Rigid-flex PCB designs may be expensive to fabricate, but they can essentially save costs during electronic system assembly.| Sierra Circuits
Proper PCB material selection is important since it affects the electrical performance of the signal traces.| Sierra Circuits
PCB layer count estimation is a critical step to achieving design success as it directly impacts the functional capability of your board.| Sierra Circuits
Balanced copper distribution in your PCB design can be achieved by incorporating copper thieving and hatch patterns.| Sierra Circuits
When choosing HDI PCB material, consider the operating frequency, acceptable signal loss, and laser drilling compatibility.| Sierra Circuits
Learn about how thermal management techniques and thermal vias in PCB are essential to minimize heating issues and boost thermal performance.| Sierra Circuits
Laser drilling is performed to drill holes and vias on a PCB using a laser beam without compromising the board integrity.| Sierra Circuits
The IPC-2152 standard helps you optimize the current capacity, temperature rise, and width of a trace for efficient thermal management.| Sierra Circuits
Design strategies for reliable microvias include selecting laser drillable materials and adhering to IPC-T-50M and IPC-2226 standards.| Sierra Circuits
When designing humanoid robotics PCBs, use high-frequency materials and incorporate FPCs to integrate sensors.| Sierra Circuits
Drilling is the most expensive and time-consuming process in PCB manufacturing. A small fault in the drilling process leads to a great loss.| Sierra Circuits
This case study focuses on the challenges and solutions that we implemented to design complex HDI boards with stacked vias.| Sierra Circuits
When designing RF PCB vias, ensure uniform impedance and consider parasitic effects, controlled impedance, and ground via placement.| Sierra Circuits