Entlar Training / Projects

Projects

Real hardware. Real firmware. Real builds — by Entlar Training students and the Entlar engineering team. The showcase will be published after the first cohort completes in Q3 2026.

Join the first cohort → View R&D research areas

What gets built here

Three categories of engineering work — cohort capstones, in-house R&D, and the student showcase.

Capstone Projects

Every Entlar cohort ends with a mandatory capstone project. These are real hardware or firmware builds — not simulations or theory exercises. Capstone projects are evaluated by the Entlar engineering team and form the basis of your portfolio.

01 BLDC motor controller with FOC on STM32 — PCB designed, assembled, and tested
02 6-layer motor controller PCB — impedance-controlled layout, DFM validated
03 FreeRTOS-based embedded system with CAN 2.0B communication stack
04 AMR navigation firmware with sensor fusion and ROS2 interface
05 EV BMS prototype with cell balancing and CAN telemetry

R&D Lab Projects

Ongoing engineering work from the Entlar in-house R&D team. These are real product development efforts — not demos. Documentation and build logs from these projects will be published as Entlar Research logs.

01 High-efficiency 3-phase BLDC motor controller for industrial robotics
02 Compact 6-axis servo amplifier for collaborative robot arms
03 Multi-chemistry BMS for EV and stationary storage applications
04 Low-latency embedded vision pipeline for AMR obstacle detection
05 Open-spec motor controller reference design for hardware product developers

Student Showcase

Outstanding work from Entlar Training graduates. Projects selected for the showcase represent the top 10–15% of each cohort based on engineering depth, documentation quality, and hardware performance.

01 First cohort showcase will be published after July 2026 cohort completion
02 Projects will include GitHub source, schematics, build documentation, and test results
03 Top showcase projects are fast-tracked into the Entlar internship pipeline

Project standards at Entlar Training

Real hardware

All capstone projects involve physical PCB assembly, component sourcing, bring-up, and validation. No breadboard simulations.

Documented builds

Projects must include a build log documenting design choices, failures, debug methods, and test results.

Open source firmware

All firmware submitted as capstone work is hosted on GitHub. Code quality, comments, and architecture are reviewed.

Peer review

Cohort participants review each other's schematics and code as part of the program. This is deliberate.