PCB Insertion Loss Guide
July 5, 2023 - San Mateo, California - San Francisco Circuits, a popular provider
of PCB fabrication and assembly, has published a
PCB Insertion Loss Guide.
The term "Insertion loss" typically refers to the loss of signal strength as
it passes through system-level cabling / components and PCB-level traces within
high-speed (3 GHz+) systems / optical fibers and PCB stack-ups.
When designing new PCBs, it's important to mitigate loss, typically expressed
in decibels (dB), as it can lead to critical system failures if left unchecked.
San Francisco Circuits has created a new resource to assist PCB designers with the
best practices surrounding PCB Insertion loss.
The causes and contributors to insertion loss include overall transmission length,
connectors & cables, high-loss materials, and higher frequency systems. How
each affects a system overall along with tips on how to combat insertion loss are
Optimize your next PCB design by mitigating Insertion Loss with this new resource
from the PCB experts at SFC. For additional assistance with insertion loss or for
a PCB quote, contact San Francisco Circuits today!
About San Francisco Circuits
San Francisco Circuits is a provider of PCB fabrication and assembly, has a dedicated
team specializing in simple and complex PCB fabrication and assembly technologies.
They can produce elaborate and high-quality PCBs in a number of custom and common
layouts. From basic to intricate PCBs–their engineers will meet your PCB fabrication &
assembly needs. The company provides a rare balance between technical expertise
and competitive pricing. And they not only provide high-quality products but also
high-quality customer service at the same time. San Francisco Circuits has been
voted by National Television as the "world's greatest in PCBs" and has demonstrated
experience as a power player in PCB fabrication and assembly.
If you are looking to discuss PCB projects of any size or scope, feel free to
reach out to them via our website (see below).
San Francisco Circuits, Inc.
Posted July 5, 2023