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A Review of Maxwell's Equations & Computational Electromagnetics (CEM)Advanced Tutorial Lesson 10: Designing a Digital Ramp GeneratorAdvanced Tutorial Lesson 11: Designing Sample-And-Hold Circuits
Advanced Tutorial Lesson 12: Exploring a 3-Bit A/D Converter CircuitAdvanced Tutorial Lesson 13: Exploring Digital FiltersAdvanced Tutorial Lesson 14: Fourier Analysis of Discrete-Time Sampled Signals
Advanced Tutorial Lesson 1: Exploring an Integrated Circuit Voltage ComparatorAdvanced Tutorial Lesson 2: Designing Active Sallen-Key FiltersAdvanced Tutorial Lesson 3: Investigating Audio Power Amplifiers
Advanced Tutorial Lesson 4: Designing Low & High Frequency Oscillator CircuitsAdvanced Tutorial Lesson 5: Analyzing a Balanced BJT MixerAdvanced Tutorial Lesson 6: Realizing Analog Filters With Arbitrary Transfer Functions
Advanced Tutorial Lesson 7: Building a Ripple-Carry Adder Using Reusable Digital Adder DevicesAdvanced Tutorial Lesson 8: Designing 8-bit Hexadecimal Adders With Digital Data BusesAdvanced Tutorial Lesson 9: Designing D/A Converters
An Overview of Analog and Mixed-Mode Circuit SimulationAn Overview of Digital Circuit SimulationAn Overview of RF.Spice
An Overview of RF Circuit SimulationAn Overview of System-Level Macromodeling Using Virtual BlocksAnalog Tutorial Lesson 10: Designing High Frequency BJT Colpitts Oscillators
Analog Tutorial Lesson 11: Creating a Reusable Parameterized Subcircuit DeviceAnalog Tutorial Lesson 12: Exploring Rectifier Circuits Using Ideal TransformersAnalog Tutorial Lesson 13: Analyzing the Frequency Response of Multistage BJT Amplifiers
Analog Tutorial Lesson 14: Exploring an Integrated Circuit Voltage ComparatorAnalog Tutorial Lesson 15: Analyzing a Balanced BJT MixerAnalog Tutorial Lesson 16: Investigating Audio Power Amplifiers
Analog Tutorial Lesson 1: A Simple Voltage Divider CircuitAnalog Tutorial Lesson 2: Time and Frequency Domain Analysis of an RLC FilterAnalog Tutorial Lesson 3: Analyzing a Basic Bipolar Junction Transistor Circuit
Analog Tutorial Lesson 4: Analyzing CMOS Logic CircuitsAnalog Tutorial Lesson 5: Creating a New Part from Your Analog CircuitAnalog Tutorial Lesson 6: Designing Basic Op-Amp Circuits
Analog Tutorial Lesson 7: Designing Active Sallen-Key FiltersAnalog Tutorial Lesson 7: Designing Active Sullen-Key FiltersAnalog Tutorial Lesson 8: Designing Active Higher-Order Cascaded Op-Amp Filters
Analog Tutorial Lesson 8: Designing Cascaded Active Op-Amp FiltersAnalog Tutorial Lesson 9: Designing a Wien Bridge OscillatorAnalyzing Circuits Using Predefined Tests
Analyzing Circuits Using RF.Spice A/D TestsAntenna On PlatformApplication Article: Modeling Large Structures in EM.Tempo
Application Note 1: Modeling Radar Signature Of Real-Sized Aircraft Using EM.TempoApplication Note 2: Modeling Polarimetric Wave Propagation In The Lower Manhattan Scene Using EM.TerranoApplication 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.CubeApplication Note 5: Simulating The Performance Of Installed Antennas On Vehicular Platforms Using EM.TempoB2.Spice A/D-RF.Spice
Basic Electromagnetic TheoryBasic Principles of Physical OpticsBasic Principles of SBR Ray Tracing
Basic Principles of The Finite Difference Time Domain MethodBasic Principles of The Method of MomentsBasic Tutorial Lesson 10: Building a Shift Register Using D Flip-Flops
