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# FilaMan Wiki - English
## Table of Contents
1. [Overview](#overview)
2. [Installation](#installation)
3. [Hardware Requirements](#hardware-requirements)
4. [Initial Setup](#initial-setup)
5. [Configuration](#configuration)
6. [Usage](#usage)
7. [NFC Tags](#nfc-tags)
8. [Bambu Lab Integration](#bambu-lab-integration)
9. [Spoolman Integration](#spoolman-integration)
10. [Octoprint Integration](#octoprint-integration)
11. [Manufacturer Tags](#manufacturer-tags)
12. [Troubleshooting](#troubleshooting)
13. [Support](#support)
---
## Overview
FilaMan is a comprehensive filament management system for 3D printers based on ESP32 hardware. It provides weight measurement, NFC tag management, and seamless integration with Spoolman and Bambu Lab 3D printers.
### Key Features
- **Precise weight measurement** with HX711 load cell amplifier
- **NFC tag reading and writing** for filament identification
- **OLED display** for status information
- **WiFi connectivity** with easy configuration
- **Web-based user interface** with real-time updates
- **Spoolman integration** for inventory management
- **Bambu Lab AMS control** via MQTT
- **OpenSpool NFC format** compatibility
- **Manufacturer tag support** for automatic setup
### System Requirements
- **ESP32 Development Board**
- **Spoolman Instance** (required for full functionality)
- **WiFi Network**
- **Web Browser** (Chrome/Firefox/Safari)
---
## Installation
### Easy Installation (Recommended)
1. **Open the [FilaMan Web Installer](https://www.filaman.app/installer.html)**
- Use a Chrome-based browser
2. **Prepare ESP32**
- Connect ESP32 via USB to your computer
- Click "Connect"
3. **Select Port**
- Choose the appropriate USB port
- Confirm selection
4. **Start Installation**
- Click "Install FilaMan"
- Wait for installation to complete
### Manual Compilation
For advanced users with PlatformIO:
```bash
git clone https://github.com/ManuelW77/Filaman.git
cd FilaMan/esp32
pio lib install
pio run --target upload
```
---
## Hardware Requirements
### Required Components
| Component | Description | Amazon Link (Affiliate) |
|-----------|-------------|-------------------------|
| ESP32 Development Board | Any ESP32 variant | [Amazon](https://amzn.to/3FHea6D) |
| HX711 + Load Cell | 5kg Load Cell Amplifier | [Amazon](https://amzn.to/4ja1KTe) |
| OLED Display | 0.96" I2C 128x64 SSD1306 | [Amazon](https://amzn.to/445aaa9) |
| PN532 NFC Module | V3 RFID Module | [Amazon](https://amzn.eu/d/gy9vaBX) |
| NFC Tags | NTAG213/NTAG215 | [Amazon](https://amzn.to/3E071xO) |
| TTP223 Touch Sensor | Optional for tare function | [Amazon](https://amzn.to/4hTChMK) |
### Pin Configuration
| Component | ESP32 Pin | Function |
|-----------|-----------|----------|
| HX711 DOUT | 16 | Load cell data output |
| HX711 SCK | 17 | Load cell clock |
| OLED SDA | 21 | I2C data |
| OLED SCL | 22 | I2C clock |
| PN532 IRQ | 32 | Interrupt |
| PN532 RESET | 33 | Reset |
| PN532 SDA | 21 | I2C data (shared) |
| PN532 SCL | 22 | I2C clock (shared) |
| TTP223 I/O | 25 | Touch sensor (optional) |
### Important Notes
- **PN532 DIP switches** must be set to I2C mode
- **3V pin** from ESP32 for touch sensor
- **Load cell wiring**: E+ (red), E- (black), A- (white), A+ (green)
![Wiring Diagram](./img/Schaltplan.png)
---
## Initial Setup
### After Installation
1. **ESP32 Restart**
- System automatically creates a WiFi hotspot "FilaMan"
2. **WiFi Configuration**
- Connect to the "FilaMan" network
- Open browser (automatic portal or <http://192.168.4.1>)
- Configure your WiFi credentials
3. **First Access**
- After successful WiFi connection, access system at <http://filaman.local>
- Alternative: Use IP address assigned by router
### Spoolman Preparation
**Important Note**: Spoolman must run in debug mode:
```env
# Uncomment in Spoolman's .env file:
SPOOLMAN_DEBUG_MODE=TRUE
```
This is required as Spoolman doesn't support CORS domain configuration yet.
