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- A Review of Maxwell's Equations & Computational Electromagnetics (CEM)
- Advanced Tutorial Lesson 10: Designing a Digital Ramp Generator
- Advanced Tutorial Lesson 11: Designing Sample-And-Hold Circuits
- Advanced Tutorial Lesson 12: Exploring a 3-Bit A/D Converter Circuit
- Advanced Tutorial Lesson 13: Exploring Digital Filters
- Advanced Tutorial Lesson 14: Fourier Analysis of Discrete-Time Sampled Signals
- Advanced Tutorial Lesson 1: Exploring an Integrated Circuit Voltage Comparator
- Advanced Tutorial Lesson 2: Designing Active Sallen-Key Filters
- Advanced Tutorial Lesson 3: Investigating Audio Power Amplifiers
- Advanced Tutorial Lesson 4: Designing Low & High Frequency Oscillator Circuits
- Advanced Tutorial Lesson 5: Analyzing a Balanced BJT Mixer
- Advanced Tutorial Lesson 6: Realizing Analog Filters With Arbitrary Transfer Functions
- Advanced Tutorial Lesson 7: Building a Ripple-Carry Adder Using Reusable Digital Adder Devices
- Advanced Tutorial Lesson 8: Designing 8-bit Hexadecimal Adders With Digital Data Buses
- Advanced Tutorial Lesson 9: Designing D/A Converters
- An Overview of Analog and Mixed-Mode Circuit Simulation
- An Overview of Digital Circuit Simulation
- An Overview of RF.Spice
- An Overview of RF Circuit Simulation
- An Overview of System-Level Macromodeling Using Virtual Blocks
- Analog Tutorial Lesson 10: Designing High Frequency BJT Colpitts Oscillators
- Analog Tutorial Lesson 11: Creating a Reusable Parameterized Subcircuit Device
- Analog Tutorial Lesson 12: Exploring Rectifier Circuits Using Ideal Transformers
- Analog Tutorial Lesson 13: Analyzing the Frequency Response of Multistage BJT Amplifiers
- Analog Tutorial Lesson 14: Exploring an Integrated Circuit Voltage Comparator
- Analog Tutorial Lesson 15: Analyzing a Balanced BJT Mixer
- Analog Tutorial Lesson 16: Investigating Audio Power Amplifiers
- Analog Tutorial Lesson 1: A Simple Voltage Divider Circuit
- Analog Tutorial Lesson 2: Time and Frequency Domain Analysis of an RLC Filter
- Analog Tutorial Lesson 3: Analyzing a Basic Bipolar Junction Transistor Circuit
- Analog Tutorial Lesson 4: Analyzing CMOS Logic Circuits
- Analog Tutorial Lesson 5: Creating a New Part from Your Analog Circuit
- Analog Tutorial Lesson 6: Designing Basic Op-Amp Circuits
- Analog Tutorial Lesson 7: Designing Active Sallen-Key Filters
- Analog Tutorial Lesson 7: Designing Active Sullen-Key Filters
- Analog Tutorial Lesson 8: Designing Active Higher-Order Cascaded Op-Amp Filters
- Analog Tutorial Lesson 8: Designing Cascaded Active Op-Amp Filters
- Analog Tutorial Lesson 9: Designing a Wien Bridge Oscillator
- Analyzing Circuits Using Predefined Tests
- Analyzing Circuits Using RF.Spice A/D Tests
- Antenna On Platform
- Application Article: Modeling Large Structures in EM.Tempo
- Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.Tempo
- Application Note 2: Modeling Polarimetric Wave Propagation In The Lower Manhattan Scene Using EM.Terrano
- Application Note 3: Designing A Slot-Coupled Patch Antenna Array With A Corporate Feed Network Using EM.Picasso
