<< Click to Display Table of Contents >> Navigation: Designing a PCB with the DEX PCB Designer > Designs > PCB Design > PCB Design > PCB Design Rules > Minimum Traces and Spaces |
"Minimum traces and spaces" is a key parameter in PCB (Printed Circuit Board) design. They are defined as the smallest width of the copper track (trace width) and the smallest gap (space) between two tracks that can be reliably manufactured and function correctly. These specifications are largely determined by the manufacturer's capabilities, and the specifics of the design.
Here are some considerations when working with minimum traces and spaces:
Manufacturer's Capabilities
Each PCB manufacturer will have specific limitations on their manufacturing process that dictate the minimum trace widths and spaces that they can reliably fabricate. For example, a common limit for many manufacturers is 6 mil (thousandths of an inch) for both minimum trace width and minimum spacing, though more advanced manufacturers may be able to go lower.
Current Carrying Capacity
The width of a trace determines its current-carrying capacity. Wider traces can carry more current without excessive heating. This needs to be considered, especially for power supply and high-current paths.
Impedance Control
For high-frequency or impedance-controlled designs, the trace width, together with the substrate height and dielectric, determines the characteristic impedance. This is important for signal integrity in high-speed designs.
Cost Considerations
Generally, designs with smaller traces and spaces are more expensive to manufacture because they require higher precision and have a greater likelihood of errors during manufacturing.
Reliability
Boards with smaller traces and spaces may also be less reliable, as they are more susceptible to damage and manufacturing defects can have a larger impact.
Crosstalk
Smaller spaces can increase the likelihood of crosstalk (unwanted transfer of signals between communication channels), which can impact signal integrity.
Before starting a design, it's important to understand the constraints of the manufacturing process, the requirements of the design, and the trade-offs between these factors. It's often best to use the largest traces and spaces that the design and manufacturing process will allow to improve reliability and reduce cost.