Basic Tutorial Lesson 11: Building a Binary Counter Using JK Flip-FlopsBasic Tutorial Lesson 12: Analyzing Basic Mixed-Mode Circuits with Logic GatesBasic Tutorial Lesson 13: Creating a New Part from Your Analog Circuit
Basic Tutorial Lesson 14: Creating a Reusable Parameterized Subcircuit DeviceBasic Tutorial Lesson 1: A Simple Voltage Divider CircuitBasic Tutorial Lesson 2: Time and Frequency Domain Analysis of an RLC Filter
Basic Tutorial Lesson 3: Analyzing a Basic Bipolar Junction Transistor CircuitBasic Tutorial Lesson 4: Analyzing CMOS Logic Circuits Using MOSFET DevicesBasic Tutorial Lesson 5: Designing Basic Amplifier Circuits Using Op-Amp Devices
Basic Tutorial Lesson 6: Exploring Simple Rectifier Circuits Using Ideal TransformersBasic Tutorial Lesson 7: Analyzing the Frequency Response of Multistage BJT AmplifiersBasic Tutorial Lesson 8: Examining Basic Logic Gates
Basic Tutorial Lesson 9: Analyzing a Sequential Logic Circuit - The SR LatchBeigebag FAQ 2Building Geometrical Constructions in CubeCAD
Creating New Devices and ModelsCreating New Symbols Using Symbol EditorDefining Project Observables & Visualizing Output Data
Digital Parts ListDigital Tutorial Lesson 1: Examining Logic GatesDigital Tutorial Lesson 2: Analyzing a Sequential Logic Circuit: SR Latch
Digital Tutorial Lesson 2: Analyzing a Sequential Logic Circuit - The SR LatchDigital Tutorial Lesson 3: Building a Shift Register Using D Flip-FlopsDigital Tutorial Lesson 4: Building a Binary Counter Using JK Flip-Flops
Digital Tutorial Lesson 5: Building Reusable Digital Devices - Binary Half & Full AddersDigital Tutorial Lesson 5: Building a Reusable Digital Device: Binary Full AdderDigital Tutorial Lesson 5: Building a Reusable Digital Device - A Binary Full Adder
Digital Tutorial Lesson 5: Creating Reusable Digital Devices - Binary Half & Full AddersDigital Tutorial Lesson 6: Building a Digital Ripple-Carry AdderDigital 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 BusesEM.CubeEM.Cube Application Gallery
EM.Cube FAQEM.FermaEM.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 ChargesEM.Ferma Tutorial Lesson 2: Analyzing A Parallel Plate CapacitorEM.Ferma Tutorial Lesson 3: Examining the Magnetic Field of Lines and Solenoids
EM.Ferma Tutorial Lesson 3: Modeling Objects Immersed In A Uniform Electric FieldEM.Ferma Tutorial Lesson 4: Computing The Magnetic Field Of Linear Currents In Free Space & Magnetic MediaEM.Ferma Tutorial Lesson 4: Examining and Comparing Permanent Magnets and Solenoids
EM.Ferma Tutorial Lesson 4: Quasi-Static Analysis of a Microstrip LineEM.Ferma Tutorial Lesson 5: Modeling Solenoids & Toroidal CoilsEM.Ferma Tutorial Lesson 6: Analyzing Permanent Magnets
EM.Ferma Tutorial Lesson 7: Analyzing A Microstrip Transmission LineEM.Ferma Tutorial Lesson 8: Modeling 2D Coplanar Waveguide StructuresEM.Ferma Tutorial Lesson 8: Simulating Coaxial Cables
EM.Ferma Tutorial Lesson 9: Exploring Coplanar Waveguide Transmission LinesEM.IlluminaEM.Illumina Tutorial Lesson 1: Analyzing The Scattering From Metal Targets
EM.Illumina Tutorial Lesson 2: Computing The Radar Cross Section Of Corner ReflectorsEM.Illumina Tutorial Lesson 3: Computing The Radiation Pattern Of Parabolic Dish ReflectorsEM.Illumina Tutorial Lesson 4: Simulating Radiation In The Presence Of Large Metallic Shipboard Platforms
EM.LiberaEM.Libera Tutorial Lesson 1: Analyzing A Center-Fed Wire Dipole AntennaEM.Libera Tutorial Lesson 1: Analyzing a Center-Fed Resonant Dipole Antenna