---
## Configuration
### Scale Calibration
1. **Start Calibration**
- Go to "Scale" page
- Prepare a 500g reference weight (e.g., water glass)
2. **Calibration Steps**
- Follow instructions on display
- Place weight when prompted
- Wait for calibration to complete
3. **Validation**
- Test accuracy with known weights
- Use "Tare Scale" for zero adjustment if needed
### Spoolman Connection
1. **Enter Spoolman URL**
- Go to "Spoolman/Bambu" page
- Enter complete URL of your Spoolman instance
- Format: `http://spoolman-server:7912`
2. **Test Connection**
- System automatically checks connection
- Successful connection shown by green status
### Bambu Lab Printer (Optional)
1. **Printer Settings**
- Open settings menu on your Bambu printer
- Note the following data:
- Printer IP address
- Access Code
- Serial Number
2. **FilaMan Configuration**
- Enter printer data on "Spoolman/Bambu" page
- Enable "Auto Send to Bambu" for automatic AMS assignment
3. **Auto-Send Timeout**
- Configure waiting time for automatic spool detection
- Recommended value: 10-30 seconds
---
## Usage
### Basic Operation
1. **Weigh Filament**
- Place spool on scale
- Weight automatically displayed on screen and web interface
2. **Scan NFC Tag**
- Hold tag near PN532 module
- Recognized tags display spool information
- Weight automatically updated in Spoolman
3. **Status Monitoring**
- **OLED Display** shows current weight and connection status
- **Web Interface** provides detailed information and control
### Web Interface Navigation
- **Home**: Main functions and current status
- **Scale**: Scale calibration and settings
- **Spoolman/Bambu**: System configuration
- **Statistics**: Usage statistics (if enabled)
---
## NFC Tags
### Supported Tag Types
- **NTAG213**: 144 bytes (basic functions)
- **NTAG215**: 504 bytes (recommended)
- **NTAG216**: 888 bytes (extended functions)
### Writing Tags
1. **Prepare Spool in Spoolman**
- Create new spool in Spoolman
- Ensure all required data is entered
2. **Start Tag Writing**
- Select spool from list
- Click "Write Tag"
- Display shows "Waiting for Tag"
3. **Place Tag**
- Position NFC tag on PN532 module
- Wait for confirmation
4. **Success Message**
- Successful writing shows checkmark
- Tag is now linked to Spoolman spool
### Reading Tags
1. **Scan Tag**
- Place the spool with NFC tag on the scale over the NFC reader
- If reading fails: Reposition spool slightly (not completely at the edge)
- Spool information automatically loaded
2. **Automatic Updates**
- Current weight transferred to Spoolman
- Spool automatically selected in web interface
---
## Bambu Lab Integration
### AMS (Automatic Material System)
1. **Display AMS Status**
- Web interface shows current state of all AMS slots
- Loaded slots display filament information
2. **Manual Filament Assignment**
- Select spool from Spoolman list
- Click corresponding AMS slot icon
- Filament assigned to slot
3. **Automatic Assignment**
- After weighing with "Auto Send to Bambu" enabled
- System waits for new spools in AMS
- Calibrated filaments automatically assigned
### Bambu Studio Integration
1. **Sync Filament Profiles**
- Calibrate filaments in Bambu Studio
- Use Device → AMS → Pencil icon → Select
2. **Save Setting IDs**
- FilaMan automatically detects available setting IDs
- Click "Save Settings to Spoolman"
- Profiles used for future prints
### Restore Connection
- For connection issues, click red dot in menu bar
- System automatically establishes new connection
---
## Spoolman Integration
### Automatic Functions
1. **Spool Synchronization**
- Automatic transfer of weight changes
- Real-time updates of spool data
2. **Extra Fields**
- FilaMan automatically creates required custom fields
- NFC tag UID stored as reference
3. **Filtering**
- "Show only spools without NFC tag" for easy tag assignment
- Categorization by manufacturers and material types
### Spoolman Octoprint Plugin
For Octoprint users, automatic spool assignment is available:
1. **Install Plugin**
```text
https://github.com/ManuelW77/OctoPrint-Spoolman-Filaman/archive/refs/heads/master.zip
```
2. **Configure FilaMan**
- Enable "Send to Octo-Plugin"
- Enter Octoprint URL and API key
3. **Automatic Assignment**
- After weighing, spool automatically activated in Octoprint
- Currently supports only Tool0 (first nozzle)
---
## Manufacturer Tags
### Overview
Manufacturer tags allow filament producers to provide pre-configured NFC tags that automatically create all necessary entries in Spoolman.
