RFSPICE: RF Circuit Design Software

Streamlined user interface and quick schematic entry using a large set of keyboard shortcuts for generic parts and a versatile wiring tool.

More than 25,000 analog, digital and RF parts including hundreds of realistic behavioral models for resistors, inductors and capacitors.

A large selection of active device models (diode, BJTs, FETs, MOSFETs, MESFETS, operational amplifiers, etc.) with no less than six distinct MOSFET models including BSIM3 and BSIM4.

One-ports, two-ports, three-ports, four-ports, complex impedance, and other S-parameter-based devices.

Import high frequency models of capacitors, inductors, diodes, BJTs, JFETs, MOSFETs, MESFETs, from simple text files

Ten types of physical transmission line models, including microstrip, strip line, coplanar waveguide, coaxial lines, etc.

A large variety of RF generic components, such as Wilkinson power dividers, branch line and rat-race hybrid couplers, as well as physical line discontinuity models.

APPLICATIONS

Equipped with the Berkeley Spice 3F5 and Georgia Tech XSpice simulation engines and enhanced with RF multiport and transmission line models, RF.Spice can analyze a large variety of analog, digital, RF and mixed-mode circuits in both time and frequency domains.

Analyze lumped and distributed RF amplifiers, oscillators, filters and matching networks.

Import full-wave electromagnetic models of passive devices directly from EM.Cube.

Build new parts from your circuits and package them as reusable database devices or create unlimited user-defined parameterized sub circuit models

ANALOG TUTORIAL

EXPERIMENT NO. 01
 Simple Voltage Divider Circuit
EXPERIMENTNO. 02
Time and Frequency Domain Analysis of an RLC Filter

DIGITAL TUTORIAL

EXPERIMENT NO. 0
Examining Logic Gates
EXPERIMENT NO. 04
Analyzing a Sequential Logic Circuit -The SR Latch
EXPERIMENT NO. 05
Building a Shift Register Usin g D Flip-Flops

MIXED SIGNAL TUTORIAL

EXPERIMENT NO. 06
Analyzing Basic Mixed-Mode Circuits with Logic Gates
EXPERIMENT NO. 07
Designing D-A Converters
EXPERIMENT NO. 08
Designing a Digital Ramp Generator.

RF TUTORIAL

EXPERIMENT NO. 09
AC Analysis of a Simple Transmission Line Circuit
EXPERIMENT NO. 10
Transient Analysis of a Simple Transmission Line Circuit
EXPERIMENTNO. 11
TransientAnalysis of a Simple Transmission Line Circuit
EXPERIMENT NO. 12 
Analyzing Microstrip Lines & Discontinuities
EXPERIMENTNO. 13
Designing Lumped and Distributed Microstrip Lowpass Filters
EXPERIMENT NO. 14
Examining Coupled Transmission Lines
EXPERIMENTNO. 15
Designing Distributed Bandpass Filters Using Coupled Transmission Line Segments
EXPERIMENT NO. 16
Designing an RF Bipolar Junction Transistor Amplifier with Lumped Matching Networks
EXPERIMENTNO. 17
Impedance Matching Using Tuning Stubso  
EXPERIMENTNO. 18
Analyzing a Distributed Amplifier Using an Imported RF BJT Model
EXPERIMENT NO. 19
Designinga Microstrip MESFET Amplifier
EXPERIMENT NO. 20
Time Domain Simulation of Generic RF Devices