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NI DMM Values And Attribute Functions
- niDMM_GetAutoRangeValue
- niDMM_GetApertureTimeInfo
- niDMM_GetMeasurementPeriod
- niDMM_SetAttributeViBoolean
- niDMM_SetAttributeViInt32
- niDMM_SetAttributeViReal64
- niDMM_SetAttributeViSession
- niDMM_SetAttributeViString
- niDMM_GetAttributeViBoolean
- niDMM_GetAttributeViInt32
- niDMM_GetAttributeViReal64
- niDMM_GetAttributeViSession
- niDMM_GetAttributeViString
- niDMM_CheckAttributeViBoolean
- niDMM_CheckAttributeViInt32
- niDMM_CheckAttributeViReal64
- niDMM_CheckAttributeViSession
- niDMM_CheckAttributeViString
- niDMM_ImportAttributeConfigurationFile
- niDMM_ExportAttributeConfigurationFile
- niDMM_ImportAttributeConfigurationBuffer
ViStatus = niDMM_GetAutoRangeValue(ViSession Instrument_Handle, ViReal64 *Actual_Range)
Returns the Actual_Range that the DMM is using, even when Auto Range is off.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Output | ||
Name | Type | Description |
Actual_Range | ViReal64* | Indicates the Actual_Range the DMM is using. Returns the value of the NIDMM_ATTR_AUTO_RANGE_VALUE attribute. The units of the returned value depend on the function. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetApertureTimeInfo(ViSession Instrument_Handle, ViReal64 *Aperture_Time, ViInt32 *Aperture_Time_Units)
Returns the DMM Aperture_Time and Aperture_Time_Units.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Output | ||
Name | Type | Description |
Aperture_Time | ViReal64* | Specifies the amount of time the DMM digitizes the input signal for a single measurement. This parameter does not include settling time. Returns the value of the NIDMM_ATTR_APERTURE_TIME attribute. The units of this attribute depend on the value of the NIDMM_ATTR_APERTURE_TIME_UNITS within the minimum and maximum ranges is allowed on the NI 4070/4071/4072. On the NI 4065 the minimum aperture time is 333 µs, and the maximum aperture time is 78.2 s. If setting the number of averages directly, the total measurement time is aperture time X the number of averages, which must be less than 72.8 s. The aperture times allowed are 333 µs, 667 µs, or multiples of 1.11 ms—for example 1.11 ms, 2.22 ms, 3.33 ms, and so on. If you set an aperture time other than 333 µs, 667 µs, or multiples of 1.11 ms, the value will be coerced up to the next supported aperture time. On the NI 4060, when the powerline frequency is 60, the PLCs allowed are 1 PLC, 6 PLC, 12 PLC, and 120 PLC. When the powerline frequency is 50, the PLCs allowed are 1 PLC, 5 PLC, 10 PLC, and 100 PLC. |
Aperture_Time_Units | ViInt32* | Indicates the units of aperture time as powerline cycles (PLCs) or seconds. Returns the value of the NIDMM_ATTR_APERTURE_TIME_UNITS attribute. |
NIDMM_VAL_SECONDS | 0 | Seconds |
---|---|---|
NIDMM_VAL_POWER_LINE_CYCLES | 1 | Powerline Cycles |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetMeasurementPeriod(ViSession Instrument_Handle, ViReal64 *Period)
Returns the measurement Period, which is the amount of time it takes to complete one measurement with the current configuration. Use this function right before you begin acquiring data—after you have completely configured the measurement and after all configuration functions have been called.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Output | ||
Name | Type | Description |
Period | ViReal64* |
Returns the number of seconds it takes to make one measurement. The first measurement in a multipoint acquisition requires additional settling time. This function does not include this additional time or any NIDMM_ATTR_TRIGGER_DELAY associated with the first measurement. Time required for internal measurements, such as NIDMM_ATTR_AUTO_ZERO, is included. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_SetAttributeViBoolean(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViBoolean Attribute_Value)
This function sets the value of a ViBoolean attribute.
This is a low-level function that you can use to set the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid or is different than the value you specify.
This instrument driver contains high-level functions that set most of the instrument attributes. It is best to use the high-level driver functions as much as possible. They handle order dependencies and multithread locking for you. In addition, they perform status checking only after setting all of the attributes.
