-
Notifications
You must be signed in to change notification settings - Fork 51
NI FGEN Triggering Attributes
Palash Khare edited this page Jun 3, 2021
·
1 revision
- NIFGEN_ATTRIBUTE_TRIGGER_MODE
- NIFGEN_ATTRIBUTE_START_TRIGGER_TYPE
- NIFGEN_ATTRIBUTE_EXPORTED_START_TRIGGER_OUTPUT_TERMINAL
- NIFGEN_ATTRIBUTE_DIGITAL_EDGE_START_TRIGGER_SOURCE
- NIFGEN_ATTRIBUTE_DIGITAL_EDGE_START_TRIGGER_EDGE
- NIFGEN_ATTRIBUTE_P2P_ENDPOINT_FULLNESS_START_TRIGGER_LEVEL
- NIFGEN_ATTRIBUTE_SCRIPT_TRIGGER_TYPE
- NIFGEN_ATTRIBUTE_EXPORTED_SCRIPT_TRIGGER_OUTPUT_TERMINAL
- NIFGEN_ATTRIBUTE_DIGITAL_EDGE_SCRIPT_TRIGGER_SOURCE
- NIFGEN_ATTRIBUTE_DIGITAL_EDGE_SCRIPT_TRIGGER_EDGE
- NIFGEN_ATTRIBUTE_DIGITAL_LEVEL_SCRIPT_TRIGGER_SOURCE
- NIFGEN_ATTRIBUTE_DIGITAL_LEVEL_SCRIPT_TRIGGER_ACTIVE_LEVEL
| Numeric Value | Data Type | Access | Applies to | Coercion | High-Level Functions |
|---|---|---|---|---|---|
| 1150108 | ViInt32 | R/W | Channel | None | niFgen_ConfigureTriggerMode |
Controls the trigger mode.
Note: Refer to the Trigger Modes section for your device in the NI Signal Generators Help for descriptions of the signal generator's specific behavior for supported trigger modes.
Defined Values
| NIFGEN_VAL_SINGLE | **Single Trigger Mode-**The waveform you describe in the sequence list is generated only once by going through the entire staging list. Only one trigger is required to start the waveform generation. You can use single trigger mode with the output mode in any mode. After a trigger is received, the waveform generation starts from the first stage and continues through to the last stage. Then, the last stage generates repeatedly until you stop the waveform generation. |
|---|---|
| NIFGEN_VAL_CONTINUOUS | **Continuous Trigger Mode-**The waveform you describe in the staging list generates infinitely by repeatedly cycling through the staging list. After a trigger is received, the waveform generation starts from the first stage and continues through to the last stage. After the last stage completes, the waveform generation loops back to the start of the first stage and continues until it is stopped. Only one trigger is required to start the waveform generation. |
| NIFGEN_VAL_STEPPED | **Stepped Trigger Mode-**After a Start Trigger is received, the waveform described by the first stage generates. Then, the device waits for the next trigger signal. On the next trigger, the waveform described by the second stage generates, and so on. After the staging list completes, the waveform generation returns to the first stage and continues in a cyclic fashion. After any stage has generated completely, the first eight samples of the next stage are repeated continuously until the next trigger is received. Note: In frequency list mode, stepped trigger mode is the same as burst trigger mode. |
| NIFGEN_VAL_BURST | **Burst Trigger Mode-**After a Start Trigger is received, the waveform described by the first stage generates until another trigger is received. At the next trigger, the buffer of the previous stage completes, and then the waveform described by the second stage generates. After the staging list completes, the waveform generation returns to the first stage and continues in a cyclic fashion. In frequency list mode, the duration instruction is ignored, and the trigger switches the frequency to the next frequency in the list. Note: In frequency list mode, stepped trigger mode is the same a burst trigger mode. |
Default Value: NIFGEN_VAL_CONTINUOUS
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150280 | ViInt32 | R/W | N/A | None | None |
Specifies the type of Start trigger you want to use. You can also choose NIFGEN_VAL_TRIG_NONE as the value for this attribute.
Defined Values:
| NIFGEN_VAL_TRIG_NONE | No trigger is configured. Signal generation starts immediately. |
|---|---|
| NIFGEN_VAL_DIGITAL_EDGE | Operation begins when a digital edge is detected. |
| NIFGEN_VAL_SOFTWARE_EDGE | Operation begins when a software edge is detected. |
| NIFGEN_VAL_P2P_ENDPOINT_FULLNESS | Operation begins when the FIFO reaches a threshold specified in the NIFGEN_ATTRIBUTE_P2P_ENDPOINT_FULLNESS_START_TRIGGER_LEVEL. |
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150283 | ViString | R/W | N/A | None | niFgen_ExportSignal |
Specifies the destination terminal for exporting the Start trigger. For a list of the terminals available on your device, refer to the Routes topic for your device or the Device Routes tab in MAX.
