refactor: remove unnecessary delay in MQTT setup and add delay before restart

fix: correct typo in console log for total length
feat: add new 3D print file for Filaman scale
2025-03-03 16:58:24 +01:00 · 2025-03-02 20:21:27 +01:00 · 2025-03-02 08:06:59 +01:00 · 2025-03-01 18:50:20 +01:00 · 2025-03-01 18:44:35 +01:00 · 2025-03-01 18:44:29 +01:00
41 changed files with 16892 additions and 856 deletions
--- a/.github/workflows/gitea-release.yml
+++ b/.github/workflows/gitea-release.yml
@ -6,16 +6,17 @@ on:
      GITEA_TOKEN:
        description: 'Token für Gitea API-Zugriff'
        required: true
-      FTP_PASSWORD:
+
-        description: 'FTP Password for firmware upload'
+    outputs:
-        required: true
+      version:
-      FTP_USER:
+        description: 'The version that was released'
-        description: 'FTP User for firmware upload'
+        value: ${{ jobs.create-release.outputs.version }}
        required: true
 jobs:
  create-release:
    runs-on: ubuntu-latest
    outputs:
      version: ${{ steps.get_version.outputs.VERSION }}
    steps:
    - uses: actions/checkout@v4
      with:
@ -40,16 +41,16 @@ jobs:
      run: |
        VERSION=$(grep '^version = ' platformio.ini | cut -d'"' -f2)
-        # Build firmware and SPIFFS
+        # Build firmware and LittleFS
-        echo "Building firmware and SPIFFS..."
+        echo "Building firmware and LittleFS..."
        pio run -e esp32dev
        pio run -t buildfs
        # Copy firmware binary
        cp .pio/build/esp32dev/firmware.bin .pio/build/esp32dev/upgrade_filaman_firmware_v${VERSION}.bin
-        # Create SPIFFS binary - direct copy without header
+        # Create LittleFS binary - direct copy without header
-        cp .pio/build/esp32dev/spiffs.bin .pio/build/esp32dev/upgrade_filaman_website_v${VERSION}.bin
+        cp .pio/build/esp32dev/littlefs.bin .pio/build/esp32dev/upgrade_filaman_website_v${VERSION}.bin
        # Create full binary
        (cd .pio/build/esp32dev && 
@ -62,7 +63,7 @@ jobs:
          0x1000 bootloader.bin \
          0x8000 partitions.bin \
          0x10000 firmware.bin \
-          0x3D0000 spiffs.bin)
+          0x3D0000 littlefs.bin)
        # Verify file sizes
        echo "File sizes:"
@ -205,22 +206,3 @@ jobs:
            fi
          fi
        done
    - name: Install lftp
      run: sudo apt-get install -y lftp
    - name: Upload Firmware via FTP
      if: success()
      secrets:
        FTP_PASSWORD: ${{ secrets.FTP_PASSWORD }}
        FTP_USER: ${{ secrets.FTP_USER }}
      run: |
        VERSION=$(grep '^version = ' platformio.ini | cut -d'"' -f2)
        cd .pio/build/esp32dev
        lftp -c "set ssl:verify-certificate no; \
                 set ftp:ssl-protect-data true; \
                 set ftp:ssl-force true; \
                 set ssl:check-hostname false; \
                 set ftp:ssl-auth TLS; \
                 open -u ${{ secrets.FTP_USER }},${{ secrets.FTP_PASSWORD }} ftp://filaman.app:21; \
                 put -O / filaman_full_${VERSION}.bin -o filaman_full.bin"
--- a/.github/workflows/github-release.yml
+++ b/.github/workflows/github-release.yml
@ -39,16 +39,16 @@ jobs:
      run: |
        VERSION=$(grep '^version = ' platformio.ini | cut -d'"' -f2)
-        # Always build firmware and SPIFFS
+        # Always build firmware and LittleFS
-        echo "Building firmware and SPIFFS..."
