Orcad 16.6 Tutorial ✨

Before transitioning to PCB, you must ensure the schematic is correct.

With the schematic complete, Alex had to give his virtual parts a physical body. He opened the to build a custom footprint for his connector.

For power distribution and EMI reduction:

Go to Constraint Manager ( Setup > Constraints ) to define trace widths and clearances. Route: Select Route > Connect (shortcut: F3 ). orcad 16.6 tutorial

The netlist is the "data bridge" connecting the logical connectivity of the schematic to the physical copper of the PCB.

In this tutorial, we have covered the basics of OrCAD 16.6 and provided a step-by-step approach to get you started with using this software. We hope that this tutorial has been helpful in understanding the features and capabilities of OrCAD 16.6. With practice and experience, you can master the skills of designing and simulating electronic circuits using OrCAD 16.6.

Click on a component pin. Follow the rubber-band guide line toward its destination. Before transitioning to PCB, you must ensure the

(eBay/AbeBooks – 16.6 specific)

Before laying down copper tracks, arrange your components strategically: Place connectors on the edges of the board outline.

Click a component pin, drag to another pin, and click again to anchor the wire. For power distribution and EMI reduction: Go to

Click to place anchor points and change routing direction. OrCAD automatically enforces 45-degree angles by default.

Check and ensure Check duplicate/invalid RefDes is enabled.

Each component must have a valid PCB Footprint property (e.g., SOT23 , R0805 ) to transition to the layout stage. You can find manufacturer-specific models on sites like Mouser or SnapEDA. 2. Design Verification (DRC & Netlist)

The first step in any PCB design is creating the schematic—the logical blueprint of your circuit.