OrCad Capture
Virtually every electronic product is constructed with one or more printed-circuit boards (PCBs). The PCBs hold the ICs and other components and implement the interconnections between them. The ideal PCB design starts with the discovery that a PCB is needed and continues through the final production boards. OrCAD Capture is the industry standard solution for designing and developing PCBs because of its intuitive schematic editing, project management, extensive compatibility, and cost effectiveness. Te main objective of this course is to learn about all the necessary steps required to create a schematic using OrCAD Capture and the essentials needed to generate a design, how to navigate the tool, run DRC checks, prep the design for netlisting, and generate BOMs.
1) Introduction to OrCAD Capture and its features.
2) Understanding the user interface and basic navigation.
3) Creating schematic symbols and placing components.
4) Making connections between components.
5) Adding annotations and values to components.
6) Performing basic simulation tasks like DC analysis.
7) Introduction to PCB layout and design considerations.
1) In-depth exploration of schematic capture techniques.
2) Creating custom component symbols and libraries.
3) Advanced simulation techniques (AC, transient, etc.).
4) Using advanced analysis tools for signal integrity and power integrity.
5) Introduction to hierarchical design for complex projects.
6) Utilizing design constraints for better control over layout.
7) Connecting schematic components to footprints for PCB design.
8) Addressing design challenges and troubleshooting common issues.
1) Complex hierarchical design strategies for large projects.
2) Advanced simulation and analysis techniques (RF, high-speed, etc.).
3) Creating and using design templates and reuse strategies.
4) Implementing design rule checks (DRC) and design for manufacturing (DFM) techniques.
5) Customizing the user interface and scripts for workflow automation.
6) Multi-board design considerations and integration.
7) Collaborative design practices and version control.
8) Optimizing designs for cost, performance, and reliability.
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