EM.Libera Tutorial Lesson 2: Designing A Yagi-Uda Dipole ArrayEM.Libera Tutorial Lesson 2: Designing a Yagi-Uda Dipole ArrayEM.Libera Tutorial Lesson 3: Analyzing Radiation & Scattering from Curved Wires
EM.Libera Tutorial Lesson 3: Analyzing Wire AntennasEM.Libera Tutorial Lesson 3: Computing The Radar Cross Section Of Metallic, Dielectric & Composite TargetsEM.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 AntennasEM.Libera Tutorial Lesson 6: Analyzing Scattering from a Parabolic Dish ReflectorEM.Picasso
EM.Picasso In A NutshellEM.Picasso Lesson 5: Modeling Periodic Frequency Selective SurfacesEM.Picasso Tutorial Lesson 10: Optimizing A Microstrip Patch Antenna Design
EM.Picasso Tutorial Lesson 1: Analyzing A Microstrip-Fed Patch AntennaEM.Picasso Tutorial Lesson 2: Analyzing a CPW-Fed Folded Slot AntennaEM.Picasso Tutorial Lesson 2: Designing A Patch Antenna With A Recessed Feed
EM.Picasso Tutorial Lesson 3: Analyzing A Planar Microstrip Band-Stop FilterEM.Picasso Tutorial Lesson 3: Analyzing a Planar Microstrip FilterEM.Picasso Tutorial Lesson 4: Designing A Circularly Polarized Probe-Fed Patch Antenna
EM.Picasso Tutorial Lesson 5: Analyzing Patch Antenna ArraysEM.Picasso Tutorial Lesson 6: Analyzing A Periodic Frequency Selective SurfaceEM.Picasso Tutorial Lesson 7: Designing A Slot-Coupled Patch Antenna
EM.Picasso Tutorial Lesson 8: Analyzing A CPW-Fed Folded Dipole Slot AntennaEM.Picasso Tutorial Lesson 9: Designing a Microstrip Wilkinson Power DividerEM.Tempo
EM.Tempo AccelerationEM.Tempo Example Project: Fields Near a ShipEM.Tempo Project Gallery
EM.Tempo Tutorial Lesson 10: Modeling Wave Propagation In Dispersive MediaEM.Tempo Tutorial Lesson 11: A Time-Domain Study of Wave Propagation in Anisotropic MaterialsEM.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 ModelEM.Tempo Tutorial Lesson 12: Modeling Wave Propagation in Left-Handed MetamaterialsEM.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 ModelEM.Tempo Tutorial Lesson 1: Analyzing A Center-Fed Resonant Dipole AntennaEM.Tempo Tutorial Lesson 1: Analyzing a Center-Fed Resonant Dipole Antenna
EM.Tempo Tutorial Lesson 2: Analyzing Scattering From A SphereEM.Tempo Tutorial Lesson 3: Modeling A Probe-Fed Microstrip Patch AntennaEM.Tempo Tutorial Lesson 4: Modeling A Patch Antenna Array
EM.Tempo Tutorial Lesson 5: Analyzing A Planar Microstrip Band-Stop FilterEM.Tempo Tutorial Lesson 6: Modeling Rectangular Waveguide StructuresEM.Tempo Tutorial Lesson 7: Designing A Pyramidal Horn Antenna
EM.Tempo Tutorial Lesson 7: Modeling a Periodic Frequency Selective SurfaceEM.Tempo Tutorial Lesson 8: Analyzing A Periodic Frequency Selective SurfaceEM.Tempo Tutorial Lesson 9: Modeling Coplanar Waveguide Structures And Lumped Devices
EM.Tempo Tutorial Lesson 9: Modeling Wave Propagation in Left-Handed MetamaterialsEM.TerranoEM.Terrano In A Nutshell
EM.Terrano Tutorial Lesson 10: Modeling A Mobile Communications LinkEM.Terrano Tutorial Lesson 1: Analyzing A Basic Line-Of-Sight Propagation SceneEM.Terrano Tutorial Lesson 2: Examining A Polarimetric Propagation Channel
EM.Terrano Tutorial Lesson 3: Analyzing A Multipath Outdoor Propagation SceneEM.Terrano Tutorial Lesson 4: Analyzing Indoor Propagation Inside A Multi-Story Building ModelEM.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 WallsEM.Terrano Tutorial Lesson 5: Simulating A Dense Urban Canyon Propagation SceneEM.Terrano Tutorial Lesson 6: Modeling Irregular Terrain
