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'''Welcome to EMAGWARE Wiki!''' | '''Welcome to EMAGWARE Wiki!''' | ||
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− | [[EM.Cube]] is a modular software environment for the modeling and analysis of RF system engineering problems, featuring seven different electromagnetic simulation engines. [[B2.Spice A/D]] is a comprehensive software tool for analysis and design of analog, digital and mixed-mode electronic circuits, featuring an intuitive but powerful schematic editor and a versatile device editor preloaded with thousands of passive and active devices. | + | [[EM.Cube]] is a modular software environment for the modeling and analysis of RF system engineering problems, featuring seven different electromagnetic simulation engines. Click here for [[EM.Cube | EM.Cube Documentation and Tutorial]]. |
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+ | [[B2.Spice A/D]] is a comprehensive software tool for analysis and design of analog, digital and mixed-mode electronic circuits, featuring an intuitive but powerful schematic editor and a versatile device editor preloaded with thousands of passive and active devices. Click here for [[B2.Spice_A/D | B2.Spice A/D Documentation and Tutorial]]. | ||
Revision as of 21:36, 10 June 2014
Welcome to EMAGWARE Wiki!
EMAGWARE is the software division of EMAG Technologies Inc. EMAGWARE currently offers two exciting families of simulation and design software products:
EM.Cube is a modular software environment for the modeling and analysis of RF system engineering problems, featuring seven different electromagnetic simulation engines. Click here for EM.Cube Documentation and Tutorial.
B2.Spice A/D is a comprehensive software tool for analysis and design of analog, digital and mixed-mode electronic circuits, featuring an intuitive but powerful schematic editor and a versatile device editor preloaded with thousands of passive and active devices. Click here for B2.Spice A/D Documentation and Tutorial.
Contents
EM.Cube Documentation
Below are some links to help you get started using EM.Cube. Each article listed below contains a wealth of information about a particular module, as well as technical information about the numerical techniques used by the underlying simulation engines.
- EM.CUBE: Getting Started
- CubeCAD: 3D CAD Modeling
- EM.Tempo: FDTD Module
- EM.Picasso: Planar Module
- EM.Libera: MoM3D Module
- EM.Illumina: Physical Optics Module
- EM.Terrano: Propagation Module
- EM.Ferma: Static Module
- Hybrid Modeling
- Data Visualization and Processing
- Parametric Modeling, Sweep & Optimization
EM.Cube Tutorial
Each tutorial lesson listed below walks you through the basic features of one of EM.Cube's computational modules.
- FDTD Tutorial Lesson 1 : Analyzing a Center-Fed Resonant Dipole Antenna
- FDTD Tutorial Lesson 2 : Analyzing Scattering from a Sphere
- FDTD Tutorial Lesson 3 : Modeling A Probe-Fed Microstrip Patch Antenna
- FDTD Tutorial Lesson 4 : Analyzing A Planar Microstrip Filter
B2.Spice A/D Documentation
Below are some links to help you get started using B2.Spice A/D.
- B2.Spice A/D: Getting Started
- An Overview of B2.Spice A/D Workshop
- Working with the Schematic Editor
- Analog and Mixed-Mode Circuit Simulation
- Digital Circuit Simulation
- Working with the Parts Database and Device Editor
- Working with Symbol Editor
- Working with Other Applications
B2.Spice A/D Tutorial
Below are some links to help you get started using B2.Spice A/D. Each tutorial lesson listed below walks you through the basic features of B2.Spice A/D covering many different topics. Lessons 1-4 teach you how to set up simple analog and digital circuits, perform various tests and live simulations and visualize the simulation results. In Lessons 5 and 6, you will learn how to create new parts, devices, simulation models and symbols using B2.Spice's versatile Device Editor.
- Tutorial Lesson 1 : A Simple Analog Voltage Divider Circuit
- Tutorial Lesson 2 : Time and Frequency Analysis of an RLC Filter
- Tutorial Lesson 3 : Analyzing an RTL Inverter
- Tutorial Lesson 4 : Building a Digital Three-Input And Function
- Tutorial Lesson 5 : Creating a New Part from Your Circuit
- Tutorial Lesson 6 : Creating a Parameterized Subcircuit Part
Featured Article
Hybrid Modeling using Multiple Simulation Engines Read more: Hybrid Modeling |
Most Popular Articles
- EM.Tempo - ( 1051384 views )
- EM.Cube - ( 732555 views )
- EM.Terrano - ( 649608 views )
- EM.Picasso - ( 593027 views )
- EM.Ferma - ( 539863 views )
- EM.Libera - ( 469254 views )
- EM.Illumina - ( 437632 views )
- RF.Spice A/D - ( 387550 views )