### Getting Started with Manufacturer Tags
1. **Scan Tag**
- Place spool with manufacturer tag on the scale over the NFC reader
- If reading fails: Reposition spool slightly (not completely at the edge)
- System automatically recognizes manufacturer format
2. **Automatic Creation**
- **Brand** created in Spoolman (if not present)
- **Filament type** created with all specifications
- **Spool** automatically registered
3. **Future Scans**
- After initial setup, tags use fast-path system
- Immediate weight measurement without re-setup
### Supported Manufacturers
- **RecyclingFabrik**: First official partner
- More manufacturers coming soon
### Benefits
- ✅ **Zero manual setup**
- ✅ **Perfect data accuracy**
- ✅ **Instant integration**
- ✅ **Future-proof**
---
## Troubleshooting
### Common Issues
#### WiFi Connection
**Issue**: Cannot connect to FilaMan hotspot
- Solution: Ensure ESP32 is started
- Alternative: Manually navigate to <http://192.168.4.1>
**Issue**: Web interface not accessible
- Solution: Check IP address in router
- Alternative: Use <http://filaman.local>
#### Scale
**Issue**: Inaccurate weight measurements
- Solution: Repeat calibration
- Tip: Use "Tare Scale" for zero adjustment
**Issue**: Load cell not responding
- Solution: Check wiring (E+, E-, A+, A-)
- Tip: Test with multimeter
#### NFC Tags
**Issue**: Tag not recognized
- Solution: Check PN532 DIP switches (I2C mode)
- Tip: Reposition spool slightly on scale (not completely at the edge)
**Issue**: Cannot write tag
- Solution: Use NTAG215 for better compatibility
- Tip: Ensure tag is not write-protected
#### Spoolman
**Issue**: Connection to Spoolman fails
- Solution: Enable SPOOLMAN_DEBUG_MODE=TRUE
- Tip: Check URL formatting
**Issue**: Spools not displayed
- Solution: Ensure Spoolman is running
- Tip: Check network firewall settings
#### Bambu Lab
**Issue**: Printer won't connect
- Solution: Check access code and IP address
- Tip: Ensure printer is in LAN mode
**Issue**: AMS status not displayed
- Solution: Check MQTT connection
- Note: Bambu may close API at any time
### Debug Information
If you have problems, you can use these steps for diagnosis:
#### Serial Monitor (for developers)
- Connect the ESP32 via USB to your computer
- Open a serial monitor (e.g., Arduino IDE) with 115200 baud
- You will see detailed log messages from the system
#### Browser Console
- Open the FilaMan web interface
- Press F12 to open developer tools
- Check the console for error messages
---
## Maintenance and Updates
### Firmware Update
1. **Via Web Interface**: Access `http://filaman.local/upgrade.html`
2. **Select firmware file** (.bin format)
3. **Upload** - System restarts automatically
4. **Configuration preserved** - Settings remain intact
### System Reset
For persistent issues:
1. Disconnect ESP32 from power
2. Wait 10 seconds
3. Reconnect
4. Wait 30 seconds for complete startup
---
## Support and Information
**Manufacturer**: Your Company Name
**Maintainer**: Manuel W.
### Scale Technology
#### Weight Stabilization
The system uses multiple filters for precise measurements:
```cpp
// Moving Average Filter with 8 values
#define MOVING_AVERAGE_SIZE 8
// Low-Pass Filter for smoothing
#define LOW_PASS_ALPHA 0.3f
// Thresholds for updates
#define DISPLAY_THRESHOLD 0.3f // Display update
#define API_THRESHOLD 1.5f // API actions
```
#### Calibration Algorithm
1. **System Pause**: All tasks are temporarily paused
2. **Zero Setting**: Tare scale without weight
3. **Reference Measurement**: 500g weight for 10 measurements
4. **Calculation**: `newValue = rawValue / SCALE_LEVEL_WEIGHT`
5. **NVS Storage**: Permanent value with verification
6. **Filter Reset**: New baseline for stabilization
#### Auto-Tare Logic
```cpp
// Conditions for Auto-Tare
if (autoTare && (weight > 2 && weight < 7) || weight < -2) {
scale_tare_counter++;
if (scale_tare_counter >= 5) {
// Automatic zero setting
scale.tare();
resetWeightFilter();
}
}
```
### NFC Technology
#### PN532 Communication
- **Interface**: I2C at 400kHz
- **IRQ Pin**: Interrupt-based tag detection
- **Reset Handling**: Automatic recovery from communication errors
- **DIP Switches**: Must be set to I2C mode (00)
#### NDEF Implementation
```json
// FilaMan Spoolman Format (with sm_id)
{
"sm_id": "123",
"color": "#FF5733",
"type": "PLA",
"brand": "Example Brand"
}
```
#### Manufacturer Tag Schema
Compact JSON format for storage efficiency:
```json
{
"b": "RecyclingFabrik", // brand
