sl-webui
71e49e1e9d
Real-time motor current visualization with: - Subscribes to /saltybot/motor_currents for dual-motor current data - Rolling 60-second history window with automatic data culling - Dual-axis line chart: * Left motor current (cyan) in Amps * Right motor current (amber) in Amps - Canvas-based rendering for performance - Thermal warning threshold line (25A, configurable): * Dashed red line overlay on chart * Configurable threshold constant for motor specs * Auto-detects thermal warnings when threshold exceeded - Real-time statistics display: * Current draw for left and right motors (real-time) * Peak current tracking over 60-second window * Average current calculation * Thermal status indicator with warning badge - Color-coded thermal alerts: * Red background when threshold exceeded * Warning indicator with icon * Left/right motor temperature monitoring - Grid overlay, axis labels, time labels, legend - Takes absolute value of currents (handles reverse direction) Integrated into TELEMETRY tab group as 'Motor Current' tab. Follows established canvas rendering patterns from BatteryChart. Co-Authored-By: Claude Haiku 4.5 <noreply@anthropic.com>
Jetson Nano — AI/SLAM Platform Setup
Self-balancing robot: Jetson Nano dev environment for ROS2 Humble + SLAM stack.
Stack
| Component | Version / Part |
|---|---|
| Platform | Jetson Nano 4GB |
| JetPack | 4.6 (L4T R32.6.1, CUDA 10.2) |
| ROS2 | Humble Hawksbill |
| DDS | CycloneDDS |
| SLAM | slam_toolbox |
| Nav | Nav2 |
| Depth camera | Intel RealSense D435i |
| LiDAR | RPLIDAR A1M8 |
| MCU bridge | STM32F722 (USB CDC @ 921600) |
Quick Start
# 1. Host setup (once, on fresh JetPack 4.6)
sudo bash scripts/setup-jetson.sh
# 2. Build Docker image
bash scripts/build-and-run.sh build
# 3. Start full stack
bash scripts/build-and-run.sh up
# 4. Open ROS2 shell
bash scripts/build-and-run.sh shell
Docs
docs/pinout.md— GPIO/I2C/UART pinout for all peripheralsdocs/power-budget.md— 10W power envelope analysis
Files
jetson/
├── Dockerfile # L4T base + ROS2 Humble + SLAM packages
├── docker-compose.yml # Multi-service stack (ROS2, RPLIDAR, D435i, STM32)
├── README.md # This file
├── docs/
│ ├── pinout.md # GPIO/I2C/UART pinout reference
│ └── power-budget.md # Power budget analysis (10W envelope)
└── scripts/
├── entrypoint.sh # Docker container entrypoint
├── setup-jetson.sh # Host setup (udev, Docker, nvpmodel)
└── build-and-run.sh # Build/run helper
Power Budget (Summary)
| Scenario | Total |
|---|---|
| Idle | 2.9W |
| Nominal (SLAM active) | ~10.2W |
| Peak | 15.4W |
Target: 10W (MAXN nvpmodel). Use RPLIDAR standby + 640p D435i for compliance.
See docs/power-budget.md for full analysis.