Creating a schematic diagram is a way for an engineer to quickly document the elements of a complex circuit in a way which can be easily read and understood. It allows the engineer to quickly document the elements of a complex circuit in a way that is easy-to-read and understand. A properly captured schematic helps the PCB design process by hierarchically organizing the electrical areas of the evolving PCB design.
Layout must be performed by someone who understands industry standards for design and manufacturing as well...
Most Recent Flipbooks
In this ebook, we will discuss important techniques to identify problems early on, rather than later in the design cycle when placing it onto the breadboard.
Modern PCB design tools and practices have been developed to ensure MCAD/ECAD can stay in sync. This e-book will discuss how your design's function can be defined alongside it's form to ensure success
Your car keys wirelessly unlock your car when you get near it. Your phone connects to Air Pods while you listen to Spotify at the gym or stream the latest hit TV show.
Achieving routing closure can be one of the most difficult tasks in the PCB design process. Signals require special (often conflicting) considerations.
Power Integrity analysis is more important than ever. Product trends continue to demand reduced form factor, while requiring even more power to support our always-on, always-connected lives.
BOM denied. Redesign required. Dreaded words to any engineering team. Fortunately, it doesn’t have to be this way.
Flex PCB design has many advantages. Along with those benefits come new design challenges that weren’t present in “standard” 2D PCBs.
Every day is a busy for PCB Designers; strict schedules and tight deadlines are a normal occurrence. From layout to manufacture and testing, a single holdup can...
Creating a printed circuit board with high-speed design functionality is no small feat. The more complex a PCB design becomes, the higher the chances are of running into high-speed PCB design issues.
Thoroughly analyzing and testing electromagnetic effects of high-speed PCB interconnects as well as component packages for optimal signal integrity performance is essential to create...
Layout must be performed by someone who understands industry standards for design and manufacturing as well as the depth of knowledge required for incorporating design for excellence.
DFT allows capability for testing which includes component connectivity, electrical value, and proper component orientation.
Communication with many stakeholders is a critical part of the design process and an important responsibility of the EE/PCB Designer.
There is an unspoken “rule” in the industry which states power pins need to be placed at the top edge and ground pins at the bottom edge. This is an archaic rule.
PCB design data is a critical area to improve engineering efficiency while meeting new product cost and quality target.
Design methodology in performing tests and simulation in parallel with development activities