In contrast, when you set multiple attributes using the SetAttribute functions, the functions check the instrument status after each call. Also, when state caching is enabled, the high-level functions that configure multiple attributes perform instrument I/O only for the attributes whose value you change. Thus, you can safely call the high-level functions without the penalty of redundant instrument I/O.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViBoolean | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_SetAttributeViInt32(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViInt32 Attribute_Value)
This function sets the value of a ViInt32 attribute.
This is a low-level function that you can use to set the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid or is different than the value you specify.
This instrument driver contains high-level functions that set most of the instrument attributes. It is best to use the high-level driver functions as much as possible. They handle order dependencies and multithread locking for you. In addition, they perform status checking only after setting all of the attributes.
In contrast, when you set multiple attributes using the SetAttribute functions, the functions check the instrument status after each call. Also, when state caching is enabled, the high-level functions that configure multiple attributes perform instrument I/O only for the attributes whose value you change. Thus, you can safely call the high-level functions without the penalty of redundant instrument I/O.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViInt32 | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_SetAttributeViReal64(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViReal64 Attribute_Value)
This function sets the value of a ViReal64 attribute.
This is a low-level function that you can use to set the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid or is different than the value you specify.
This instrument driver contains high-level functions that set most of the instrument attributes. It is best to use the high-level driver functions as much as possible. They handle order dependencies and multithread locking for you. In addition, they perform status checking only after setting all of the attributes.
In contrast, when you set multiple attributes using the SetAttribute functions, the functions check the instrument status after each call. Also, when state caching is enabled, the high-level functions that configure multiple attributes perform instrument I/O only for the attributes whose value you change. Thus, you can safely call the high-level functions without the penalty of redundant instrument I/O.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViReal64 | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_SetAttributeViSession(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViSession Attribute_Value
This function sets the value of a ViSession attribute.
This is a low-level function that you can use to set the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid or is different than the value you specify.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViSession | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_SetAttributeViString(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViString Attribute_Value[])
This function sets the value of a ViString attribute.
This is a low-level function that you can use to set the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid or is different than the value you specify.
This instrument driver contains high-level functions that set most of the instrument attributes. It is best to use the high-level driver functions as much as possible. They handle order dependencies and multithread locking for you. In addition, they perform status checking only after setting all of the attributes.
In contrast, when you set multiple attributes using the SetAttribute functions, the functions check the instrument status after each call. Also, when state caching is enabled, the high-level functions that configure multiple attributes perform instrument I/O only for the attributes whose value you change. Thus, you can safely call the high-level functions without the penalty of redundant instrument I/O.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViString | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetAttributeViBoolean(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViBoolean *Attribute_Value)
Queries the value of a ViBoolean attribute. You can use this function to get the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Output | ||
Name | Type | Description |
Attribute_Value | ViBoolean* | Returns the current value of the attribute. Pass the address of a ViBoolean variable. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetAttributeViInt32(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViInt32 *Attribute_Value)
Queries the value of a ViInt32 attribute. You can use this function to get the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Output | ||
Name | Type | Description |
Attribute_Value | ViInt32* | Returns the current value of the attribute. Pass the address of a ViInt32 variable. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetAttributeViReal64(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViReal64 *Attribute_Value)
Queries the value of a ViReal64 attribute. You can use this function to get the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Output | ||
Name | Type | Description |
Attribute_Value | ViReal64* | Returns the current value of the attribute. Pass the address of a ViReal64 variable. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetAttributeViSession(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViSession *Attribute_Value)
Queries the value of a ViSession attribute. You can use this function to get the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Output | ||
Name | Type | Description |
Attribute_Value | ViSession* | Returns the current value of the attribute. Pass the address of a ViSession variable. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_GetAttributeViString(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViInt32 Buffer_Size, ViChar Attribute_Value[])
Queries the value of a ViString attribute. You can use this function to get the values of instrument-specific attributes and inherent IVI attributes.
If the attribute represents an instrument state, this function performs instrument I/O in the following cases:
- State caching is disabled for the entire session or for the particular attribute.