- Application Note 4: Modeling Large Parabolic Reflectors Illuminated By Pyramidal Horn Antennas Using EM.Cube
- Application Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.Tempo
- B2.Spice A/D-RF.Spice
- Basic Electromagnetic Theory
- Basic Principles of Physical Optics
- Basic Principles of SBR Ray Tracing
- Basic Principles of The Finite Difference Time Domain Method
- Basic Principles of The Method of Moments
- Basic Tutorial Lesson 10: Building a Shift Register Using D Flip-Flops
- Basic Tutorial Lesson 11: Building a Binary Counter Using JK Flip-Flops
- Basic Tutorial Lesson 12: Analyzing Basic Mixed-Mode Circuits with Logic Gates
- Basic Tutorial Lesson 13: Creating a New Part from Your Analog Circuit
- Basic Tutorial Lesson 14: Creating a Reusable Parameterized Subcircuit Device
- Basic Tutorial Lesson 1: A Simple Voltage Divider Circuit
- Basic Tutorial Lesson 2: Time and Frequency Domain Analysis of an RLC Filter
- Basic Tutorial Lesson 3: Analyzing a Basic Bipolar Junction Transistor Circuit
- Basic Tutorial Lesson 4: Analyzing CMOS Logic Circuits Using MOSFET Devices
- Basic Tutorial Lesson 5: Designing Basic Amplifier Circuits Using Op-Amp Devices
- Basic Tutorial Lesson 6: Exploring Simple Rectifier Circuits Using Ideal Transformers
- Basic Tutorial Lesson 7: Analyzing the Frequency Response of Multistage BJT Amplifiers
- Basic Tutorial Lesson 8: Examining Basic Logic Gates
- Basic Tutorial Lesson 9: Analyzing a Sequential Logic Circuit - The SR Latch
- Beigebag FAQ 2
- Building Geometrical Constructions in CubeCAD
- Creating New Devices and Models
- Creating New Symbols Using Symbol Editor
- Defining Project Observables & Visualizing Output Data
- Digital Parts List
- Digital Tutorial Lesson 1: Examining Logic Gates
- Digital Tutorial Lesson 2: Analyzing a Sequential Logic Circuit: SR Latch
- Digital Tutorial Lesson 2: Analyzing a Sequential Logic Circuit - The SR Latch
- Digital Tutorial Lesson 3: Building a Shift Register Using D Flip-Flops
- Digital Tutorial Lesson 4: Building a Binary Counter Using JK Flip-Flops
- Digital Tutorial Lesson 5: Building Reusable Digital Devices - Binary Half & Full Adders
- Digital Tutorial Lesson 5: Building a Reusable Digital Device: Binary Full Adder
- Digital Tutorial Lesson 5: Building a Reusable Digital Device - A Binary Full Adder
- Digital Tutorial Lesson 5: Creating Reusable Digital Devices - Binary Half & Full Adders
- Digital Tutorial Lesson 6: Building a Digital Ripple-Carry Adder
- Digital Tutorial Lesson 6: Building a Ripple-Carry Adder Using Your Reusable Digital Parts
- Digital Tutorial Lesson 7: Designing 8-bit Hexadecimal Adders With Digital Data Buses
- EM.Cube
- EM.Cube Application Gallery
- EM.Cube FAQ
- EM.Ferma
- EM.Ferma Tutorial Lesson 1: Calculating the Electric Field and Potential Due to Charges
- EM.Ferma Tutorial Lesson 1: Computing The Electric Field & Potential Due To Spherical Charges
- EM.Ferma Tutorial Lesson 2: Analyzing A Parallel Plate Capacitor
- EM.Ferma Tutorial Lesson 3: Examining the Magnetic Field of Lines and Solenoids
- EM.Ferma Tutorial Lesson 3: Modeling Objects Immersed In A Uniform Electric Field