EM.Terrano Tutorial Lesson 7: Parametric Study Of A Realistic Urban SceneEM.Terrano Tutorial Lesson 8: Simulating A Communications Link With Directional AntennasEM.Terrano Tutorial Lesson 9: A SBR Channel Analysis of An Urban Scene
EM.Terrano Tutorial Lesson 9: Modeling A Mobile Communications Link Using PythonElectrostatic & Magnetostatic Field AnalysisGetting Started with EM.Cube
Glossary of Black-Box Virtual BlocksGlossary of EM.Cube's Basic File, Edit & View OperationsGlossary of EM.Cube's CAD Tools
Glossary of EM.Cube's Materials, Sources, Devices & Other Physical Object TypesGlossary of EM.Cube's Materials & Other Physical Object TypesGlossary of EM.Cube's Observables, Data & Graph Types
Glossary of EM.Cube's Python FunctionsGlossary of EM.Cube's Simulation-Related Functions & OperationsGlossary of EM.Cube's Simulation-Related Operations
Glossary of EM.Cube's Simulation Observables & Graph TypesGlossary of EM.Cube's Sources & DevicesGlossary of EM.Cube's Standard Geometric Objects
Glossary of EM.Cube's WizardsGlossary of Generic Analog & Mixed-Mode Devices & SourcesGlossary of Generic Digital Devices
Glossary of Generic RF Devices & Physical Transmission LinesHybrid Modeling in EM.Cube Using Multiple Simulation EnginesImporting RF Device Models
Installing EM.CubeList of RF.Spice A/D Keyboard Shortcuts
List of RF.Spice A/D Toolbars, Windows & MenusList of RF.Spice Keyboard ShortcutsMain Page
MatchIndexTestMixed-Signal Tutorial Lesson 1: Analyzing Basic Mixed-Mode Circuits with Logic GatesMixed-Signal Tutorial Lesson 2: Designing D/A Converters
Mixed-Signal Tutorial Lesson 3: Designing a Digital Ramp GeneratorMixed-Signal Tutorial Lesson 4: Designing Sample-And-Hold CircuitsMixed-Signal Tutorial Lesson 4: Designing Sample-And-Hold Mixed-Mode Circuits
Mixed-Signal Tutorial Lesson 5: Exploring a 3-Bit A/D Converter CircuitModeling Finite-Sized Periodic Arrays Using NCCBF TechniqueNavigating the Visual Interface: Workshop & Toolbox
NeoScanNeoScan CompleteNeoScan Manual: 3-Channel System
NeoScan Manual Part A: Getting StartedNeoScan Manual Part B: Measurement PreparationsNeoScan Manual Part C: Near Field Mapping
NeoScan Manual Part D: Far Field Pattern MeasurementNeoScan Manual Part E: Real-Time Field MeasurementNeoScan Manual Part F: Appendix I: Translation Stage
NeoScan Manual Part G: Appendix II: TroubleshootingNeoScan ManualsNeoScan Probe Technology
NeoScan System ApplicationsNeoScan Video GalleryNeoScan for Antenna Characterization
NeoScan for Real-Time Waveform ProbingNew PO TheoryNew Tutorials
NoeScan: Product OverviewNon-Invasive Near-Field Scanning Using NeoScanNumerical Modeling of Electromagnetic Problems Using EM.Cube
OLD What's New in EM.Cube R18.1?Old Digital GlossaryOld EM.Cube Page
Old Glossary of Generic Analog, Digital and Mixed-Mode DevicesParametric Modeling & Simulation Modes in EM.CubePerforming Live Simulations with Circuit Animation or Virtual Instruments
Preparing Physical Structures for Electromagnetic SimulationPython IntegrationRF.Spice A/D
RF.Spice A/D: Getting StartedRF Tutorial Lesson 10: Analyzing a Distributed Amplifier Using an Imported RF BJT ModelRF Tutorial Lesson 11: Designing a Microstrip MESFET Amplifier
RF Tutorial Lesson 12: Time Domain Simulation of Generic RF DevicesRF Tutorial Lesson 13: Investigating RF Transmission of Digital DataRF Tutorial Lesson 14: Analyzing a Communications System Using Virtual Blocks
