Functions
- Utility Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- Component Carrier Attributes
- ModAcc Attributes
- ACP Attributes
- CHP Attributes
- OBW Attributes
- SEM Attributes
- PVT Attributes
- SlotPhase Attributes
- SlotPower Attributes
- Advanced Attributes
NI-RFmx SpecAn
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Set And Get Attribute Functions
- Read Functions
- Fetch Functions
- Utility Functions
- Marker Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- ACP Attributes
- Cdf Attributes
- CHP Attributes
- Fcnt Attributes
- Harm Attributes
- OBW Attributes
- SEM Attributes
- Spectrum Attributes
- Spur Attributes
- TXP Attributes
- AMPM Attributes
- Dpd Attributes
- IQ Attributes
- IM Attributes
- NF Attributes
- Phasenoise Attributes
- PAVT Attributes
- Advanced Attributes
NI-RFmx WLAN
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Set And Get Attribute Functions
- Fetch DSSS ModAcc Functions
- Fetch OFDM ModAcc Functions
- Fetch SEM Functions
- Fetch TXP Functions
- Fetch PowerRamp Functions
- Utility Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- OFDM Attributes
- Auto Detect Signal Attributes
- DSSS ModAcc Attributes
- OFDM ModAcc Attributes
- SEM Attributes
- TXP Attributes
- PowerRamp Attributes
- Advanced Attributes
NI-RFSA
- General Functions
- Configuration Functions
- Acquisition Functions
- Utility Functions
- Calibration Functions
- General Attributes
- Vertical Attributes
- Signal Path Attributes
- Acquisition Attributes
- Acquisition Attributes
- Triggers Attributes
- Events Attributes
- Device Characteristics Attributes
- Peer To Peer Streaming Attributes
- Configuration List Attributes
- Inherent IVI Properties Attributes
- De-embedding Attributes
- Self Calibration Attributes
- Factory Calibration Attributes
- External Alignment Attributes
- Device Specific Attributes
NI-RFSG
- General Functions
- Generation Configuration
- Utility Functions
- Calibration Functions
- Arb Attributes
- Clock Attributes
- Configuration List Attributes
- De-embedding Attributes
- Device Characteristics Attributes
- Device Specific Attributes
- Events Attributes
- External Calibration Attributes
- Inherent IVI Attributes Attributes
- IQ Impairment Attributes
- Load Configurations Attributes
- Modulation Attributes
- Obsolete Attributes
- Peer To Peer Attributes
- RF Attributes
- Self Calibration Attributes
- Triggers Attributes
NI-SCOPE
- Setup Functions
- Configure Functions
- Attribute Functions
- Acquisition Functions
- Measurement Functions
- Calibrate Functions
- Utility Funcitons
- Error Handling Functions
- IVI Compliance Or Obsolete Functions
- Vertical Attributes
- Horizontal Attributes
- Trigger Attributes
- Clocking Attributes
- Synchronization Attributes
- Acquisition Attributes
- Waveform Measurements Attributes
- Onboard Signal Processing Attributes
- Peer To Peer Streaming Attributes
- Device Attributes
- IVI Or Obsolete Attributes
- Instrument Capabilities Attributes
- If Digitizer Attributes
NI-XNET
- gRPC API differences from C APIs
- General Functions
- Cluster Properties
- Database Properties
- Device Properties
- ECU Properties
- Frame Properties
- Interface Properties
- LIN Schedule Entry Properties
- LIN Schedule Properties
- PDU Properties
- Session Ethernet Properties
- Session Frame Properties
- Session Interface Properties
- Session Properties
- Session SAE J1939 Properties
- Signal Properties
- Subframe Properties
- System Properties
- IP-Stack Functions
- Socket Options
- Socket Functions