# RemoteRig — Camera Node Hardware Design > **Version:** 0.2.0 | **Status:** Draft > **Target:** GoPro Hero 3 Black/Silver + ESP8266 + ESP32 + USB power bank ## Overview Each camera node is two ESP boards in a small case that clips to the tripod/stand. The case **does not attach to the camera** — only to the stand. Powered by a standard USB power bank. ``` ┌─────────────────┐ │ USB Power Bank │── USB ──→ GoPro (power only) │ (off-the-shelf)│── USB ──→ ESP32 + ESP8266 (shared) └─────────────────┘ │ ┌────────┴────────┐ │ Tripod Case │ ← clips to stand leg │ ┌────────────┐ │ │ │ ESP8266 │ │ ← Wi-Fi → GoPro AP (10.5.5.1) │ │ (camera) │ │ │ ├────────────┤ │ ← UART between boards │ │ ESP32 │ │ ← Wi-Fi → Travel Router │ │ (MQTT) │ │ │ └────────────┘ │ └─────────────────┘ ``` ## Bill of Materials | Item | Qty | Cost | Notes | |------|-----|------|-------| | ESP32 Dev Board | 1 | ~$5 | MQTT bridge — talks to hub | | ESP8266 D1 Mini | 1 | ~$3 | Camera bridge — talks to GoPro | | USB power bank (5000mAh+) | 1 | ~$10 | Powers both boards + GoPro | | Micro-USB cable (short) | 2 | ~$2 | Power bank → boards + GoPro | | Jumper wires F-F | 3 | ~$0.25 | UART TX/RX/GND between boards | | PETG filament | ~25g | ~$0.50 | 3D printed case | | Velcro strap (small) | 1 | ~$0.25 | Secure power bank to stand | **Total per node:** ~$21 (+ GoPro already owned) ## 3D Printed Case **Current source:** `hardware/case/tripod-case-v3.scad` **Pipeline:** `hardware/DESIGN_PIPELINE.md` Four exported prototype files: 1. **Case body** — holds both boards stacked, cable ports, rear dovetail-style receiver 2. **Case lid** — screw-on cover with ventilation 3. **Tripod clamp** — separate screw-tightened C-clamp sized around a 35mm stand/pole 4. **Full preview** — combined visualization STL only, not intended as the print job ### Print Settings - **Material:** PETG preferred for heat/outdoor use and clamp flex - **Layer:** 0.2mm | **Infill:** 20% gyroid minimum; 35%+ recommended for clamp - **Supports:** Likely yes for clamp ears / dovetail overhangs depending on slicer orientation - **Post-processing:** M3x8mm screws for lid (4x), one M3 screw + M3 nut for clamp tightening ## Wiring ``` USB Power Bank ├── USB-A → Micro-USB cable → ESP32 USB port │ (powers ESP32, shared 5V rail) │ ├── USB-A → Micro-USB cable → GoPro USB port │ (power only — no data) │ └── (ESP8266 powered via ESP32 3.3V pin, or via shared USB) UART (inside case): ESP8266 TX (GPIO1) ──→ ESP32 RX (GPIO16) ESP8266 RX (GPIO3) ←── ESP32 TX (GPIO17) ESP8266 GND ─────────── ESP32 GND ``` **Power note:** Both boards can be powered from a single USB cable if the ESP32's VIN/5V pin is bridged to the ESP8266's VIN. Alternatively, use a USB Y-splitter cable. ## Wi-Fi Topology ``` GoPro Hero 3 ──(AP @ 10.5.5.1)──→ ESP8266 (camera bridge) │ UART │ (inside case) │ Travel Router ──(AP)─────────────────→ ESP32 (MQTT bridge) (10.60.1.1) │ │ MQTT │ ▼ Pi Hub (10.60.1.56) ``` The ESP8266 and GoPro talk over Wi-Fi — **no data cable between them**. The only cable to the GoPro is USB power from the battery pack. ## Field Setup 1. **Mount GoPro** on tripod/stand 2. **Clip case** to tripod leg 3. **Connect power bank** via USB to case + GoPro 4. **Power on** — ESP32 auto-connects to travel router, ESP8266 auto-connects to GoPro 5. **Monitor** from `http://10.60.1.56:8080` ## Case Dimensions | | W × D × H (mm) | |---|---| | Case body external | ~56.8 × 42.0 × 19.2 | | Lid external | ~56.8 × 32.8 × 4.0 | | Tripod clamp | ~43.0 × 54.5 × 16.0 | | Clamp pole fit | Nominal 35mm; smaller poles TBD / may need inserts | | Total weight | TBD after prototype print |