RF Tutorial Lesson 15: Exploring Phase-Locked LoopsRF Tutorial Lesson 16: Building Frequency Conversion Mixers With Virtual BlocksRF Tutorial Lesson 17: Simulating a Frequency-Modulated Continuous-Wave (FMCW) Radar System
RF Tutorial Lesson 1: AC Analysis of a Simple Transmission Line CircuitRF Tutorial Lesson 2: Transient Analysis of a Simple Transmission Line CircuitRF Tutorial Lesson 3: Network Analysis of a Simple Transmission Line Circuit & the Smith Chart
RF Tutorial Lesson 4: Analyzing Microstrip Lines & DiscontinuitiesRF Tutorial Lesson 5: Designing Lumped and Distributed Microstrip Lowpass FiltersRF Tutorial Lesson 6: Examining Coupled Transmission Lines
RF Tutorial Lesson 7: Designing Distributed Bandpass Filters Using Coupled Transmission Line SegmentsRF Tutorial Lesson 8: Designing a Distributed Bandpass FilterRF Tutorial Lesson 8: Designing an RF Bipolar Junction Transistor Amplifier with Lumped Matching Networks
RF Tutorial Lesson 9: Designing a Distributed RF BJT AmplifierRF Tutorial Lesson 9: Impedance Matching Using Tuning StubsRadiation Pattern Above A Half Space Medium
Reflection & Transmission Characteristics of Periodic StructuresRunning HDMR Simulations in EM.CubeRunning Live Simulations with Circuit Animation or Virtual Instruments
Running Parametric Sweeps and Monte Carlo TestsSBR MethodSchematic menu
Steady-State Thermal AnalysisSummary of View OperationsSystem-Level Tutorial Lesson 1: Investigating RF Transmission of Digital Data
System-Level Tutorial Lesson 2: Realizing Analog Filters With Arbitrary Transfer FunctionsSystem-Level Tutorial Lesson 3: Analyzing a Communications System Using Virtual BlocksSystem-Level Tutorial Lesson 4: Exploring Phase-Locked Loops
System-Level Tutorial Lesson 5: Building Frequency Conversion Mixers With Virtual BlocksSystem-Level Tutorial Lesson 6: Exploring Digital FiltersSystem-Level Tutorial Lesson 7: Simulating a Frequency-Modulated Continuous-Wave (FMCW) Radar System
System-Level Tutorial Lesson 8: Fourier Analysis of Discrete-Time Sampled SignalsTHE OLD Defining Simulation Observables & Visualizing Output DataTHE OLD Getting Started with EM.Cube
THE OLD What's New in EM.Cube 2016?The Far-Field Approximation for Radiation & Scattering ProblemsThe Old EM.Cube Wiki Start Page
The Old Version of Digital Circuit Simulation on B2.Spice SiteThe Very Old Glossary of Black-Box Analog Signal Processing Virtual BlocksThe Very Old Glossary of Black-Box Digital Signal Processing Virtual Blocks
The Very Old Glossary of Black-Box Spectral Processing & Modulation Virtual BlocksThe Very Old Glossary of Generic Analog & Mixed-Mode DevicesThe Very Old Glossary of Generic RF Devices
The Very Old Glossary of Physical Transmission Lines and ComponentsThe Very Old Glossary of Signal Sources and Waveform Generation BlocksUsing Device & System Parameters as Variables
Using Python to Create Functions, Models & ScriptsV&V Article 1: Modeling Complex Frequency Selective Surfaces Using EM.CubeV&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.PicassoV&V Article 4: Designing Wideband Dielectric Resonator Antennas Using EM.TempoV&V Article 5: Modeling Dispersive Materials Using EM.Tempo
V&V Article 6: Using EM.Cube And NeoScan System Together For Antenna DesignVisualizing Simulation Data Using Graphs and TablesWhat's New in EM.Cube 2017?
What's New in EM.Cube R18.1?What's New in EM.Cube R19.1What's New in EM.Cube R20.1?
What's New in EM.Cube R21.1?Working with Schematic EditorWorking with the Parts Database & Device Manager