SystemVision VHDL-AMS Modeling

Duration: 2 days
Pricing: 1,300 EUR
Course Part Number: 228401

Description

The SystemVision VHDL-AMS Modeling course was developed to help you develop VHDL-AMS simulation models for your electrical and mechatronic systems. In this course, you will gain proficiency in analog, digital, mixed analog/digital (mixed-signal), and mixed-technology (multi-physics) model building. You will also learn how to simplify model development with the SystemVision Model Generation Tool, which does much of the modeling work for you. In addition, you will learn how to create and modify symbols for your models.

Detailed lab exercises help reinforce what is discussed during the lectures and provide you with extensive modeling experience under the guidance of our industry expert instructors.

You will learn how to

• Create electrical analog models
• Create electrical digital models
• Create electrical mixed-signal models
• Create mixed-technology (multi-physics) models
• Define custom models types and functions
• Define custom library packages to promote mode re-use
• Use the Model Generation Tool
• Integrate individual models into a simulatable "system model"

Hands-On Labs

Throughout this course, extensive hands-on lab exercises provide you with practical experience developing VHDL-AMS models. Hands-on lab topics include:

• Electrical Analog Modeling
• Electrical digital and mixed-signal modeling
• Mixed technology modeling
• Advanced topics: types, functions, and packages

Audience

• Engineers involved in any of the following:
• Electrical analog design/analysis
• Electrical mixed-signal design/analysis
• Mechatronics design/analysis

Prerequisites

• Basic understanding of electrical engineering principles
• SystemVision: An Introductory Training Course (or instructor approval)

Key Topics

Electrical Analog Modeling

• Resistor, capacitor, inductor
• Diode, op amp, lowpass filter

Electrical Mixed-Signal Modeling

• Buffer, inverter, clock
• Comparator, pulse-width modulator, switch

Mixed-technology Modeling

• Inertial load
• DC permanent magnet motor

Advanced Topics

• Defining custom types (add stress analysis capability to models)
• Defining custom functions (add limit checking, piece-wise linear behavior)
• Defining custom packages (make custom types/functions available to all models)