"an": "FX1_PLA-S175-1000-RED", // article number
"t": "PLA", // type
"c": "FF0000", // color (hex without #)
"cn": "Red", // color name
"et": "210", // extruder temp
"bt": "60", // bed temp
"di": "1.75", // diameter
"de": "1.24", // density
"sw": "240", // spool weight
"u": "https://www.yoururl.com/search?q=" // URL used vor Brand Link and Filament Link
}
```
### Display System
#### OLED Architecture (SSD1306)
- **Resolution**: 128x64 pixels monochrome
- **Areas**:
- Status bar: 0-16 pixels (version, icons)
- Main area: 17-64 pixels (weight, messages)
- **Update Interval**: 1 second for status line
#### Icon System
Bitmap icons for various states:
```cpp
// Status Icons (16x16 pixels)
- icon_success: Checkmark for successful operations
- icon_failed: X for errors
- icon_transfer: Arrow for data transmission
- icon_loading: Loading circle for ongoing operations
// Connection Icons with strikethrough indicator
- wifi_on/wifi_off: WLAN status
- bambu_on: Bambu Lab connection
- spoolman_on: Spoolman API status
```
### API Integration
#### Spoolman REST API
FilaMan interacts with the following endpoints:
```http
GET /api/v1/spool/ # List spools
POST /api/v1/spool/ # Create new spool
PUT /api/v1/spool/{id}/ # Update spool
GET /api/v1/vendor/ # List vendors
POST /api/v1/vendor/ # Create new vendor
GET /api/v1/filament/ # List filaments
POST /api/v1/filament/ # Create new filament
```
#### Request Handling
```cpp
// Sequential API processing
enum spoolmanApiStateType {
API_IDLE = 0,
API_PROCESSING = 1,
API_ERROR = 2
};
```
Prevents simultaneous API calls and deadlocks.
#### Weight Update Logic
```cpp
// Conditions for Spoolman update
if (activeSpoolId != "" &&
weigthCouterToApi > 3 && // 3+ stable measurements
weightSend == 0 && // Not yet sent
weight > 5 && // Minimum weight 5g
spoolmanApiState == API_IDLE) {
updateSpoolWeight(activeSpoolId, weight);
}
```
### Bambu Lab MQTT
#### Connection Parameters
```cpp
// SSL/TLS Configuration
#define BAMBU_PORT 8883
#define BAMBU_USERNAME "bblp"
// Topic Structure
String topic = "device/" + bambu_serial + "/report";
String request_topic = "device/" + bambu_serial + "/request";
```
#### AMS Data Structure
```cpp
struct AMSData {
String tray_id;
String tray_type;
String tray_color;
String tray_material;
String setting_id;
String tray_info_idx;
bool has_spool;
};
```
#### Auto-Send Mechanism
```cpp
// After tag recognition
if (bambuCredentials.autosend_enable) {
autoSetToBambuSpoolId = activeSpoolId.toInt();
// Countdown starts automatically
// Waits for new spool in AMS
}
```
### WebSocket Communication
#### Message Types
```javascript
// Client → Server
{
"type": "writeNfcTag",
"tagType": "spool",
"payload": { /* JSON data */ }
}
{
"type": "scale",
"payload": "tare|calibrate|setAutoTare",
"enabled": true
}
// Server → Client
{
"type": "heartbeat",
"freeHeap": 245,
"bambu_connected": true,
"spoolman_connected": true
}
{
"type": "amsData",
"data": [ /* AMS array */ ]
}
```
#### Connection Management
- **Auto-Reconnect**: Client-side reconnection
- **Heartbeat**: Every 30 seconds for connection monitoring
- **Cleanup**: Automatic removal of dead connections
### Watchdog and Error Handling
#### System Watchdog
```cpp
// WDT Configuration
esp_task_wdt_init(10, true); // 10s timeout, panic on overflow
esp_task_wdt_add(NULL); // Add current task
```
#### Error Recovery
- **NFC Reset**: Automatic PN532 restart on communication errors
- **MQTT Reconnect**: Bambu Lab connection automatically restored
- **WiFi Monitoring**: Connection check every 60 seconds
---
## Support
### Community
- **Discord Server**: [https://discord.gg/my7Gvaxj2v](https://discord.gg/my7Gvaxj2v)
- **GitHub Issues**: [Filaman Repository](https://github.com/ManuelW77/Filaman/issues)
- **YouTube Channel**: [German explanation video](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaOHU)
### Documentation
- **Official Website**: [www.filaman.app](https://www.filaman.app)
- **GitHub Wiki**: [Detailed documentation](https://github.com/ManuelW77/Filaman/wiki)
- **Hardware Reference**: ESP32 pinout diagrams in `/img/`
### Support Development
If you'd like to support the project:
[![Buy Me A Coffee](https://cdn.buymeacoffee.com/buttons/v2/default-yellow.png)](https://www.buymeacoffee.com/manuelw)
### License
This project is released under the MIT License. See [LICENSE](LICENSE.txt) for details.
---
**Last Updated**: August 2025
**Version**: 2.0
**Maintainer**: Manuel W.