- State caching is enabled, and the currently cached value is invalid. You must provide a ViChar array to serve as a buffer for the value. You pass the number of bytes in the buffer as the Array Size parameter.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Buffer_Size | ViInt32 |
Pass the number of bytes in the ViChar array you specify for the Attribute_Value parameter. If the current value of the attribute, including the terminating NULL byte, contains more bytes that you indicate in this parameter, the function copies Buffer_Size—1 bytes into the buffer, places an ASCII NUL byte at the end of the buffer, and returns the buffer size you must pass to get the entire value. For example, if the value is "123456" and the Buffer_Size is 4, the function places "123" into the buffer and returns 7. If you pass a negative number, the function copies the value to the buffer regardless of the number of bytes in the value. If you pass 0, you can pass VI_NULL for the Attribute_Value buffer parameter. |
Output | ||
Name | Type | Description |
Attribute_Value | ViChar[ ] |
The buffer in which the function returns the current value of the attribute. The buffer must be of type ViChar and have at least as many bytes as indicated in the Buffer_Size parameter. If you specify 0 for the Buffer_Size parameter, you can pass VI_NULL for this parameter. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_CheckAttributeViBoolean(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViBoolean Attribute_Value)
This function checks the validity of a value you specify for a ViBoolean attribute.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViBoolean | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_CheckAttributeViInt32(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViInt32 Attribute_Value)
This function checks the validity of a value you specify for a ViInt32 attribute.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViInt32 | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_CheckAttributeViReal64(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViReal64 Attribute_Value)
This function checks the validity of a value you specify for a ViReal64 attribute.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViReal64 | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_CheckAttributeViSession(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViSession Attribute_Value)
This function checks the validity of a value you specify for a ViSession attribute.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViSession | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus = niDMM_CheckAttributeViString(ViSession Instrument_Handle, ViConstString Channel_Name, ViAttr Attribute_ID, ViChar Attribute_Value[])
This function checks the validity of a value you specify for a ViString attribute.
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Channel_Name | ViConstString |
This parameter is ignored. National Instruments DMMs do not support channel names since they only have a single channel. This parameter is included in order to support interchangeability and upgradability to multiple channel DMMs. The default value is " " (an empty string). |
Attribute_ID | ViAttr | Pass the ID of an attribute. |
Attribute_Value | ViChar[] | Pass the value that you want to set the attribute to. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus niDMM_ImportAttributeConfigurationFile (ViSession Instrument_Handle, ViConstString File_Path);
Imports an attribute configuration to the session from the specified file.
You can export and import session attribute configurations only between devices with identical model numbers.
*Note You cannot call this function while the session is in a running state, such as while acquiring a waveform.
*Note Not supported on the PCMCIA4050 or the PXI/PCI4060.
Coercion Behavior for Certain Devices
Imported and exported attribute configurations contain coerced values for the following NIDMM devices:
- PXI/PCI/PCIe/USB4065
- PXI/PCI4070
- PXI4071
- PXI4072
NIDMM coerces attribute values when the value you set is within the allowed range for the attribute but is not one of the discrete valid values the attribute supports. For example, for an attribute that coerces values up, if you choose a value of 4 when the adjacent valid values are 1 and 10, the attribute coerces the value to 10.
Related Topics:
Using Attributes and Properties with NIDMM
Setting Attributes Before Reading Attributes
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
File_Path | ViConstString | Specifies the absolute path to the file containing the attribute configuration to import. If you specify an empty or relative path, this function returns an error. Default File Extension: .nidmmconfig |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus niDMM_ExportAttributeConfigurationBuffer (ViSession Instrument_Handle, ViInt32 Size, ViAddr Configuration);
Exports the attribute configuration of the session to the specified configuration buffer.
You can export and import session attribute configurations only between devices with identical model numbers.
This function verifies that the attributes you have configured for the session are valid. If the configuration is invalid, NIDMM returns an error.
*Note Not supported on the PCMCIA4050 or the PXI/PCI4060. Coercion Behavior for Certain Devices
Imported and exported attribute configurations contain coerced values for the following NIDMM devices:
- PXI/PCI/PCIe/USB4065
- PXI/PCI4070
- PXI4071
- PXI4072
NIDMM coerces attribute values when the value you set is within the allowed range for the attribute but is not one of the discrete valid values the attribute supports. For example, for an attribute that coerces values up, if you choose a value of 4 when the adjacent valid values are 1 and 10, the attribute coerces the value to 10.
