A Brief Tutorial for Cadence OrCAD PSpice Simulation
Transcript of A Brief Tutorial for Cadence OrCAD PSpice Simulation
A Brief Tutorial for
Cadence OrCAD PSpice Simulation
by Ming Zhu
Dept. of Electrical and Computer Engineering
University of Nevada Las Vegas
Introduction:
SPICE (Simulation Program with Integrated Circuit Emphasis) is a general-purpose, open
source analog electronic circuit simulator. It is a program used in integrated circuit and board-level
design to check the integrity of circuit designs and to predict circuit behavior.
OrCAD Systems Corporation was a software company that made OrCAD, a proprietary
software tool suite used primarily for electronic design automation (EDA). The software is used
mainly by electronic design engineers and electronic technicians to create electronic schematics
and electronic prints for manufacturing printed circuit boards. OrCAD was taken over by Cadence
Design Systems in 1999 and was integrated with Cadence Allegro since 2005.
OrCAD EE PSpice is a SPICE circuit simulator application for simulation and verification of
analog and mixed-signal circuits. OrCAD EE typically runs simulations for circuits defined in
OrCAD Capture, and can optionally integrate with MATLAB/Simulink, using the Simulink to
PSpice Interface (SLPS).[18] OrCAD Capture and PSpice Designer together provide a complete
circuit simuation and verification solution with schematic entry, native analog, mixed signal, and
analysis engines. PSpice was a modified version of the academically developed SPICE, and was
commercialized by MicroSim in 1984. MicroSim was purchased by OrCAD a decade later in 1998.
Environment:
Windows 7, 8 or 10. (Probably compatible with XP or Vista)
Mac OS X 10.7+
Download:
https://www.orcad.com/resources/orcad-downloads
https://www.orcad.com/orcad-academic-program (academic free version)
https://www.orcad.com/resources/download-orcad-lite (free lite version)
Simulation Step-by-Step
1. Start OrCAD Capture CIS
2. Start a new project using PSpice Analog or Mixed A/D.
Create the project name and edit the project location if necessary.
Click OK, and OK again in the following window.
3. Now you can see the following window, and most icons in tool bar are in color now.
• You can see the files and their hierarchy at left side (Arrow #1).
• Use instance in right column (Arrow #2) to edit your schematic (Arrow #3).
• Document info are listed in right bottom corner (Arrow #4).
• Use probes and advanced analysis to observe circuit performance (Arrow #5)
4. Add instances to build your circuit. A simple RC circuit is demonstrate below.
• Add and select new libraries and search for parts if necessary.
• Press “Enter” to select parts and drop it onto the schematic.
• Replace “GND” to the following symbol.
• Use “VAC” and “VSIN” as voltage source, respectively. Edit “VOFF”, “VAMPL”,
“FREQ” in “Edit Properties..” and hit “Apply”. Compare the simulation results.
5. Wire the circuit and save the design/schematic file. Run the simulation (Arrow #1).
• Biased voltage values on connection nodes may be displayed (Arrow #2).
• A PSpice netlist will be created (Arrow #3) if there are no connection errors in the
schematic.
• A “PSpice A/D (Lite)” window will pop up, to set up the simulation profile.
6. Create a new simulation profile, and inherit from an existing profile.
7. Click “OK” and hit the “Run” button in OrCAD Capture CIS for simulation again. Right
click in the black panel area and pull up the signal trace you want to observe. Place probes
on schematics if necessary.
References:
https://en.wikipedia.org/wiki/OrCAD
You can ALWAYS learn from Internet (e.g. Google, Wikipedia, Youtube, etc.)!!