PCB Component Placement Guide

Optimizing PCB Layout and Component Placement for Efficient Routing

Overview

Organizing your PCB layout properly is essential for making routing easier, reducing mistakes, and creating a reliable board. How you place your components and set up routing parameters can make a big difference, whether you're routing manually or letting an autorouter do the work for you.

If you're planning to use an autorouter, getting the placement and parameters right is even more important. A good setup helps the autorouter produce clean and efficient results, saving you time and avoiding issues later. This tutorial will guide you through the key steps to get it right.

Getting Started

This tutorial is divided into two main sections: Component Placement and Routing Parameters. Each section focuses on a critical part of preparing your PCB design for routing. Before diving in, let's go over the prerequisites and what each section covers:

Prerequisites: Before we start, make sure you have the following items finalized:
- A Completed Schematic: Your schematic design should be finalized so you can focus entirely on layout and routing
- Datasheets for Components: These will help you make informed decisions about placement and routing
Component Placement: This section focuses on the physical arrangement of components on your PCB. You'll learn practical tips to group components, prioritize critical parts, and make adjustments for an optimized layout.
Routing Parameters: Here, we'll look at the key settings that influence how your traces are routed. Parameters like trace widths, via sizes, and design rules ensures your board meets both performance and manufacturability requirements.

Component Placement

Placing components on a PCB is more than just arranging parts—it's about creating a layout that makes routing easier, minimizes errors, and ensures your board performs as intended. Proper placement lays the groundwork for clean, efficient routing, whether you're doing it manually or relying on an autorouter. Below are some key tips to help you get it right.

1. Define Board Shape and Size

Start by defining the PCB's shape and size based on mechanical constraints and enclosure requirements. This step ensures the board fits into its intended housing and accommodates mounting points. Lock the board's dimensions and critical mechanical features as a foundation for further placement. Learn more.

2. Group Components Logically

Organize components into functional blocks to simplify routing and reduce interference. For instance, group power management components together and separate them from sensitive signal-processing areas. Logical grouping creates a clear structure, making troubleshooting and future revisions easier.

3. Prioritize Key Components

Identify and place critical components first, such as microcontrollers, connectors, and high-power devices. Position these parts to align with mechanical constraints, such as connector access or cooling requirements, and then build the rest of the design around them.

4. Utilize Airwires (Ratsnest)

Leverage the airwire view in your PCB design tool to visualize electrical connections between components. This feature helps identify the optimal placement for shorter, more direct routing paths, minimizing trace crossings and improving signal integrity. Learn more.

5. Follow Manufacturer Recommendations

Refer to component datasheets for placement guidelines. This is especially important for high-speed or sensitive components like oscillators and antennas. Proper placement according to manufacturer recommendations prevents performance issues and ensures compliance with design specifications. Learn more.

You can also ask Copilot to get that information from the datasheet for you.

6. Use Alignment Tools

Alignment tools in your design software can streamline component organization. Use these features to ensure components are evenly spaced, properly oriented, and aligned with grid lines for a clean and professional layout.

7. Iterate and Review Regularly

Placement is rarely perfect on the first attempt. Revisit and adjust component positions as you progress through routing and design validation. Iteration helps accommodate new constraints and improves the overall design.

ℹ️ Copilot Tip: Need help with routing your PCB? Open the Copilot Chat Tab and ask "Can you suggest the best routing approach for these components?" Copilot can provide routing suggestions based on your design, even though it can't position components yet.

Routing Parameters Setup

Setting up your routing parameters is a critical step in the PCB design process. These parameters define how traces, vias, and other features are created, ensuring your design meets performance, manufacturability, and reliability requirements.

1. Layer Stackup Configuration

Define the layer stackup based on your design's requirements. Assign layers for specific functions, such as signal, power, and ground. This setup balances design complexity and cost while ensuring proper signal integrity and thermal performance. Learn more.

PCB Routing Tutorial - Learn how to efficiently route your PCB
Layout Rules Tutorial - Understand how to use rules to control your PCB design
Using the Toolbar - Learn how to use the toolbar for quick property modifications
Board Outline Shape Tutorial - Explore different board outline options

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