MSC.EASY5 MSC, EASY5 Customers MSC EASY5 customers include, in part Allison Engine Co Baker Hughes Intek Boeing British Aerospace case company CEMOTOR-CNR Daewoo heavy Industries Eaton Corporation Ford Motor Company Fuji Heavy Industries GEC Marconi General dynamics General Electric General Motors Hamilton standard hughes Aircraft Husco International ITT Automotive John deere Learjet, Inc. Lockheed martin Mitsubishi Electric Corp Murata Mfg co. Ltd NASA Nissan motor co Pratt& Whitney Raytheon Ricardo Fed SAAB Samsung Heavy Ind Sikorsky Aircraft Sundstrand Aerospace Teijin Seiki co, Ltd Toshiba Corp Unisa -Jecs Yamaha motor co EAS101 Introduction to msC easy5- Chart 21 MSCXSOFTWARE SIRULATINE IEALITY
MSC.EASY5 EAS101 Introduction to MSC.EASY5 - Chart 21 MSC.EASY5 Customers MSC.EASY5 customers include, in part . . . Allison Engine Co. Baker Hughes Intek Boeing British Aerospace Case Company CEMOTOR-CNR Daewoo Heavy Industries Eaton Corporation Ford Motor Company Fuji Heavy Industries GEC Marconi General Dynamics General Electric General Motors Hamilton Standard Hughes Aircraft Husco International ITT Automotive John Deere Learjet, Inc. Lockheed Martin Mitsubishi Electric Corp. Murata Mfg. Co. Ltd. NASA Nissan Motor Co. Pratt & Whitney Raytheon Ricardo FFD SAAB Samsung Heavy Ind. Sikorsky Aircraft Sundstrand Aerospace Teijin Seiki Co., Ltd. Toshiba Corp. Unisa - Jecs Yamaha Motor Co
MSC.EASY5 Commercial Applications MSC EASY5 applications include, in part Transmissions Active Suspension Systems Electric Power Control Systems Anti-Lock Braking systems Hydraulic Power Systems Internal Combustion Engines Diesel Engines Electric Drive Systems Jet engines Satellite Dynamics Pneumatic Systems Heating/Air-Conditioning Systems Vapor-Compression Cycle Systems Diesel-Electric Locomotives Robotics Flight Control Systems Steel Mill Rolling Systems Nuclear power plants Hybrid vehicles Construction Machinery Agricultural Equipment Missiles EAS101 Introduction to msC eAsy5- Chart 22 MSCXSOFTWARE SIRULATINE IEALITY
MSC.EASY5 EAS101 Introduction to MSC.EASY5 - Chart 22 Commercial Applications MSC.EASY5 applications include, in part . . . Transmissions Active Suspension Systems Electric Power Control Systems Anti-Lock Braking Systems Hydraulic Power Systems Internal Combustion Engines Diesel Engines Electric Drive Systems Jet Engines Satellite Dynamics Pneumatic Systems Heating/Air-Conditioning Systems Vapor-Compression Cycle Systems Diesel-Electric Locomotives Robotics Flight Control Systems Steel Mill Rolling Systems Nuclear Power Plants Hybrid Vehicles Construction Machinery Agricultural Equipment Missiles
MSC.EASY5 Example/Demo Sim ple example to show process from start to finish Part 1-Model Building Part 2-Simulation Part 3-Analysis EAS101 Introduction to msC eAsy5- Chart 23 MSCXSOFTWARE SIRULATINE IEALITY
MSC.EASY5 EAS101 Introduction to MSC.EASY5 - Chart 23 Example/Demo • Simple example to show process from start to finish Part 1 - Model Building Part 2 - Simulation Part 3 - Analysis
Example/Demo MSC.EASY5 Model Building Process Overview Mass 2nd: Convert to Automobile engineering block F() (Ms+ f)y f shock y(, Absorber diagram Ms <+fs+K 密 3rd: translate to 1st: Define system dynamics EASY5 block diagram TE s Out TE AF S<+ Ps+ P Finally: Build MSC.EASY5 model on workstation EAS101 Introduction to MSC EASY5 -chart 24 MSCXSOFTWARE SIRULATINE IEALITY
MSC.EASY5 EAS101 Introduction to MSC.EASY5 - Chart 24 Example/Demo Model Building Process Overview 2nd: Convert to engineering block diagram. 3rd: Translate to EASY5 block diagram. 1st: Define system dynamics. Finally: Build MSC.EASY5 model on workstation. S_Out_TF TF Z1S + Z0 S 2 + P1S + P0 AF
Example/Demo MSC.EASY5 How to Represent Your Model Describe systems using Equations Transfer functions Physical devices Tables Systems are modeled/represented as a schematic block diagram MSC EAsY5 translates block diagram into: Differential equations Difference equations Algebraic equations Nonlinear system x= State vector X=f(x, u, t) where: x=Rate Vector y= g(x, u, t) u= Input vector t= Time y Output Vector EAS101 Introduction to msC easy5- Chart 25 MSCXSOFTWARE SIRULATINE IEALITY
MSC.EASY5 EAS101 Introduction to MSC.EASY5 - Chart 25 Example/Demo How to Represent Your Model • Describe systems using: – Equations – Transfer functions – Physical devices – Tables • Systems are modeled/represented as a schematic block diagram. • MSC.EASY5 translates block diagram into: – Differential equations – Difference equations – Algebraic equations • Nonlinear system: x= f(x, u, t) where: y = g(x, u, t) x = State Vector x = Rate Vector u = Input Vector t = Time y = Output Vector .