3.0 KiB
SkyLogic AeroAlign - CoG Scale Wiring
Version: 0.1.0
Date: 2026-03-11
Scope: planned CoG scale node that shares the same Master and ESP-NOW fabric
Overview
The CoG extension is based on two supports:
- front support load cell
- rear support load cell
The recommended first implementation uses:
1x ESP32-C3or1x ESP32-S32x HX7112x single-point load cellsor your existing suitable load cells
One HX711 per support keeps calibration and diagnostics simple.
Functional Model
The CoG node reports three live values to the Master:
front_weight_grear_weight_gcog_position_mm
These values already fit the shared telemetry packet used by the current Master firmware.
Recommended Electronics
| Part | Qty | Notes |
|---|---|---|
| ESP32-C3 or ESP32-S3 | 1 | same ecosystem as AeroAlign |
| HX711 amplifier | 2 | one per support |
| Load cell | 2 | typically 3 kg to 10 kg depending on model size |
| LiPo or bench supply | 1 | portable or fixed jig |
| TP4056 + regulator | optional | only for portable scale |
Wiring Strategy
HX711 #1: Front support
| HX711 pin | Connection |
|---|---|
VCC |
3V3 |
GND |
GND |
DT |
GPIO6 |
SCK |
GPIO7 |
HX711 #2: Rear support
| HX711 pin | Connection |
|---|---|
VCC |
3V3 |
GND |
GND |
DT |
GPIO8 |
SCK |
GPIO9 |
These GPIOs are recommendations for the future CoG firmware. They are not yet hard-coded in the repo.
Load Cell Wiring
Most 4-wire load cells expose:
| Wire | Meaning |
|---|---|
| Red | E+ |
| Black | E- |
| Green | A+ |
| White | A- |
Connect each load cell directly to one HX711.
Important
Wire colors are not universal. Validate your load cells with the supplier datasheet or a multimeter before soldering.
Mechanical Layout
aircraft
|
+--> front support --> load cell #1 --> HX711 #1
|
+--> rear support --> load cell #2 --> HX711 #2
The support spacing L must be known and entered into the system profile.
CoG Formula
With front support at x = 0 and rear support at x = L:
x_cog_from_front_support = rear_weight / (front_weight + rear_weight) * L
If you measure relative to the wing leading edge:
x_cog_from_leading_edge = support_offset_from_leading_edge + x_cog_from_front_support
Calibration Plan
Each support needs:
- zero / tare
- scale factor from known weight
Recommended workflow:
- tare both supports empty
- place known weight on front support only
- save front factor
- repeat for rear support
- validate with known total weight centered between supports
Current Repo Status
- shared protocol support exists in telemetry_protocol.h
- Master can already display CoG-style nodes in the existing UI
- dedicated HX711 firmware is not implemented yet
Next Firmware Target
Create a new node type, likely firmware/cog_slave, with:
- HX711 reading
- tare and scale calibration
- CoG computation
- ESP-NOW transmission using
DEVICE_TYPE_COG_SCALE