Orcad 16.6 Tutorial !free! Here

Before transferring your schematic lines into physical board shapes, you must bridge the gap between logical symbols and physical packages. Assigning PCB Footprints

This tutorial has demonstrated the fundamental workflow for OrCAD PCB Designer 16.6, from initial schematic capture in Capture CIS to final Gerber output in PCB Editor. Mastering the DRC cycle, netlist transfer, and dynamic shape management is essential for reliable PCB design. While newer versions (17.x, 22.x) exist, OrCAD 16.6 remains a stable, resource-efficient platform for learning professional EDA practices.

: Use Tools > Annotate to automatically assign unique reference designators (e.g., R1, C1, U1). 2. Creating Footprints and Padstacks orcad 16.6 tutorial

: Components need a physical "footprint." Standard footprints are stored in C:\OrCAD 16.6\share\pcb\pcb_lib\symbols Padstack Design : For custom components, use the Pad Designer

The PSpice A/D environment will launch in a new window, displaying graphical plots corresponding to your probe placements. You can use the tool within PSpice to pinpoint exact peak values and frequency response cutoffs. Section 4: Preparing for PCB Layout Before transferring your schematic lines into physical board

For power distribution and EMI reduction:

Select . Define safe minimum clear distances between lines, pads, and copper shapes to prevent manufacturing shorts. Routing Your Board While newer versions (17

Every component needs a unique reference designator (e.g., R1, C1) and a specific value.

Click the green arrow icon or select PSpice > Run .

: OrCAD 16.6 includes PSpice for advanced circuit analysis, including transient, AC, and DC sweeps.