- EM.Ferma Tutorial Lesson 4: Computing The Magnetic Field Of Linear Currents In Free Space & Magnetic Media
- EM.Ferma Tutorial Lesson 4: Examining and Comparing Permanent Magnets and Solenoids
- EM.Ferma Tutorial Lesson 4: Quasi-Static Analysis of a Microstrip Line
- EM.Ferma Tutorial Lesson 5: Modeling Solenoids & Toroidal Coils
- EM.Ferma Tutorial Lesson 6: Analyzing Permanent Magnets
- EM.Ferma Tutorial Lesson 7: Analyzing A Microstrip Transmission Line
- EM.Ferma Tutorial Lesson 8: Modeling 2D Coplanar Waveguide Structures
- EM.Ferma Tutorial Lesson 8: Simulating Coaxial Cables
- EM.Ferma Tutorial Lesson 9: Exploring Coplanar Waveguide Transmission Lines
- EM.Illumina
- EM.Illumina Tutorial Lesson 1: Analyzing The Scattering From Metal Targets
- EM.Illumina Tutorial Lesson 2: Computing The Radar Cross Section Of Corner Reflectors
- EM.Illumina Tutorial Lesson 3: Computing The Radiation Pattern Of Parabolic Dish Reflectors
- EM.Illumina Tutorial Lesson 4: Simulating Radiation In The Presence Of Large Metallic Shipboard Platforms
- EM.Libera
- EM.Libera Tutorial Lesson 1: Analyzing A Center-Fed Wire Dipole Antenna
- EM.Libera Tutorial Lesson 1: Analyzing a Center-Fed Resonant Dipole Antenna
- EM.Libera Tutorial Lesson 2: Designing A Yagi-Uda Dipole Array
- EM.Libera Tutorial Lesson 2: Designing a Yagi-Uda Dipole Array
- EM.Libera Tutorial Lesson 3: Analyzing Radiation & Scattering from Curved Wires
- EM.Libera Tutorial Lesson 3: Analyzing Wire Antennas
- EM.Libera Tutorial Lesson 3: Computing The Radar Cross Section Of Metallic, Dielectric & Composite Targets
- EM.Libera Tutorial Lesson 4: Analyzing Radar Cross Section of Surface and Solid Targets
- EM.Libera Tutorial Lesson 5: Modeling Radiation from Open-Ended Waveguides and Horn Antennas
- EM.Libera Tutorial Lesson 6: Analyzing Scattering from a Parabolic Dish Reflector
- EM.Picasso
- EM.Picasso In A Nutshell
- EM.Picasso Lesson 5: Modeling Periodic Frequency Selective Surfaces
- EM.Picasso Tutorial Lesson 10: Optimizing A Microstrip Patch Antenna Design
- EM.Picasso Tutorial Lesson 1: Analyzing A Microstrip-Fed Patch Antenna
- EM.Picasso Tutorial Lesson 2: Analyzing a CPW-Fed Folded Slot Antenna
- EM.Picasso Tutorial Lesson 2: Designing A Patch Antenna With A Recessed Feed
- EM.Picasso Tutorial Lesson 3: Analyzing A Planar Microstrip Band-Stop Filter
- EM.Picasso Tutorial Lesson 3: Analyzing a Planar Microstrip Filter
- EM.Picasso Tutorial Lesson 4: Designing A Circularly Polarized Probe-Fed Patch Antenna
- EM.Picasso Tutorial Lesson 5: Analyzing Patch Antenna Arrays
- EM.Picasso Tutorial Lesson 6: Analyzing A Periodic Frequency Selective Surface
- EM.Picasso Tutorial Lesson 7: Designing A Slot-Coupled Patch Antenna
- EM.Picasso Tutorial Lesson 8: Analyzing A CPW-Fed Folded Dipole Slot Antenna
- EM.Picasso Tutorial Lesson 9: Designing a Microstrip Wilkinson Power Divider
- EM.Tempo
- EM.Tempo Acceleration
- EM.Tempo Example Project: Fields Near a Ship
- EM.Tempo Project Gallery
- EM.Tempo Tutorial Lesson 10: Modeling Wave Propagation In Dispersive Media
- EM.Tempo Tutorial Lesson 11: A Time-Domain Study of Wave Propagation in Anisotropic Materials