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150281 | ViString | R/W | N/A | None | None |
Specifies the source terminal for the Start trigger. This attribute is used only when the NIFGEN_ATTRIBUTE_START_TRIGGER_TYPE attribute is set to NIFGEN_VAL_DIGITAL_EDGE.
You can specify any valid source terminal for this property. Refer to the Routes topic for your device or the the Device Routes tab in MAX for a list of valid sources.
Source terminals can be specified in two ways. If your device is named Dev1 and your terminal is PFI 0, the terminal can be specified as a fully qualified terminal name, /Dev1/PFI0. You can also specify the terminal using PFI 0.
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150282 | ViInt32 | R/W | N/A | None | None |
Specifies the active edge for the Start trigger. This attribute is used only when the NIFGEN_ATTRIBUTE_START_TRIGGER_TYPE attribute is set to NIFGEN_VAL_DIGITAL_EDGE.
Defined Values
| NIFGEN_VAL_RISING_EDGE | Occurs when the signal transitions from low level to high level. |
|---|---|
| NIFGEN_VAL_FALLING_EDGE | Occurs when the signal transitions from high level to low level. |
| Numeric Value | Data Type | Access | Applies to | Coercion | High-Level Functions |
|---|---|---|---|---|---|
| 1150410 | ViInt32 | R/W | Channel | Yes | None |
Specifies the number of samples the endpoint needs to receive before the signal generator starts generation. This attribute only applies when the NIFGEN_ATTRIBUTE_START_TRIGGER_TYPE attribute is set to NIFGEN_VAL_P2P_ENDPOINT_FULLNESS. Refer to the Flow Control topic in the NI Signal Generators Help for more information about peer-to-peer operations. This attribute is coerced down to 8-byte boundaries.
Note: Due to an additional internal FIFO in the signal generator, the writer peer actually must write 2,304 bytes more than the quantity of data specified by this attribute to satisfy the trigger level.
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150290 | ViInt32 | R/W | N/A | None | None |
Specifies the Script trigger type. Depending upon the value of this attribute, additional attributes may be needed to fully configure the trigger.
Defined Values:
| NIFGEN_VAL_TRIG_NONE | No trigger is configured. Signal generation starts immediately. |
|---|---|
| NIFGEN_VAL_DIGITAL_EDGE | Trigger is asserted when a digital edge is detected. |
| NIFGEN_VAL_DIGITAL_LEVEL | Trigger is asserted when a digital level is detected. |
| NIFGEN_VAL_SOFTWARE_EDGE | Trigger is asserted when a software edge is detected. |
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150295 | ViString | R/W | N/A | None | niFgen_ExportSignal |
Specifies the output terminal for the exported Script trigger. Setting this attribute to an empty string means that when you commit the session, the signal is removed from that terminal and, if possible, the terminal is tristated. For a list of the terminals available on your device, refer to the Routes topic for your device or the Device Routes tab in MAX.
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150291 | ViString | R/W | N/A | None | None |
Specifies the source terminal for the Script trigger. This attribute is used when the NIFGEN_ATTRIBUTE_SCRIPT_TRIGGER_TYPE attribute is set to NIFGEN_VAL_DIGITAL_EDGE.
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150292 | ViInt32 | R/W | N/A | None | None |
Specifies the active edge for the Script trigger. This attribute is used when the NIFGEN_ATTRIBUTE_SCRIPT_TRIGGER_TYPE attribute is set to NIFGEN_VAL_DIGITAL_EDGE.
Defined Values
| NIFGEN_VAL_RISING_EDGE | Occurs when the signal transitions from low level to high level. |
|---|---|
| NIFGEN_VAL_FALLING_EDGE | Occurs when the signal transitions from high level to low level. |
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150293 | ViString | R/W | N/A | None | None |
Specifies the source terminal for the Script trigger. This attribute is used when the NIFGEN_ATTRIBUTE_SCRIPT_TRIGGER_TYPE attribute is set to NIFGEN_VAL_DIGITAL_LEVEL.
| Numeric Value | Data type |
Access | Applies to | Coercion | High Level Functions |
|---|---|---|---|---|---|
| 1150294 | ViInt32 | R/W | N/A | None | None |
Specifies the active level for the Script trigger. This attribute is used when the NIFGEN_ATTRIBUTE_SCRIPT_TRIGGER_TYPE attribute is set to NIFGEN_VAL_DIGITAL_LEVEL.
Defined Values
| NIFGEN_VAL_ACTIVE_HIGH | The high level is the active level. |
|---|---|
| NIFGEN_VAL_ACTIVE_LOW | The low level is the active level. |
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
- 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