A specialized structure in LabVIEW that executes block diagrams using continuous or discrete solvers.
With the 2019 version, users could:
The you are trying to control (e.g., motor, thermal system, inverted pendulum). Share public link
Design and tune feedback systems visually by interacting with closed-loop pole trajectories. 2. Simulation Toolset
Calculate root locus, gain margins, and phase margins. labview control design and simulation module 2018 2021
For modern engineers, investing time in mastering this module means faster controller prototyping, lower risk in hardware integration, and a smooth path from desktop simulation to deterministic real-time execution. Whether you are troubleshooting an existing system or planning a new HIL test bench, the 2018–2021 edition of the LabVIEW Control Design and Simulation Module remains a cornerstone of industrial control engineering.
Are you integrating with any ? (e.g., MATLAB/Simulink or Multisim?)
By , NI shifted heavily toward the LabVIEW Control Design and Simulation Bundle via the NI Package Manager (NIPM). The module became tightly integrated into subscription-based licensing tiers, meaning you must ensure your specific active license covers the design toolkit separately from the base development system. Operating System and Driver Support
It uses specialized simulation primitives for integrators, transfer functions, non-linearities (like backlash and saturation), and signal generators. LabVIEW 2018 vs. LabVIEW 2021: Version Differences A specialized structure in LabVIEW that executes block
Analyze stability and performance using Bode plots, Nyquist diagrams, Root Locus plots, and step response metrics.
Officially drops support for older Windows versions, focusing exclusively on Windows 10 (64-bit) and Windows 11. It features optimized compiler performance and better scaling on high-DPI monitors. Real-Time Target Deployment
Minor updates to the configuration dialogs for ODE solvers to make variable-step parameters more intuitive. LabVIEW Control Design and Simulation Module 2020
Choosing the wrong ODE solver will cause your simulation to stall or become unstable. If your system includes sudden, sharp discontinuities (such as hard mechanical stops, saturation limits, or digital switching), use a like ODE 1 (Euler) or ODE 4 (Runge-Kutta) rather than a variable-step solver. This guarantees deterministic execution times when migrating to real-time hardware. 2. Avoid Memory Allocation inside the Simulation Loop Whether you are troubleshooting an existing system or
: Build mathematical models (Transfer Functions, State-Space, Zero-Pole-Gain) by analyzing measured stimulus and response data from a plant.
Are you planning to run this simulation strictly on a , or will you deploy it to real-time hardware ? Share public link
When deploying these versions, strict alignment between the base LabVIEW development environment and the module version is mandatory. Module Version Required Base LabVIEW Version Supported Operating Systems Bitness Support LabVIEW 2018 (Base, Full, or Professional) Windows 10 / 8.1 / 7 SP1 32-bit and 64-bit 2019 LabVIEW 2019 (Base, Full, or Professional) Windows 10 / 7 SP1 32-bit and 64-bit 2020 LabVIEW 2020 (Base, Full, or Professional) Windows 10 (64-bit) 32-bit and 64-bit 2021 LabVIEW 2021 (Base, Full, or Professional) Windows 10 / 11 (64-bit) 32-bit and 64-bit Installation Considerations