- EM.Tempo Tutorial Lesson 11: Modeling Wave Propagation in Left-Handed Metamaterials
- EM.Tempo Tutorial Lesson 11: Simulating A Monopole Antenna Interacting With A Human Head Model
- EM.Tempo Tutorial Lesson 12: Modeling Wave Propagation in Left-Handed Metamaterials
- EM.Tempo Tutorial Lesson 13: Analyzing the Radar Cross Section of the NASA Almond Target
- EM.Tempo Tutorial Lesson 14: Simulating a Monopole Antenna Interacting with a Human Head Model
- EM.Tempo Tutorial Lesson 1: Analyzing A Center-Fed Resonant Dipole Antenna
- EM.Tempo Tutorial Lesson 1: Analyzing a Center-Fed Resonant Dipole Antenna
- EM.Tempo Tutorial Lesson 2: Analyzing Scattering From A Sphere
- EM.Tempo Tutorial Lesson 3: Modeling A Probe-Fed Microstrip Patch Antenna
- EM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array
- EM.Tempo Tutorial Lesson 5: Analyzing A Planar Microstrip Band-Stop Filter
- EM.Tempo Tutorial Lesson 6: Modeling Rectangular Waveguide Structures
- EM.Tempo Tutorial Lesson 7: Designing A Pyramidal Horn Antenna
- EM.Tempo Tutorial Lesson 7: Modeling a Periodic Frequency Selective Surface
- EM.Tempo Tutorial Lesson 8: Analyzing A Periodic Frequency Selective Surface
- EM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices
- EM.Tempo Tutorial Lesson 9: Modeling Wave Propagation in Left-Handed Metamaterials
- EM.Terrano
- EM.Terrano In A Nutshell
- EM.Terrano Tutorial Lesson 10: Modeling A Mobile Communications Link
- EM.Terrano Tutorial Lesson 1: Analyzing A Basic Line-Of-Sight Propagation Scene
- EM.Terrano Tutorial Lesson 2: Examining A Polarimetric Propagation Channel
- EM.Terrano Tutorial Lesson 3: Analyzing A Multipath Outdoor Propagation Scene
- EM.Terrano Tutorial Lesson 4: Analyzing Indoor Propagation Inside A Multi-Story Building Model
- EM.Terrano Tutorial Lesson 4: Analyzing Indoor Propagation Inside a Building Model with Penetrable Walls
- EM.Terrano Tutorial Lesson 4 Analyzing Indoor Propagation Inside a Building Model with Penetrable Walls
- EM.Terrano Tutorial Lesson 5: Simulating A Dense Urban Canyon Propagation Scene
- EM.Terrano Tutorial Lesson 6: Modeling Irregular Terrain
- EM.Terrano Tutorial Lesson 7: Parametric Study Of A Realistic Urban Scene
- EM.Terrano Tutorial Lesson 8: Simulating A Communications Link With Directional Antennas
- EM.Terrano Tutorial Lesson 9: A SBR Channel Analysis of An Urban Scene
- EM.Terrano Tutorial Lesson 9: Modeling A Mobile Communications Link Using Python
- Electrostatic & Magnetostatic Field Analysis
- Getting Started with EM.Cube
- Glossary of Black-Box Virtual Blocks
- Glossary of EM.Cube's Basic File, Edit & View Operations
- Glossary of EM.Cube's CAD Tools
- Glossary of EM.Cube's Materials, Sources, Devices & Other Physical Object Types
- Glossary of EM.Cube's Materials & Other Physical Object Types
- Glossary of EM.Cube's Observables, Data & Graph Types
- Glossary of EM.Cube's Python Functions
- Glossary of EM.Cube's Simulation-Related Functions & Operations
- Glossary of EM.Cube's Simulation-Related Operations
- Glossary of EM.Cube's Simulation Observables & Graph Types
- Glossary of EM.Cube's Sources & Devices
