Full Stack Project
Naruino
A completely customizable and upgradable device with a custom SOM Carrier and software made for kids.
Full Stack
Product Design
Custom Housing
PCB Design
Machine Learning
Naruino Colors
I made Naruino completely customisable by the end user, so they can customise it to their heart's content!
System Architecture
Designing the full hardware–software stack, from SOM carrier boards and I²C module topology to power management, thermal constraints, and long-term upgradability. Naruino is built as a system, not a single device every design decision anticipates iteration, repair, and scale.
System Architecture
Designing the full hardware–software stack, from SOM carrier boards and I²C module topology to power management, thermal constraints, and long-term upgradability. Naruino is built as a system, not a single device every design decision anticipates iteration, repair, and scale.
Mechanical & Modular Design
Designed the physical module ecosystem, including magnet-assisted alignment, mechanical tolerances, and enclosure constraints for repeated user interaction. Balanced robustness, usability, and assembly considerations while ensuring the system remains easy to expand and repair.
Mechanical & Modular Design
Designed the physical module ecosystem, including magnet-assisted alignment, mechanical tolerances, and enclosure constraints for repeated user interaction. Balanced robustness, usability, and assembly considerations while ensuring the system remains easy to expand and repair.
Hardware & PCB Design
Designed custom SOM carrier boards and peripheral PCBs with attention to signal integrity, power sequencing, connector durability, and manufacturability. Worked through schematic capture, PCB layout, bring-up, debugging, and iteration with real hardware constraints in mind.
Hardware & PCB Design
Designed custom SOM carrier boards and peripheral PCBs with attention to signal integrity, power sequencing, connector durability, and manufacturability. Worked through schematic capture, PCB layout, bring-up, debugging, and iteration with real hardware constraints in mind.
Software & Embedded Integration
Developed firmware and application-level software to bridge modular hardware with a visual coding interface. Integrated I²C-based modules, input devices, and displays to create tight hardware-software feedback loops suitable for both beginners and advanced experimentation.
Software & Embedded Integration
Developed firmware and application-level software to bridge modular hardware with a visual coding interface. Integrated I²C-based modules, input devices, and displays to create tight hardware-software feedback loops suitable for both beginners and advanced experimentation.