Difference between revisions of "RF.Spice A/D"
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* [[Analog Tutorial Lesson 7: Designing Active Sullen-Key Filters]] | * [[Analog Tutorial Lesson 7: Designing Active Sullen-Key Filters]] | ||
* [[Analog Tutorial Lesson 8: Designing Cascaded Active Op-Amp Filters]] | * [[Analog Tutorial Lesson 8: Designing Cascaded Active Op-Amp Filters]] | ||
+ | * [[Analog Tutorial Lesson 8: Designing Active Higher-Order Cascaded Op-Amp Filters]] | ||
* [[Analog Tutorial Lesson 9: Designing a Wien Bridge Oscillator]] | * [[Analog Tutorial Lesson 9: Designing a Wien Bridge Oscillator]] | ||
* [[Analog Tutorial Lesson 10: Designing High Frequency BJT Colpitts Oscillators]] | * [[Analog Tutorial Lesson 10: Designing High Frequency BJT Colpitts Oscillators]] |
Revision as of 13:57, 5 September 2015
Welcome to RF.Spice A/D Wiki!
Notice to Our Valued B2.Spice A/D Users: EMAG Technologies Inc. proudly announces the completion of transition from our popular B2.Spice A/D product to RF.Spice A/D, our new comprehensive visual software environment for analog, digital, RF and mixed-signal circuit and system simulation. We highy encourage our B2.Spice A/D customers to upgrade to RF.Spice A/D R15 and enjoy a wealth of new exciting features and powerful simulation capabilities. However, we will continue to support and offer B2.Spice A/D to the public as a very affordable "Lite Edition" of RF.Spice A/D. Please note that the online documentation and tutorial lessons of the two products have now been consolidated. |
Click here to check out the Differences Between RF.Spice A/D and B2.Spice A/D.
RF.Spice A/D Manual
Below are some links to help you get started using RF.Spice A/D:
- RF.Spice A/D: Getting Started
- Navigating the Visual Interface: Workshop & Toolbox
- Working with Schematic Editor
- An Overview of Analog and Mixed-Mode Circuit Simulation
- An Overview of Digital Circuit Simulation
- An Overview of RF Circuit Simulation
- An Overview of System-Level Macromodeling Using Virtual Blocks
- Running Live Simulations with Circuit Animation
- Analyzing Circuits Using Predefined Tests
- Using Virtual Instruments
- Visualizing Simulation Data Using Graphs and Tables
- Running Parametric Sweeps and Monte Carlo Tests
- Working with the Parts Database & Device Manager
- Using Device Manager to Create New Devices and Models
- Creating New Symbols Using Symbol Editor
- Working with Other Applications
Lists
- List of RF.Spice A/D Toolbars, Windows & Menus
- List of RF.Spice A/D Keyboard Shortcuts
- List of SPICE Simulation Parameters
- List of Digital Device Parts
- List of Physical Transmission Line Types
- List of Standard Imported RF Devices
- List of Standard Device Symbols & Their Pins
Parts Glossaries
- Glossary of Signal Sources
- Glossary of Markers and Meters
- Glossary of Generic Analog Devices
- Glossary of Generic Digital and Mixed-Mode Devices
- Glossary of Black-Box Blocks
- Glossary of Generic RF Devices
- Glossary of Physical Transmission Lines and Components
RF.Spice A/D Tutorial
Each tutorial lesson listed below walks you through the basic features of RF.Spice A/D covering many different topics.
Analog Tutorial Lessons
- 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 Sullen-Key Filters
- Analog Tutorial Lesson 8: Designing Cascaded Active Op-Amp Filters
- Analog Tutorial Lesson 8: Designing Active Higher-Order Cascaded Op-Amp Filters
- Analog Tutorial Lesson 9: Designing a Wien Bridge Oscillator
- Analog Tutorial Lesson 10: Designing High Frequency BJT Colpitts Oscillators
- Analog Tutorial Lesson 11: Creating a Reusable Parameterized Subcircuit Device
- Analog Tutorial Lesson 12: Analyzing an Integrated Circuit Voltage Comparator
Digital Tutorial Lessons
- Digital Tutorial Lesson 1: Examining Logic Gates
- Digital Tutorial Lesson 2: Analyzing a Sequential Logic Circuit: 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 a Reusable Digital Device: Binary Full Adder
- Digital Tutorial Lesson 6: Building a Digital Ripple-Carry Adder
RF Tutorial Lessons
- 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: Impedance Matching Using Tuning Stubs
- RF Tutorial Lesson 7: Examining Coupled Transmission Lines
- RF Tutorial Lesson 8: Designing a Distributed Bandpass Filter
- RF Tutorial Lesson 9: Designing an RF Bipolar Junction Transistor Amplifier
- 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: Transient Analysis of Generic RF Devices
Mixed-Signal Tutorial Lessons
- Mixed-Signal Tutorial Lesson 1: Analyzing a Basic Mixed-Mode Circuit Using Logic Gates
- Mixed-Signal Tutorial Lesson 2: Designing D/A Converters
- Mixed-Signal Tutorial Lesson 3: Designing a Digital Sawtooth Wave Generator
- Mixed-Signal Tutorial Lesson 4: Designing Sample-And-Hold Circuits
- Mixed-Signal Tutorial Lesson 5: Investigating RF Transmission of Digital Data
System-Level Tutorial Lessons
Please note that Tutorial Lessons 8, 9, 10, 16, 17, 18, 19, 23 and 24 are not intended for B2.Spice A/D users, who run the "Lite Edition" of RF.Spice A/D.