Lundeen Cahilly contributed to the stanford-ssi/samwise-avionics repository by delivering a hardware-focused board revision aimed at improving sensor accuracy, power management, and manufacturing readiness. He addressed analog circuit and PCB layout issues, refining the sun sensor input mapping and correcting reference voltages to ensure reliable photodiode readings. Using KiCad and C++, Lundeen integrated a new power regulator and watchdog system, updated component libraries, and optimized trace widths and via clearances to enhance assembly yield. His work combined schematic capture, component footprint generation, and embedded systems expertise, resulting in a more robust, maintainable, and production-ready avionics hardware platform.
For 2025-08, hardware-focused month for stanford-ssi/samwise-avionics delivering stability, reliability, and manufacturing readiness. Key work combined bug fixes on sensor input paths with robust power management and a formal board revision, aligned for batch 3. Strengthened sensor accuracy and system reliability while improving production readiness and maintainability.
For 2025-08, hardware-focused month for stanford-ssi/samwise-avionics delivering stability, reliability, and manufacturing readiness. Key work combined bug fixes on sensor input paths with robust power management and a formal board revision, aligned for batch 3. Strengthened sensor accuracy and system reliability while improving production readiness and maintainability.
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