ISSUIUC/ISS-PCB
Oct 2025 – Dec 2025
3 Months active
Languages Used
KiCadKicadNoneSTEP
Technical Skills
Circuit DesignElectrical EngineeringElectronics EngineeringEmbedded SystemsKiCadPCB Design
KacperParaniuk
PROFILE
Kacperparaniuk
Kacper Ananiuk contributed to the ISSUIUC/ISS-PCB repository by designing and refining hardware modules over a three-month period, focusing on ESP32-P4 integration, CAM Receiver development, and robust PCB design. He applied skills in KiCad, 3D modeling, and schematic capture to deliver production-ready circuit blocks, improve power regulation, and enhance component management. His work included schematic completion, footprint management, and routing improvements, as well as maintaining library conventions and project organization. By addressing both feature development and bug fixes, Kacper ensured manufacturability and reliability, streamlining collaboration and reducing time-to-production through disciplined engineering and consistent documentation practices across the hardware stack.
Overall Statistics
Feature vs Bugs
92%Features
Repository Contributions
39Total
Bugs
1
Commits
39
Features
12
Lines of code
181,705
Activity Months3
Your Network
27 people
Work History
December 2025
3 Commits • 1 Features
Dec 1, 2025December 2025 — ISS-PCB: Delivered targeted PCB design improvements and CAM workflow refinements to strengthen asset organization, reduce rework, and accelerate collaboration across hardware design teams.
3 Commits • 1 Features
Dec 1, 2025December 2025 — ISS-PCB: Delivered targeted PCB design improvements and CAM workflow refinements to strengthen asset organization, reduce rework, and accelerate collaboration across hardware design teams.
December 2025
November 2025
28 Commits • 7 Features
Nov 1, 2025November 2025 ISS-PCB monthly summary for business review. Delivered ESP32-P4 module integration with new footprints and library updates, including a footprint swap to support the ESP32-P4 path. Completed schematic capture and progressed PCB design with footprint/symbol fixes and added components such as a new 5V regulator and inductors, plus a battery monitor correction for improved reliability. Implemented amplifier jumper fixes and transceiver import with better project organization, and advanced routing/schematic work with re-routing and schematic additions/fixes. Maintained strong library conventions and project hygiene, added silkscreen updates and 3D models, and completed DRC checks to ensure manufacturability. These efforts reduce risk, shorten time-to-production, and demonstrate solid technical execution across hardware design, documentation, and process governance.
November 2025
28 Commits • 7 Features
Nov 1, 2025November 2025 ISS-PCB monthly summary for business review. Delivered ESP32-P4 module integration with new footprints and library updates, including a footprint swap to support the ESP32-P4 path. Completed schematic capture and progressed PCB design with footprint/symbol fixes and added components such as a new 5V regulator and inductors, plus a battery monitor correction for improved reliability. Implemented amplifier jumper fixes and transceiver import with better project organization, and advanced routing/schematic work with re-routing and schematic additions/fixes. Maintained strong library conventions and project hygiene, added silkscreen updates and 3D models, and completed DRC checks to ensure manufacturability. These efforts reduce risk, shorten time-to-production, and demonstrate solid technical execution across hardware design, documentation, and process governance.
October 2025
8 Commits • 4 Features
Oct 1, 2025October 2025 monthly summary for ISS-PCB (ISSUIUC/ISS-PCB repository). Focused on delivering core hardware features, stabilizing power and signaling rails, and laying the groundwork for CAM Receiver development. Accomplishments emphasize design integration, cleanup/cleanup-driven refactoring, and delivering production-ready build blocks with clear business value in reliability and time-to-market.
8 Commits • 4 Features
Oct 1, 2025October 2025 monthly summary for ISS-PCB (ISSUIUC/ISS-PCB repository). Focused on delivering core hardware features, stabilizing power and signaling rails, and laying the groundwork for CAM Receiver development. Accomplishments emphasize design integration, cleanup/cleanup-driven refactoring, and delivering production-ready build blocks with clear business value in reliability and time-to-market.
October 2025
Activity
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Quality Metrics
Correctness96.0%
Maintainability92.4%
Architecture93.4%
Performance92.8%
AI Usage21.0%
Skills & Technologies
Programming Languages
KiCadKicadNoneSTEP
Technical Skills
3D ModelingCircuit DesignComponent SourcingElectrical EngineeringElectronic ComponentsElectronic Components ManagementElectronics EngineeringEmbedded SystemsFootprint ManagementGraphic DesignKiCadLibrary ManagementMechanical DesignNonePCB Design
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