- Glossary of EM.Cube's Standard Geometric Objects
- Glossary of EM.Cube's Wizards
- Glossary of Generic Analog & Mixed-Mode Devices & Sources
- Glossary of Generic Digital Devices
- Glossary of Generic RF Devices & Physical Transmission Lines
- Hybrid Modeling in EM.Cube Using Multiple Simulation Engines
- Importing RF Device Models
- Installing EM.Cube
- List of RF.Spice A/D Keyboard Shortcuts
- List of RF.Spice A/D Toolbars, Windows & Menus
- List of RF.Spice Keyboard Shortcuts
- Main Page
- MatchIndexTest
- Mixed-Signal Tutorial Lesson 1: Analyzing Basic Mixed-Mode Circuits with Logic Gates
- Mixed-Signal Tutorial Lesson 2: Designing D/A Converters
- Mixed-Signal Tutorial Lesson 3: Designing a Digital Ramp Generator
- Mixed-Signal Tutorial Lesson 4: Designing Sample-And-Hold Circuits
- Mixed-Signal Tutorial Lesson 4: Designing Sample-And-Hold Mixed-Mode Circuits
- Mixed-Signal Tutorial Lesson 5: Exploring a 3-Bit A/D Converter Circuit
- Modeling Finite-Sized Periodic Arrays Using NCCBF Technique
- Navigating the Visual Interface: Workshop & Toolbox
- NeoScan
- NeoScan Complete
- NeoScan Manual Part A: Getting Started
- NeoScan Manual Part B: Measurement Preparations
- NeoScan Manual Part C: Near Field Mapping
- NeoScan Manual Part D: Far Field Pattern Measurement
- NeoScan Manual Part E: Real-Time Field Measurement
- NeoScan Manual Part F: Appendix I: Translation Stage
- NeoScan Manuals
- NeoScan Probe Technology
- NeoScan System Applications
- NeoScan Video Gallery
- NeoScan for Antenna Characterization
- NeoScan for Real-Time Waveform Probing
- New PO Theory
- New Tutorials
- NoeScan: Product Overview
- Non-Invasive Near-Field Scanning Using NeoScan
- Numerical Modeling of Electromagnetic Problems Using EM.Cube
- OLD What's New in EM.Cube R18.1?
- Old Digital Glossary
- Old EM.Cube Page
- Old Glossary of Generic Analog, Digital and Mixed-Mode Devices
- Parametric Modeling & Simulation Modes in EM.Cube
- Performing Live Simulations with Circuit Animation or Virtual Instruments
- Preparing Physical Structures for Electromagnetic Simulation
- Python Integration
- RF.Spice A/D
- RF.Spice A/D: Getting Started
- RF Tutorial Lesson 10: Analyzing a Distributed Amplifier Using an Imported RF BJT Model
- RF Tutorial Lesson 11: Designing a Microstrip MESFET Amplifier
- RF Tutorial Lesson 12: Time Domain Simulation of Generic RF Devices
- RF Tutorial Lesson 13: Investigating RF Transmission of Digital Data
- RF Tutorial Lesson 14: Analyzing a Communications System Using Virtual Blocks
- RF Tutorial Lesson 15: Exploring Phase-Locked Loops
- RF Tutorial Lesson 16: Building Frequency Conversion Mixers With Virtual Blocks
- RF Tutorial Lesson 17: Simulating a Frequency-Modulated Continuous-Wave (FMCW) Radar System
- RF Tutorial Lesson 1: AC Analysis of a Simple Transmission Line Circuit
- RF Tutorial Lesson 2: Transient Analysis of a Simple Transmission Line Circuit
- RF Tutorial Lesson 3: Network Analysis of a Simple Transmission Line Circuit & the Smith Chart
- RF Tutorial Lesson 4: Analyzing Microstrip Lines & Discontinuities
- RF Tutorial Lesson 5: Designing Lumped and Distributed Microstrip Lowpass Filters
