Day 1

• Module 1 - Overview of the SIMPLIS Environment
  • 1.0 SIMPLIS Basics
    • 1.0.1 SIMPLIS is a Time-Domain Simulator, all the Time, for Every Analysis, Period
    • 1.0.2 PWL Simulation and Modeling
    • 1.0.3 Multi-Level Modeling
    • 1.0.4 Accuracy of PWL Models
    • 1.0.5 POP and AC Analysis
  • 1.1 Introduction to DVM: What is DVM?
• Module 2 - Advanced SIMPLIS
  • 2.0 Transient Analysis Settings
  • 2.1 Initial Conditions and Back Annotation
    • 2.1.1 The dot INIT File
    • 2.1.2 Back Annotating a Schematic
  • 2.2 How the Periodic Operating Point (POP) Analysis Really Works
    • 2.2.1 Overview of the POP Analysis
    • 2.2.2 The Core POP Process
    • 2.2.3 POP Syntax Errors
    • 2.2.4 Circuits Which Cause POP to fail
  • 2.3 Managing Simulation Data

Day 2

• Module 3 - Getting Ready to Model
  • 3.0 A Look under the SIMPLIS Hood
    • 3.0.1 What Happens When you Press F9
    • 3.0.2 What Actual Device is Simulated in SIMPLIS
  • 3.1 SIMPLIS Multi-Step Analysis
  • 3.2 SIMPLIS Monte Carlo Analysis
  • 3.3 Loading a Schematic with Component Values
• Module 4 - Introduction to Modeling
  • 4.0 What is a Symbol?
  • 4.1 What is a Model?
  • 4.2 What is a Schematic Component file?
  • 4.3 What is a Device?
  • 4.4 Protecting Your Intellectual Property - Model Encryption
  • 4.5 Debugging Slow Simulations
• Module 5 - Parameterization
  • 5.0 About Parameters
  • 5.1 Passing Parameters into Subcircuits

Day 3

• Module 5 - Parameterization
  • 5.2 Parameter-Editing Dialogs
    • 5.2.1 Adding Basic Parameter-Editing Dialogs
    • 5.2.2 Adding Tabbed Parameter-Editing Dialogs
• Applications
  • Magnetics Design Modules (MDM) Applications
  • Application D - Design Verification Module (DVM) Applications
  • Application B - Switching Losses and Measuring Efficiency