Chapter 3. Guidelines / Most important - CADENAS Design Manual (CDM)
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Chapter 3. Guidelines / Most important - CADENAS Design Manual (CDM)

Table of Contents

3.1. Introduction
3.2. General rules
3.2.1. Naming of catalogs (physical name - display name)
3.2.2. Definition of the catalog company key (license key)
3.2.3. Renaming of existing catalogs
3.2.4. Use of PARTproject QA SVN
3.2.5. Folder Structure of catalog in PARTproject
3.2.6. Copy projects
3.2.7. Translation of catalog / Default column
3.2.8. Variable naming
3.2.9. Variable description
3.2.10. Preview Pictures in Folder Structure
3.2.11. Create document project
3.2.12. Pictograms in table
3.2.13. No units in table
3.2.14. Technical Previews (PRA)
3.2.15. Classification by Category / Alphabet / Country
3.2.16. Enter keywords for full text search
3.2.17. Automatic Classification of standardized Parts
3.2.18. Special labeling of catalog with icons
3.2.19. Copyright Project
3.2.20. Set Up Tag Cloud Exclusion
3.2.21. Classification according to CNSORDERNO / CNSTYPECODE
3.2.22. Verify ECAD classification
3.2.23. Release Notes
3.2.24. Materials
3.2.25. Render attributes
3.2.26. Add bevel/rounding... with the blend feature
3.2.27. Quick & Simple catalogs
3.2.28. Creative Commons license for export formats
3.3. Quality
3.3.1. Quality Demand
3.3.2. Software Training
3.3.3. Specification Workshop
3.3.4. Creation of Pilot Parts
3.3.5. Use of PARTproject QA SVN
3.3.6. Manual Test Instances
3.3.7. Standardized Check Protocols
3.3.8. Electronic Test Run (TestMeta)
3.3.9. Release by the Contractor
3.3.10. Administrative Final-Checking
3.3.11. CIP Release Check
3.3.12. Innovation Workshop
3.3.13. QA Seal
3.3.14. QA Workflow
3.4. ERP
3.4.1. Identification type
3.4.2. Check ERP mapping (Add ERP mapping... and Edit ERP mapping...)
3.4.2.1. Change of folder structure, project names and paths
3.4.2.2. Deletion of projects
3.4.2.3. Change and new creation of tables
3.4.2.4. Rename of value range variables
3.4.2.5. Change of value range contents
3.4.2.6. Value range variable with naming
3.4.2.7. Change of NBs
3.5. Modeling guideline for BIM
3.5.1. Preamble
3.5.2. General
3.5.2.1. Modeling Single Parts
3.5.2.2. Modeling Assemblies
3.5.2.3. LOG (formerly called "LOD")
3.5.2.4. Symbole
3.5.2.4.1. Datenanreicherung
3.5.2.4.2. Symbole als Anhänge
3.5.2.4.3. Symbole als weitere Ansichten
3.5.2.4.4. Klassifikation für den Export
3.5.2.4.5. CNS_DOC_CNSURI - Erläuterung
3.5.2.4.6. Verschiedene Symbole in unterschiedlichen Ansichten (nicht Standard)
3.5.2.5. Connection Points
3.5.2.6. Sample objects
3.5.2.7. Problematic geometrical structures
3.5.2.8. Classification (General)
3.5.3. Regular Bodies for VDI Models
3.5.4. Revit
3.5.4.1. Revit: Various points
3.5.4.2. Revit: Classification
3.5.4.2.1. Revit Family Template
3.5.4.2.1.1. Revit: Load IES files in RFA (lighting fixtures)
3.5.4.2.1.2. Revit: Roof window
3.5.4.2.1.2.1. Connection point
3.5.4.2.1.2.2. Classify with Revit family template
3.5.4.2.2. Placement
3.5.4.2.2.1. Visualize coordinate axes of connection point
3.5.4.2.2.2. Placement: Important rules
3.5.4.2.2.3. Orientation of connection point - Examples
3.5.4.2.2.4. Classify placement connection point
3.5.4.2.2.5. Create connection point for add-on components
3.5.4.2.3. Shared Parameters
3.5.4.2.3.1. What is the meaning of Shared Parameters in Revit?
3.5.4.2.3.2. Different mapping methods
3.5.4.2.3.3. Revit neutral Shared Parameters
3.5.4.2.3.4. VDI 3805 attributes shared parameters
3.5.4.2.3.5. FCSI attributes shared parameters
3.5.4.2.4. Classify accessory parts
3.5.4.2.5. Classify - Example
3.5.4.2.5.1. Set class and attributes
3.5.4.2.5.2. Classify placement connection point
3.5.4.2.5.3. Export for testing the classification
3.5.4.3. Revit: PARTsolutions Assembly Logic Mirrored in Nested Families
3.5.4.4. Revit: Various export modes
3.5.4.5. Export with PART4CAD BIM
3.5.4.6. Correction of the direction of the BIM connection points
3.5.5. Other CAD systems (ARCHICAD, Allplan)
3.5.5.1. ARCHICAD
3.5.5.2. Allplan
3.6. Simulation
3.6.1. General
3.6.2. Supported Systems
3.6.3. Simulation - Specification for Mechatronics Concept Designer (MCD)
3.6.3.1. Rotative and linear simulation (MCD)
3.6.3.1.1. Example for a linear simulation with a FESTO ADN compact cylinder
3.6.3.1.2. Example for a rotative simulation with an AFAG RE-50 rotary module
3.6.3.1.3. Test the simulation in the Mechatronics Concept Designer
3.6.3.2. Simulation for Sensors and Conveyor belts (MCD)
3.6.3.2.1. Conveyor belts
3.6.3.2.2. Sensors
3.6.3.3. Limits of joints (MCD)
3.7. Electrical Engineering and Electronics
3.7.1. General
3.7.2. Article data Multi CAE – Depending on product type
3.8. Plant Design
3.8.1. General
3.8.2. Supported Systems
3.8.3. Characteristics
3.9. Specification Data Supply
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Chapter 2. Create electronic product catalog - Overview Home 3.1. Introduction