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    Home : Solutions : Power Generation and Distribution

Power Generation and Distribution Maplesoft’s suite of engineering tools reduces the burden of developing high-fidelity models of power generation systems, including gas and steam turbine generator sets, and wind, wave, and solar energy systems. Compared to traditional simulation tools, Maplesoft’s next-generation graphical tools for model development and analysis dramatically reduce the time and cost of up-front analysis, virtual prototyping, and parameter optimization of system designs. Maple and MapleSim are used extensively for designing systems throughout the power generation and distribution process. The product suite includes tools for easily transferring work into an existing design toolchain, such as MATLAB® and Simulink®, and is especially useful for hardware-in-the-loop simulations. Maple The essential technical computing software for today’s engineers. MapleSim High-performance multi-domain modeling and simulation. Global Optimization Toolbox World-class optimization technology in an intuitive environment. Ideal for parameter estimation, model fitting and controller tuning. MapleSim Connector Automatic generation of Simulink® S-functions from MapleSim models. The generated ANSI-C code is compatible with Simulink® Coder™ for simulation on supported platforms such as dSPACE, xPC Target, and B&R Automation Studio Target for Simulink®. MapleSim Control Design Toolbox A solid set of essential control design tools that extend MapleSim's exceptional plant modeling capabilities to support control design. MapleSim™ Connector for LabVIEW™ and NI VeriStand™ Software Automatic generation of LabVIEW™ user-code blocks for fast execution within LabVIEW™ and the LabVIEW™ real-time platform. MapleSim Connector for dSPACE® Systems With the MapleSim Connector for dSPACE® Systems, you can streamline your development process by automatically converting your high-performance, high-fidelity MapleSim models into real-time applications running on a dSPACE platform. Optimus Identify optimal design parameters for complex Maple and MapleSim design problems. (Third-party product) Wind Turbine Using Maple to Reduce Secondary Circuit Risks in Nuclear Power Plants Developing, validating, and researching a predictive maintenance software program. Automotive battery model gives better results Creating an electrical and thermal model of a lead-acid automotive battery.   See other examples Video: Introduction to MapleSim & Maple for Engineering Professionals Recorded Webinar: Modeling and Simulation of EV and HEV Power Electronics Blog: On Green Engineering Blog: Driving Green Design The Maple Reporter: Subscribe to the Maple Reporter for monthly product news, product tips & techniques, training, upcoming events and more MaplePrimes: Blogs, forums, help, musings, anwers... all things Maple and math