After completing the schematic and generating a netlist, you move to PCB layout using (also known as Allegro).
for unique or modern chips.
Type the exact case-sensitive name of the Allegro footprint (e.g., RES_0805 , DIP14 ). 3. Step 2: Preparing the Schematic for Layout orcad 16.6 tutorial
user wants a long, comprehensive article about OrCAD 16.6 tutorial. I need to cover installation, schematic design with Capture, PCB layout with PCB Editor, PSpice simulation, and maybe advanced features like constraints or differential pairs. I should also include tips and troubleshooting. To get a good range of sources, I'll search for tutorials covering different aspects. I'll search for general tutorials, beginner guides, Capture tutorials, PCB Editor tutorials, PSpice tutorials, and resources for advanced features and troubleshooting. search results have provided a variety of links. I'll open several that seem most relevant and comprehensive for a tutorial. These include results 0, 3, 4, 5, and 8 from the first search, results 2 and 5 from the second search, results 0 and 4 from the third search, results 3, 6, and 0 from the fourth search, results 0, 8, and 7 from the fifth search, and results 2 and 4 from the sixth search. sources provide a good foundation. I'll structure the article with an introduction, chapters on getting started with installation and interface, schematic design, PCB layout, PSpice simulation, advanced features like constraints and differential pairs, and a FAQ section. I'll cite relevant sources throughout. Comprehensive OrCAD 16.6 Tutorial: A Step-by-Step Guide
The DRC scans your schematic for electrical errors like floating pins or shorted power lines. Select your project folder name. Go to > Design Rules Check . Check Check electrical rules and Check physical rules . After completing the schematic and generating a netlist,
Double-click the part name, move your mouse to the canvas, and click to place it. Press to stop placing. Wiring and Connections
OrCAD 16.6 Tutorial: Comprehensive User Guide OrCAD 16.6 is a vintage yet robust suite for electronic design automation (EDA), primarily used by engineers to create schematics and design printed circuit boards (PCBs). This report outlines the core workflow for OrCAD Capture (schematic) and OrCAD PCB Editor (layout). 1. Schematic Capture (OrCAD Capture) I should also include tips and troubleshooting
To create a schematic diagram, follow these steps: