Definition features for printed circuit board

Slides:

Advertisements

Similar presentations

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Lecture and laboratory.

Advertisements

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Intelligent Engineering Systems Lecture.

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Lecture and laboratory.

Course Situation and Event Driven Models for Multilevel Abstraction Based Virtual Engineering Spaces Óbuda University John von Neumann Faculty of Informatics.

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Lecture and laboratory.

Óbuda University John von Neumann Faculty of Informatics

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Lecture and laboratory.

Laboratory of Intelligent Engineering Systems Óbuda University, John von Neumann Faculty of Informatics, Institute of Applied Mathematics Before start.

Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # 6.

Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # 5.

FASTAHEAD Project- Implementation of Key Activities Modules of MSc (Advanced Design & Manufacture)- 13 Modules Developed 1.Design management and prediction;

Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # 4.

KAGIRA DRAWING SOLUTION BEST PIPING INSTITUTE IN CHENNAI.

Introduction to virtual engineering László Horváth Budapest Tech John von Neumann Faculty of Informatics Institute of Intelligent Engineering.

R NASA STEP for Aerospace Workshop at Jet Propulsion Laboratory January 27, 2000 Thomas Thurman Rockwell Collins Inc. AP 210 Foundations for Electrical-Mechanical.

Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # 2.

Section 3 SimLab Architecture. Copyright © 2010 Altair Engineering, Inc. All rights reserved.Altair Proprietary and Confidential Information SimLab Objects.

Advanced Manufacturing Laboratory Department of Industrial Engineering Sharif University of Technology Session # 1.

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Lecture and laboratory.

What is Mechatronics? Mechatronics is the synergistic combination of mechanical engineering, electronics, controls engineering, and computers, all integrated.

Crossing Disciplinary Boundaries and Forging Collaborations Networking CPATH Projects and Community Resource.

Course Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Lecture and laboratory.

In the Main Stream of Emerging Engineering University Research and Innovation Centre and Institute of Applied Mathematics, John von Neumann Faculty of.

STEP for Multi-Disciplinary Model Management: “Intelligent PDM”

AP 220: PCA Process Planning MANUFACTURING SPECIFIC PRODUCT INFORMATION PROCESS/FACTORY CHARACTERIZATION PCB Fabrication PCA Assembly Variability Characteristics.

Introduction to virtual engineering László Horváth Budapest Tech John von Neumann Faculty of Informatics Institute of Intelligent Engineering.

Introduction to virtual engineering László Horv á th Budapest Tech John von Neumann Faculty of Informatics Institute of Intelligent Engineering.

R NASA STEP for Aerospace Workshop at Jet Propulsion Laboratory January 27, 2000 Thomas Thurman Rockwell Collins Inc. PDES Inc. Electro-mechanical Pilot.

Technion - Israel Institute of Technology Faculty of Mechanical Engineering Laboratory for CAD & Lifecycle Engineering Lab 9: 3D & Projections Basics.

Introduction to virtual engineering Óbuda University John von Neumann Faculty of Informatics Institute of Intelligent Engineering Systems Lecture 2. Description.

Application of the ISO for BIM Xenia Fiorentini, Engisis.

Lecture and laboratory No. 5 Modeling of behavior of Engineering Objects. Realistic simulation Óbuda University John von Neumann Faculty of Informatics.

Laboratory No. 1 Systems for Lifecycle Management of Product Information Óbuda University John von Neumann Faculty.

ANSYS. Overview of ANSYS It is an engineering simulation software developed in 1970 by Dr. John A. Swanson It was developed to use finite element analysis.

Lecture and laboratory No. 8 Connection between real and virtual world objects Óbuda University John von Neumann Faculty of Informatics Institute of Applied.

Lecture and laboratory No. 13 Product data management and exchange Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics.

Overview of CATIA V5.

Lecture and laboratory No. 10 Modeling product as system Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Master.

MBSE Panel Integrating MBSE into a Multi-Disciplinary Engineering Environment An ELECTRICAL SYSTEM ENGINEERING Perspective Alex Jimenez Jet Propulsion.

5.1 5 Geometry for Drafting Chapter Objectives Identify geometric shapes and constructions used by drafters. Construct various geometric shapes. Solve.

Laboratory No. 2 Functionality of Engineering Modeling Systems Objects in Model Space Structure of Engineering Configuration Óbuda University John von.

Lecture and laboratory No. 3 Connections Within and Between Solid Representations Óbuda University John von Neumann.

Master’s program in mathematics

Virtual World for Engineers

1. Modeling Product as a System

Finite element mesh and load definition

Cross Disciplinary Definition

Shape Modeling by Form Features

Representation of Geometry in Model Space

Human and Computer Óbuda University

Introduction to the course

Modeling robot systems

Óbuda University John von Neumann Faculty of Informatics

Virtual engineering An outline of basic methods in virtual space

Systems for Lifecycle Management of Product Information

Analysis on the principle of finite elements (FEM/FEA)

Functionality of Engineering Modeling Systems Objects in Model Space

ME457: Mechatronic System Modeling and Simulation

Overview of CATIA V5.

Contextual connections in shape model

Processing cloud of points into curve and surface

Model data and exchange between different models. ISO

Realistic multiphysics analysis

“Procedural Solid Modeling” or

Advancing Children’s Engineering Through Desktop Manufacturing

Models of cooperating systems

Component connections

Modeling capabilities

Model of robot system Óbuda University

Presentation transcript:

Definition features for printed circuit board Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Master in Mechatronics Course CAD Systems Laboratory No. 6 Definition features for printed circuit board László Horváth http://users.nik.uni-obuda.hu/lhorvath/

László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/ This presentation is intellectual property. It is available only for students in my courses. The screen shots in tis presentation was made in the CATIA V5 and V6 PLM systems the Laboratory of Intelligent Engineering systems, in real modeling process. The CATIA V5 és V6 PLM systems operate in the above laboratory by the help of Dassult Systémes Inc. and CAD-Terv Ltd. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Program of the course 1. Systems for lifecycle management of product information 2. Functionality of engineering modeling systems. Objects in model space. Structure of engineering configuration 3. Definition of contextual engineering objects for integrated representation of engineering configurations 4. Shape centric representation. Unified representation of geometry (NURBS) and topology. 5. Representation of mechanism 6. Definition features for printed circuit board 7 Analysis on the principle of finite elements (FEM/FEA) 8. Representation of intents, experiences, and knowledge 9. Connections of virtual space with the physical world 10. Collaboration of engineers in PLM system 11. Representation of engineering configuration in RFLP structure 12. Management of models in PLM systems 13. Model data exchange between different models. ISO 13303. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Contents Mechanikai rendszer sajátosság alapú modelltérben Cross-disciplinary definition of product Definition of printed circuit board – Exercise CS 6.1 Definition of components for printed circuit board – Exercise CS 6.2 Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Cross-disciplinary definition of product Multidisciplinary product need definitions which include crossing discipline boundaries Cooperation of disciplines is required on the same product. Engineers define multidisciplinary product by cooperation of various disciplines. Printed circuit board is a typical multidisciplinary product. It needs cooperation of mechanical and electrical engineering disciplines László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Model name in the PLM model base (for propagation) CS00Sxxxx00 Course name Year 16 SemesterS or F Student name Exercise No. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of printed circuit board – Exercise CS 6.1 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of components for printed circuit board – Exercise CS 6.2 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of components for printed circuit board – Exercise CS 6.2 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition of components for printed circuit board – Exercise CS 6.2 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Placing components on printed circuit board – Exercise CS 6.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/