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Calls a VI sourced in the version of LabVIEW you specify and returns the output of the VI. Configure the settings for this node to call the desired VI. This node requires you to have LabVIEW 8.0 or later ...

Executes its subdiagram n times. The iteration terminal provides the current loop iteration count, which ranges from 0 to n-1. This product does not support FPGA devices The following image shows the output ...

Adds an element to the back of a queue. If the queue becomes invalid because the queue reference is released, then this node stops waiting and returns an error. This product does not support FPGA devices ...

Searches for a pattern of characters in a string as specified by a regular expression. If this node finds a match, it splits the string into three substrings and any number of submatches. Resize the node ...

Returns a reference to a queue. Use this reference when calling other nodes that perform queue operations. This product does not support FPGA devices Queue Memory Usage When you enqueue and dequeue elements ...

Waits until a notifier receives a notification and returns the notification. This node continues to execute if the notifier receives a notification. If a notifier reference becomes invalid because another ...

Non-Linear Nodes (G Dataflow) LabVIEW NXG 2.0 LabVIEW NXG 2.1 LabVIEW NXG 3.0 LabVIEW NXG 3.1 LabVIEW NXG 4.0 LabVIEW NXG 5.0 LabVIEW NXG 5.1 Simulate non-linear systems. Backlash Implements a backlash ...

PID Design (G Dataflow) LabVIEW NXG 2.0 LabVIEW NXG 2.1 LabVIEW NXG 3.0 LabVIEW NXG 3.1 LabVIEW NXG 4.0 LabVIEW NXG 5.0 LabVIEW NXG 5.1 Implements autotuning. PID Design » Automatic Implements autotuning ...

Angle Nodes (G Dataflow) LabVIEW NXG 2.0 LabVIEW NXG 2.1 LabVIEW NXG 3.0 LabVIEW NXG 3.1 LabVIEW NXG 4.0 LabVIEW NXG 5.0 LabVIEW NXG 5.1 Manipulate angles. Absolute Angle Difference Calculates the absolute ...

Computational Geometry Nodes (G Dataflow) LabVIEW NXG 2.0 LabVIEW NXG 2.1 LabVIEW NXG 3.0 LabVIEW NXG 3.1 LabVIEW NXG 4.0 LabVIEW NXG 5.0 LabVIEW NXG 5.1 Compute geometrical problems. Contour Line Calculates ...

Implements a backlash or deadband function. This product does not support FPGA devices Algorithm Definition for the Backlash Function The following equation defines the backlash function. y(t)={y(t−1) ...

Converts gains in the Academic, Parallel, or Series form to the form you specify. This product does not support FPGA devices You can call the Create Gain node to obtain gain values for a controller before ...

Returns proportional gains of a P controller. This product does not support FPGA devices Algorithm Definition The following transfer function represents a P controller: C(s)=Kp where K[p] is the proportional ...

Returns PD gains of a PD controller in the Parallel form. This product does not support FPGA devices Algorithm Definition The following transfer function represents a PD controller in the Parallel form: ...

Returns PI gains of a PI controller in the Academic form. This product does not support FPGA devices Algorithm Definition The following transfer function represents a PI controller in the Academic form: ...

Returns PI gains of a PI controller in the Parallel form. This product does not support FPGA devices Algorithm Definition The following transfer function represents a PI controller in the Parallel form: ...

Returns PID gains of a PID controller in the Academic form. This product does not support FPGA devices Algorithm Definition The following transfer function represents a PID controller in the Academic form: ...

Returns PID gains of a PID controller in the Parallel form. This product does not support FPGA devices Algorithm Definition The following transfer function represents a PID controller in the Parallel form: ...

Returns PID gains of a PID controller in the Series form. This product does not support FPGA devices Algorithm Definition The following transfer function represents a PID controller in the Series form: ...

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