0a6b9fcc26
Endz: 1 CAN, 1 12V, origin Minor: 3 CAN, 1 12V, single wheel (CANcoder + 2 motors) Major: 6 CAN, 2 12V, heavy distribution
3.4 KiB
title, tags, type, owner, status, sources
| title | tags | type | owner | status | sources | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Canjectors — Chris's Custom CAN Bus Interconnect System |
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hardware-spec | 2890 | active |
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Canjectors — Custom CAN Bus Interconnect System
Overview
After experiencing critical CAN bus failures during competition, Chris designed the Canjector system as a robust interconnect solution for Team 2890's robot. Modeled after the SWYFT CANnect concept but with custom design work, Canjectors provide reliable CAN + power distribution at all critical connections.
The design philosophy: prevent wiring failures from killing the robot mid-match.
Key Features
- Modular CAN distribution — one board per functional zone
- Integrated termination — 120Ω resistor switchable via shunt jumper at any position
- Power LED — visual confirmation that 12V is present
- RJ45 connectors — industry standard, easy to cable, robust
- WAGO 2601 series — tool-free, reliable terminal connections
- Designed in EasyEDA — schematic dated 2026-04-09
Design Variants
Three Canjector variants. Names are printed on the physical PCBs.
All variants support configurable termination via a shunt jumper — populate the shunt to activate 120Ω termination anywhere in the chain.
| PCB Name | CAN ports | 12V outs | Role |
|---|---|---|---|
| Endz | 1 | 1 | Origin — first device in chain, PDH side |
| Minor | 3 | 1 | Mid-chain — single wheel (CANcoder + 2 motors) |
| Major | 6 | 2 | Heavy distribution — end of main runs |
Minor — Single Wheel Module
One Minor per swerve corner:
- 1 CANcoder (CTR Electronics CAN FD magnetic encoder for steering feedback)
- 2 motors (drive + steering per MK4i)
- 1 12V output for accessories
Clean single-point connection per wheel — troubleshooting localizes to one module per corner.
Connection to Training
For students: CAN bus failures are among the most frustrating problems in FRC — a loose wire or failed connector kills the whole bus. The Canjector system teaches:
- Redundancy — when one path fails, traffic routes around it
- Termination — 120Ω at each end of the bus, switchable at intermediate nodes
- Visual debugging — power LEDs let you confirm connectivity at a glance
- Modular design — if one Canjector fails, replace it in minutes
Why This Matters
Chris experienced critical CAN failures at competition. The Canjector system is a direct response — solving the failure mode with custom hardware instead of hoping the stock connectors hold. This is the kind of real-world engineering that separates good teams from great ones.
Files
| File | Description |
|---|---|
canjector-schematic.png |
Minor variant — EasyEDA schematic |
canjector-start-pcb.png |
Endz variant — PCB layout |
canjector-minor-render.png |
Minor variant — 3D render, blue PCB |
canjector-major-render.png |
Major variant — 3D render, blue PCB |
canjector-endz-render.png |
Endz variant — USB-to-CAN diagnostic |
canjectors.md |
This documentation file |
canjector-gerbers/ |
Major variant manufacturing files |
canjector-minor-gerbers/ |
Minor variant manufacturing files |
canjector-endz-gerbers/ |
Endz variant manufacturing files |