Siemens NX – 2206 Electronic Design Automation Training
Siemens NX – 2206 Electronic Design Automation is a comprehensive course that offers an in-depth exploration of advanced techniques and tools for designing and automating electronic systems. Throughout this program, students will gain practical knowledge and hands-on experience in utilizing cutting-edge software and methodologies to optimize their electronic design processes.
Course Key Learnings:
- Understanding and proficiency in using Siemens NX software for electronic design automation tasks.
- Mastering schematic capture techniques to create and manage electronic circuit schematics efficiently.
- Ability to design and optimize Printed Circuit Boards (PCBs) using Siemens NX tools.
- Implementing Design Rule Check (DRC) to ensure proper design compliance and avoid manufacturing issues.
- Analyzing signal integrity in high-speed digital designs and optimizing power delivery using power integrity analysis.
- Performing thermal analysis to ensure proper heat dissipation and reliability in electronic systems.
- Utilizing simulation tools within Siemens NX for design verification and validation.
- Implementing Design for Manufacturing (DFM) and Design for Assembly (DFA) best practices for optimizing designs.
Course Content:
- NX 12 User Interface
- NX 2206 User InterfacE
- Difference Between NX 12 & NX 2206
- Use of Mouse Buttons
- Right Click Mouse Button Commands
- Selection Filter
Module2:Introduction to surface modeling processes –
- Introduction to freeform surface modeling
- Preparing to create freeform features
- Overview of freeform features
- Knowledge Check: Introduction to surface modeling processes
- Use 3D curves as construction geometry
- Create intersection and projected curves
- Projected curves
- Intersection curves
- Shadow Curves
- Review line of sight using shadow curves
- Combined projection to create a tube
- Create a tube using combined projection
- Create a transition using bridge curves
- Use bridge curves to create a transition
- Create a helix and a transition using bridge curves
- Build a contact spring
- Create offset curves
- Create 3D axial offset curves
- Create a spring using a 3D offset curve
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Create Offset in Face curves
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Create Offset in Face curves
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Create a curve on a surface
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Wrap Curves on a developable surface
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Flatten and form geometry onto a 3D face
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Form a label profile to a 3D face
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Control distortion when flattening faces
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Knowledge Check: Use 3D curves as construction geometry
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Create associative curves
Module4: Build Robust Models:
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Build robust models
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Define a template part
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Define a template part
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Create holes positioned on a bolt circle
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Using fillets in a sketch profile
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Begin a water bottle model
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Add threads to a water bottle
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Model text for a water bottle
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Combine bodies using robust techniques
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Define grip grooves for a bottle
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Combine features to complete the bottle
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Knowledge Check: Build robust models
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Add part number text to the cover
Module5: Create and Analyze High Quality Curves
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Create and analyze high quality curves
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Create and modify Studio Splines
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Constrain spline poles
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Create studio splines using points
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Create studio splines using poles
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Edit a spline
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Move poles of splines and define tangency
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Create a tube using shop measured points
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Framing raw data
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Trim curves
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Extend splines by using natural trim
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Curve Analysis
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Get information about a spline
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Knowledge check: Create and analyze high quality curves
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Evaluate spline data and create new splines using Fit Curves
Module6:Use mesh surfaces to define primary features
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Use mesh surfaces to define primary features
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Create and edit a ruled surface
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Create a developable surface
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Create a transition surface
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Through curves parameter and arc length alignment
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Through curves surface with by points orientation
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Create a ceramic water tank
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Define a Through Curve Mesh surface
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Create a housing using through curve mesh
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Create surfaces with tangent constraints
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Create N-sided surfaces to enclose adjacent freeform shapes
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Add a push-up surface to a spray bottle
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Knowledge check: Use mesh surfaces to define primary features
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Define an initial mesh surface for a motorcycle helmet
Module7:Style shapes to build sculpted surfaces
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Style shapes to build sculpted surfaces
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Create studio surfaces
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Create studio surfaces
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Define surfaces for a shaver housing
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Knowledge check: Style shapes to build sculpted surface
Module8: Sweep sections to start a design
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Define a path and create a Swept feature
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Create a compression spring
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Sweep a frame section by another curve
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Create an exhaust pipe using an area law
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Create a styled sweep surface with varying sections
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Create a styled sweep surface with varying sections
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Using variational sweep and sketch on path
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Using the swept volume command
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Model a camshaft follower path
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Knowledge check: Sweep sections to start a design
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Create primary sheets for a body panel
Module9: Build parts using exact geometry
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Using splines and bounded planes
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Use sew and thicken
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Using through curves to model sand-casted flange
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Sweep using two guides to create a fairing
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Knowledge check: Build parts using exact geometry
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Complete the gas tank for a go-kart
Module10:Overbuild surfaces to create a part
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Trim Sheet and Thicken
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Create a variable section brake lever
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Complete the hinge using sew and thicken
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Complete some geometry using Combine
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Extend a surface to a profile
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Create a cavity using an enlarged sheet
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Create a cavity using an enlarged sheet
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Modify a sheet using Local Untrim and Extend
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Snip hood surfaces
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Design a receptacle case using offset surfaces
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Adjust wall thickness using variable offset face
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Design a heat shield
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Adjust wall thickness using variable offset face
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Knowledge check: Overbuild surfaces to create a part
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Create a shoe horn using overbuilding
Module11:Define Transitional Geometry
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Build a transition using a section surface
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Create wing surfaces using Section Surfaces
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Build a transition using a section surface
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Create a bridge surface
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Create a bridge surface to finish the design of a utv hood
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Create a Face Blend
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Create face blends using constraint curves
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Create an aesthetic face blend
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Blend the shaver housing
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Simplify a corner using fill surface
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Use blend corner to create a transition surface
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Knowledge check: Define transitional geometry
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Create transition sheets for a body panel
Module12:Analyze the quality of freeform geometry
- Analyze the radius and slope of faces
- Analyze the radius and slope of faces
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Use face analysis to examine surface quality
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Check draft using slope analysis
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Check draft using slope analysis
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Local Radius Analysis
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Analyze a face to find a minimum radius
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Examine and repair model geometry
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Analyze edge deviations for sewn sheets
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Examine and repair model geometry
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Knowledge check: Analyze the quality of freeform geometry
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Analyze body panel sheets
Who this course is for:
- Mechanical Engineers
- Production Engineer
- Aerospace Engineer
- Student with no prior knowledge in any modeling software
- Beginners in Seimens NX who want to learn it quickly
International Student Fee : 300 USD |