Related Topics:
Using Attributes and Properties with NIDMM
Setting Attributes Before Reading Attributes
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Size | ViInt32 | Specifies the size, in bytes, of the byte array to export. If you enter 0, this function returns the needed size. |
Configuration | ViAddr | Specifies the byte array buffer to be populated with the exported attribute configuration. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
ViStatus niDMM_ImportAttributeConfigurationBuffer (ViSession Instrument_Handle, ViInt32 Size, ViAddr Configuration);
Imports an attribute configuration to the session from the specified configuration buffer.
You can export and import session attribute configurations only between devices with identical model numbers.
*Note You cannot call this function while the session is in a running state, such as while acquiring a waveform. *Note Not supported on the PCMCIA4050 or the PXI/PCI4060.| Coercion Behavior for Certain Devices
Imported and exported attribute configurations contain coerced values for the following NIDMM devices:
- PXI/PCI/PCIe/USB4065
- PXI/PCI4070
- PXI4071
- PXI4072
NIDMM coerces attribute values when the value you set is within the allowed range for the attribute but is not one of the discrete valid values the attribute supports. For example, for an attribute that coerces values up, if you choose a value of 4 when the adjacent valid values are 1 and 10, the attribute coerces the value to 10.
Related Topics:
Using Attributes and Properties with NIDMM
Setting Attributes Before Reading Attributes
Input | ||
---|---|---|
Name | Type | Description |
Instrument_Handle | ViSession | Identifies a particular instrument session. You obtain the Instrument_Handle parameter from niDMM_init or niDMM_InitWithOptions. The default is None. |
Size | ViInt32 | Specifies the size, in bytes, of the byte array to import. If you enter 0, this function returns the needed size. |
Configuration | ViAddr | Specifies the byte array buffer that contains the attribute configuration to import. |
Name | Type | Description |
---|---|---|
Status | ViStatus | Reports the Status of this operation. To obtain a text description of the status code, call niDMM_GetErrorMessage. To obtain additional information concerning the error condition, use niDMM_GetError. |
Creating and Setting Up a gRPC Server
Session Utilities API Reference
gRPC API Differences From C API
Sharing Driver Sessions Between Clients
C API Docs
NI-DAQmx
- gRPC API Differences From C API
- Task Configuration And Control
- Channel Configuration And Creation
- Timing
- Triggering
- Read Functions
- Write Functions
- Export Hardware Signals
- Scale Configuration
- Internal Buffer Configuration
- Advanced Functions
- System Configuration
- Error Handling
- Buffer Attributes
- Calibration Info Attributes
- Channel Attributes
- Device Attributes
- Export Signal Attributes
- Persisted Channel Attributes
- Persisted Scale Attributes
- Persisted Task Attributes
- Physical Channel Attributes
- Read Attributes
- Scale Attributes
- System Attributes
- Task Attributes
- Timing Attributes
- Trigger Attributes
- Watchdog Attributes
- Write Attributes
NI-DCPOWER
- Setup Functions
- Configure Functions
- Measurement Functions
- Control Functions
- Trigger And Event
- Attribute Functions
- Query Functions
- Calibration Functions
- Utility Functions
- Supported Device
- Source Attributes
- Transient Attributes
- Voltage Attributes
- Current Attributes
- Pulse Voltage Attributes
- Pulse Current Attributes
- Cutoff Attributes
- Measurement Attributes
- Trigger Attributes Functions
- Event Attributes
- Advanced Attributes
- Inherent Ivi Attributes
- Supported Device Attributes
NI-DIGITAL PATTERN DRIVER
- Init And Close Functions
- Session Locking Functions
- Utility Functions
- Error Handling Functions
- Calibration Functions
- Attributes Functions
- Pin Map Functions
- Low Level Functions
- Low Level Action Functions
- Pin Control Functions
- Static IO Functions
- Clock Generator Functions
- Levels And Timing Functions
- TDR Functions
- PPMU Configuration Functions
- DC Voltage Functions
- DC Current Functions
- PPMU Action Functions
- 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
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- 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