Difference between revisions of "RF.Spice A/D"

Revision as of 19:38, 3 August 2015

Welcome to RF.Spice A/D Wiki!

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
• 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
• Running Live Simulations with Circuit Animation
• Analyzing Circuits Using Predefined Tests
• Visualizing Simulation Data Using Graphs and Tables
• Running Parametric Sweeps and Monte Carlo Tests
• Working with the Parts Database & Device Manager
• Creating New Symbols Using Symbol Editor
• Working with Other Applications

Lists & Glassories

• 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
• 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. 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 RF.Spice's versatile Device Editor.

• RF.Spice A/D Tutorial Lesson 1: A Simple Analog Voltage Divider Circuit
• RF.Spice A/D Tutorial Lesson 2: Time and Frequency Analysis of an RLC Filter
• RF.Spice A/D Tutorial Lesson 3: Analyzing a Bipolar Junction Transistor (BJT) Circuit
• RF.Spice A/D Tutorial Lesson 4: Designing Op-Amp Amplifiers
• RF.Spice A/D Tutorial Lesson 5: Building a Three-Input Digital AND Function
• RF.Spice A/D Tutorial Lesson 6: Analyzing CMOS Logic Circuits
• RF.Spice A/D Tutorial Lesson 7: Exploring Flip-Flops and Sequential Logic Circuits
• RF.Spice A/D Tutorial Lesson 8: A Simple Transmission Line Circuit
• RF.Spice A/D Tutorial Lesson 9: Network Analysis and Smith Chart
• RF.Spice A/D Tutorial Lesson 10: Analyzing Microstrip Lines, Discontinuities and Filters
• RF.Spice A/D Tutorial Lesson 11: Creating a New Part from Your Circuit
• RF.Spice A/D Tutorial Lesson 12: Creating a Parameterized Subcircuit Part
• RF.Spice A/D Tutorial Lesson 13: Building Your Own Reusable Binary Adder Digital Devices

• RF.Spice A/D Tutorial Lesson 5 : Creating a New Part from Your Circuit
• RF.Spice A/D Tutorial Lesson 6 : Creating a Parameterized Subcircuit Part
• RF.Spice A/D Tutorial Lesson 9 : Building Your Own Reusable Binary Adder Digital Devices
• RF.Spice A/D Tutorial Lesson 10 : Analyzing an Integrated Circuit Voltage Comparator
• RF.Spice A/D Tutorial Lesson 12 : Designing Active Filters Using Op-Amps
• RF.Spice A/D Tutorial Lesson 13 : Designing Low and High Frequency Oscillator Circuits
• RF.Spice A/D Tutorial Lesson 14 : Building Mixed-Mode Circuits and D/A Converters
• RF.Spice A/D Tutorial Lesson 15 : Using Switches to Build Sample-And-Hold Mixed-Mode Circuits

• RF.Spice Tutorial Lesson 3 : Impedance Matching Using Tuning Stubs
• RF.Spice Tutorial Lesson 5 : Designing a Distributed Bandpass Filter Using Coupled Lines
• RF.Spice Tutorial Lesson 6 : Designing a BJT RF Amplifier with Lumped Elements
• RF.Spice Tutorial Lesson 7 : Analyzing Distributed Amplifiers With Imported BJT & FET Models
• RF.Spice Tutorial Lesson 8 : Time Domain Simulation of RF Components and Circuits
• RF.Spice Tutorial Lesson 9 : Analyzing a Communications System Using Virtual Blocks

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