Each camera node is two ESP boards in a small upright stand-mounted case. The case **does not attach to the camera**; it straps to a tripod/lighting stand with reusable cloth zip ties / Velcro straps. Powered by a standard USB power bank.
| IPEX/U.FL antenna pigtail or bulkhead lead | 1 | TBD | Left-side antenna exit opposite the USB-A port; prototype CAD assumes a 5.0 mm circular through-hole plus shallow exterior recess; measure exact pigtail/bulkhead diameter before production |
| Short USB cables / wiring | as needed | ~$2–$5 | Power bank → node USB-C input; node 5 V passthrough → USB-A female → GoPro USB cable; internal power/signal wiring |
The current v4 CAD replaces the rejected wide/low electronics-box layout with a tall appliance-style enclosure matching the original upright reference: a clean vertical body, large inset front panel, OLED near the top, open blank middle area, two long rounded lower slots, a bottom USB-C female power input, a right-side USB-A female passthrough power port for the GoPro, and a left-side IPEX/U.FL antenna pigtail/connector hole opposite the USB-A. It also replaces the v3 clamp/dovetail concept with a simpler strap-mounted field enclosure:
4.**Rear vertical zip-tie pass-through brackets** — two low-profile external brackets, one left and one right of center, with top/bottom anchor pads and long vertical side-access openings. Zip ties feed laterally in the X direction behind each raised bridge face instead of top-to-bottom, while the rear wall stays sealed.
6.**Left-side antenna exit** — prototype 5.0 mm round through-wall IPEX/U.FL antenna pigtail/connector clearance, placed opposite the right-side USB-A port at the same vertical position, with a shallow exterior circular recess for visual/exit relief. Measure the actual antenna pigtail/bulkhead before production.
`camera-node-case-v4-preview.stl` is the seated fit-check assembly. `camera-node-case-v4-front-review.stl` is a non-print review layout with the body and front panel separated/angled so the OLED, LED, rocker, USB connector, and lower-slot cutouts are obvious in a slicer.
- **Supports:** likely minimal/none depending on orientation; verify the rear lateral side-feed openings remain open and check USB-C/USB-A port cutouts in slicer.
- **Post-processing:** fit 4 lid screws; deburr OLED/LED/switch and IPEX antenna exit cutouts; clear any stringing inside the rear side-feed openings; soften strap-contact edges if the printed radius is too sharp for cloth ties.
**Power note:** exact wiring depends on the regulator/power board used. Confirm OLED voltage, LED current limiting, and whether the rocker switches USB 5 V input or a regulated node rail.
| Rear vertical zip-tie brackets | two external side-feed brackets, each ~8.5 mm wide × 50 mm tall; lateral tunnel has ~40 mm vertical side-window length × ~3.8 mm strap-thickness clearance behind the raised bridge |
These dimensions are placeholders for the first CAD prototype. Measure the actual OLED module, rocker switch, LEDs, screws, USB-C/USB-A connector flanges and body depths, USB cable bend radius, and strap width/thickness before committing to production prints.