- RF Tutorial Lesson 6: Examining Coupled Transmission Lines
- RF Tutorial Lesson 7: Designing Distributed Bandpass Filters Using Coupled Transmission Line Segments
- RF Tutorial Lesson 8: Designing a Distributed Bandpass Filter
- RF Tutorial Lesson 8: Designing an RF Bipolar Junction Transistor Amplifier with Lumped Matching Networks
- RF Tutorial Lesson 9: Designing a Distributed RF BJT Amplifier
- RF Tutorial Lesson 9: Impedance Matching Using Tuning Stubs
- Radiation Pattern Above A Half Space Medium
- Reflection & Transmission Characteristics of Periodic Structures
- Running HDMR Simulations in EM.Cube
- Running Live Simulations with Circuit Animation or Virtual Instruments
- Running Parametric Sweeps and Monte Carlo Tests
- SBR Method
- Schematic menu
- Steady-State Thermal Analysis
- Summary of View Operations
- System-Level Tutorial Lesson 1: Investigating RF Transmission of Digital Data
- System-Level Tutorial Lesson 2: Realizing Analog Filters With Arbitrary Transfer Functions
- System-Level Tutorial Lesson 3: Analyzing a Communications System Using Virtual Blocks
- System-Level Tutorial Lesson 4: Exploring Phase-Locked Loops
- System-Level Tutorial Lesson 5: Building Frequency Conversion Mixers With Virtual Blocks
- System-Level Tutorial Lesson 6: Exploring Digital Filters
- System-Level Tutorial Lesson 7: Simulating a Frequency-Modulated Continuous-Wave (FMCW) Radar System
- System-Level Tutorial Lesson 8: Fourier Analysis of Discrete-Time Sampled Signals
- THE OLD Defining Simulation Observables & Visualizing Output Data
- THE OLD Getting Started with EM.Cube
- THE OLD What's New in EM.Cube 2016?
- The Far-Field Approximation for Radiation & Scattering Problems
- The Old EM.Cube Wiki Start Page
- The Old Version of Digital Circuit Simulation on B2.Spice Site
- The Very Old Glossary of Black-Box Analog Signal Processing Virtual Blocks
- The Very Old Glossary of Black-Box Digital Signal Processing Virtual Blocks
- The Very Old Glossary of Black-Box Spectral Processing & Modulation Virtual Blocks
- The Very Old Glossary of Generic Analog & Mixed-Mode Devices
- The Very Old Glossary of Generic RF Devices
- The Very Old Glossary of Physical Transmission Lines and Components
- The Very Old Glossary of Signal Sources and Waveform Generation Blocks
- Using Device & System Parameters as Variables
- Using Python to Create Functions, Models & Scripts
- V&V Article 1: Modeling Complex Frequency Selective Surfaces Using EM.Cube
- V&V Article 2: Computing Radar Cross Section Of Metallic Targets Using EM.Cube
- V&V Article 3: Modeling Broadband And Circularly Polarized Patch Antennas Using EM.Picasso
- V&V Article 4: Designing Wideband Dielectric Resonator Antennas Using EM.Tempo
- V&V Article 5: Modeling Dispersive Materials Using EM.Tempo
- V&V Article 6: Using EM.Cube And NeoScan System Together For Antenna Design
- Visualizing Simulation Data Using Graphs and Tables
- What's New in EM.Cube 2017?
- What's New in EM.Cube R18.1?
- What's New in EM.Cube R19.1
- What's New in EM.Cube R20.1?
- What's New in EM.Cube R21.1?
- Working with Schematic Editor
- Working with the Parts Database & Device Manager