I will design high power led module pcb for arduino, raspberry pi and iot projects
About this Gig
You're driving high power LEDs with Arduino, Raspberry Pi, or an IoT controller. But instead of bright, stable light, you're fighting overheating, voltage drops, flickering under load, or boards that delaminate after 48 hours.
The real problem? Most PCB designers treat "high power" as a label not an engineering challenge. They skip thermal via calculations, undersize copper for 1A+ currents, ignore driver IC heat dissipation, or place LEDs too close without thermal relief. Result: Your prototype works once then fails in the field.
How I solve it differently: I design high power LED modules from the thermal ground up. Every decision trace width, via count, copper weight, substrate choice (FR-4 vs. MCPCB), and driver placement is calculated for your exact current, duty cycle, and ambient conditions. I engineer for reliability, not just connectivity.
My high power workflow:
1️ Thermal and electrical spec alignment (forward current, duty cycle, ambient temp, enclosure)
2️ Substrate selection guidance (FR-4 for <1W, MCPCB for 3W+, flex for curved mounts)
3️ Layout with thermal vias, copper pours, and driver IC heat spreading
Message first before placing order thanks
