Designing a PCB prototype involves defining specifications, developing the system, testing, iterating, and validating with EVT samples.| Sierra Circuits
When designing a power electronics PCB, pick high thermal conductivity materials, integrate protection devices, and adhere to IPC standards.| Sierra Circuits
PCB fabrication considerations for proper component placement are essential to improve the signal quality and performance of your device.| Sierra Circuits
Power integrity is one of the mind-boggling subjects when it comes to PCB designing. In this blog, we try to explain power integrity basics.| Sierra Circuits
The PCB layout stage includes setting up the design tool, board outline, import of netlist, component placement, routing, silkscreen cleanup, and DRC check.| Sierra Circuits
Understanding the operating range of frequencies is critical for decoupling capacitor placement to avoid EMI and EMC issues.| Sierra Circuits
EMI can be mitigated by incorporating efficient grounding techniques and optimum trace spacing. This also ensures EMC.| Sierra Circuits
To design a microwave PCB, select materials with low dielectric constant, prefer CPWs, and add board-level shielding to mitigate EMI effects.| Sierra Circuits
A PCB schematic must follow standard guidelines such as precision net labeling, and symbol standardization to have a well-structured design.| Sierra Circuits
In this KiCad tutorial, you will learn how to create a schematic and build a custom symbol library from scratch.| Sierra Circuits