Table Of Contents

IviUpconverter Configure Sweep [SWP] (G Dataflow)

Version:
    Last Modified: October 24, 2017

    Configures the upconverter whether the RF output is a continuous wave or the frequency , power level, or gain is swept or stepped.

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    instrument handle

    The instrument handle that you obtain from the IviUpconverter Initialize or IviUpconverter Initialize With Options Node. The handle identifies a particular instrument session.

    Default: None

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    error in

    Error conditions that occur before this node runs.

    The node responds to this input according to standard error behavior.

    Standard Error Behavior

    Many nodes provide an error in input and an error out output so that the node can respond to and communicate errors that occur while code is running. The value of error in specifies whether an error occurred before the node runs. Most nodes respond to values of error in in a standard, predictable way.

    error in does not contain an error error in contains an error
    If no error occurred before the node runs, the node begins execution normally.

    If no error occurs while the node runs, it returns no error. If an error does occur while the node runs, it returns that error information as error out.

    If an error occurred before the node runs, the node does not execute. Instead, it returns the error in value as error out.

    Default: No error

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    sweep mode (None)

    Pass whether the RF output signal is a continuous wave or the frequency, power level, or gain is swept or stepped. The driver uses this value to set the IviUpconverter Sweep Mode [SWP] property. Valid Values: IVIUPCONVERTER_VAL_SWEEP_MODE_NONE - The RF output is a non-swept signal (continuous wave). IVIUPCONVERTER_VAL_SWEEP_MODE_FREQUENCY_SWEEP - Sweeps the RF output signal frequency in an analog form (non-stepped). IVIUPCONVERTER_VAL_SWEEP_MODE_POWER_SWEEP - Sweeps the RF output signal power in an analog form (non-stepped). IVIUPCONVERTER_VAL_SWEEP_MODE_GAIN_SWEEP - Sweeps the upconverter's gain in an analog form (non-stepped). IVIUPCONVERTER_VAL_SWEEP_MODE_FREQUENCY_STEP - Sweeps the RF output signal frequency in steps. IVIUPCONVERTER_VAL_SWEEP_MODE_POWER_STEP - Sweeps the RF output signal power level in steps. IVIUPCONVERTER_VAL_SWEEP_MODE_GAIN_STEP - Sweeps the upconverter's gain in steps. IVIUPCONVERTER_VAL_SWEEP_MODE_LIST - Uses two lists with frequency and power level or gain values to sweep the RF output signal. Default value: IVIUPCONVERTER_VAL_SWEEP_MODE_NONE

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    sweep trigger source (None)

    Pass the way to start the sweep or run the sweep continuously. The driver uses this value to set the IviUpconverter Sweep Trigger Source [SWP] property. Valid Values: IVIUPCONVERTER_VAL_TRIGGER_SOURCE_NONE - No trigger source. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_IMMEDIATE - Trigger immediately. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_EXTERNAL - External trigger source. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_INTERNAL - Internal trigger source. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_SOFTWARE - Software trigger. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN0 - LAN0 (LXI defined "LAN0" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN1 - LAN1 (LXI defined "LAN1" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN2 - LAN2 (LXI defined "LAN2" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN3 - LAN3 (LXI defined "LAN3" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN4 - LAN4 (LXI defined "LAN4" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN5 - LAN5 (LXI defined "LAN5" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN6 - LAN6 (LXI defined "LAN6" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LAN7 - LAN7 (LXI defined "LAN7" LAN message). IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI0 - LXI Trigger Bus Line 0. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI1 - LXI Trigger Bus Line 1. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI2 - LXI Trigger Bus Line 2. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI3 - LXI Trigger Bus Line 3. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI4 - LXI Trigger Bus Line 4. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI5 - LXI Trigger Bus Line 5. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI6 - LXI Trigger Bus Line 6. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_LXI7 - LXI Trigger Bus Line 7. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL0 - TTL Interface 0. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL1 - TTL Interface 1. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL2 - TTL Interface 2. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL3 - TTL Interface 3. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL4 - TTL Interface 4. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL5 - TTL Interface 5. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL6 - TTL Interface 6. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_TTL7 - TTL Interface 7. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_STAR - PXI Star Interface. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG0 - PXI Trigger Bus Line 0. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG1 - PXI Trigger Bus Line 1. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG2 - PXI Trigger Bus Line 2. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG3 - PXI Trigger Bus Line 3. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG4 - PXI Trigger Bus Line 4. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG5 - PXI Trigger Bus Line 5. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG6 - PXI Trigger Bus Line 6. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXI_TRIG7 - PXI Trigger Bus Line 7. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXIE_DSTARA - PXI Express DStar Line A. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXIE_DSTARB - PXI Express DStar Line B. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_PXIE_DSTARC - PXI Express DStar Line C. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI0 - RTSI Bus Line 0. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI1 - RTSI Bus Line 1. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI2 - RTSI Bus Line 2. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI3 - RTSI Bus Line 3. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI4 - RTSI Bus Line 4. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI5 - RTSI Bus Line 5. IVIUPCONVERTER_VAL_TRIGGER_SOURCE_RTSI6 - RTSI Bus Line 6. Default Value: IVIUPCONVERTER_VAL_TRIGGER_SOURCE_NONE

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    instrument handle out

    The instrument handle that you obtain from the IviUpconverter Initialize or IviUpconverter Initialize With Options VI. The handle identifies a particular instrument session. Default Value: None

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    error out

    Error information.

    The node produces this output according to standard error behavior.

    Standard Error Behavior

    Many nodes provide an error in input and an error out output so that the node can respond to and communicate errors that occur while code is running. The value of error in specifies whether an error occurred before the node runs. Most nodes respond to values of error in in a standard, predictable way.

    error in does not contain an error error in contains an error
    If no error occurred before the node runs, the node begins execution normally.

    If no error occurs while the node runs, it returns no error. If an error does occur while the node runs, it returns that error information as error out.

    If an error occurred before the node runs, the node does not execute. Instead, it returns the error in value as error out.

    Where This Node Can Run:

    Desktop OS: Windows

    FPGA: Not supported

    Web Server: Not supported in VIs that run in a web application


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