+        echo "Building firmware and LittleFS..."
        pio run -e esp32dev
        pio run -t buildfs
        # Copy firmware binary
        cp .pio/build/esp32dev/firmware.bin .pio/build/esp32dev/upgrade_filaman_firmware_v${VERSION}.bin
-        # Create SPIFFS binary - direct copy without header
+        # Create LittleFS binary - direct copy without header
-        cp .pio/build/esp32dev/spiffs.bin .pio/build/esp32dev/upgrade_filaman_website_v${VERSION}.bin
+        cp .pio/build/esp32dev/littlefs.bin .pio/build/esp32dev/upgrade_filaman_website_v${VERSION}.bin
        # Create full binary (always)
        (cd .pio/build/esp32dev && 
@ -61,7 +61,7 @@ jobs:
          0x1000 bootloader.bin \
          0x8000 partitions.bin \
          0x10000 firmware.bin \
-          0x3D0000 spiffs.bin)
+          0x3D0000 littlefs.bin)
        # Verify file sizes
        echo "File sizes:"
@ -131,7 +131,7 @@ jobs:
          FILES_TO_UPLOAD="$FILES_TO_UPLOAD upgrade_filaman_firmware_v${VERSION}.bin"
        fi
-        # Add SPIFFS and full binary only if they exist
+        # Add LittleFS and full binary only if they exist
        if [ -f "upgrade_filaman_website_v${VERSION}.bin" ]; then
          FILES_TO_UPLOAD="$FILES_TO_UPLOAD upgrade_filaman_website_v${VERSION}.bin"
        fi
@ -150,3 +150,36 @@ jobs:
          echo "Error: No files found to upload"
          exit 1
        fi
    - name: Install lftp
      run: sudo apt-get install -y lftp
    - name: Upload Firmware via FTP
      if: success()
      env:
        FTP_PASSWORD: ${{ vars.FTP_PASSWORD }}
        FTP_USER: ${{ vars.FTP_USER }}
        FTP_HOST: ${{ vars.FTP_HOST }}
        VERSION: ${{ steps.get_version.outputs.VERSION }}
      run: |
        echo "Environment variables:"
        env | grep -E '^FTP_' | while read -r line; do
          var_name=$(echo "$line" | cut -d= -f1)
          var_value=$(echo "$line" | cut -d= -f2-)
          echo "$var_name is $(if [ -n "$var_value" ]; then echo "set"; else echo "empty"; fi)"
        done
        cd .pio/build/esp32dev
        if [ -n "$FTP_USER" ] && [ -n "$FTP_PASSWORD" ] && [ -n "$FTP_HOST" ]; then
          echo "All FTP credentials are present, attempting upload..."
          lftp -c "set ssl:verify-certificate no; \
                    set ftp:ssl-protect-data true; \
                    set ftp:ssl-force true; \
                    set ssl:check-hostname false; \
                    set ftp:ssl-auth TLS; \
                    open -u $FTP_USER,$FTP_PASSWORD $FTP_HOST; \
                    put -O / filaman_full_${VERSION}.bin -o filaman_full.bin"
        else
          echo "Error: Some FTP credentials are missing"
          exit 1
        fi
--- a/.vscode/settings.json
+++ b/.vscode/settings.json
@ -1,54 +0,0 @@
 {
    "files.associations": {
        "algorithm": "cpp",
        "vector": "cpp",
        "cmath": "cpp",
        "array": "cpp",
        "atomic": "cpp",
        "*.tcc": "cpp",
        "bitset": "cpp",
        "cctype": "cpp",
        "clocale": "cpp",
        "cstdarg": "cpp",
        "cstddef": "cpp",
        "cstdint": "cpp",
        "cstdio": "cpp",
        "cstdlib": "cpp",
        "cstring": "cpp",
        "ctime": "cpp",
        "cwchar": "cpp",
        "cwctype": "cpp",
        "deque": "cpp",
        "unordered_map": "cpp",
        "unordered_set": "cpp",
        "exception": "cpp",
        "functional": "cpp",
        "iterator": "cpp",
        "map": "cpp",
        "memory": "cpp",
        "memory_resource": "cpp",
        "numeric": "cpp",
        "optional": "cpp",
        "random": "cpp",
        "regex": "cpp",
        "string": "cpp",
        "string_view": "cpp",
        "system_error": "cpp",
        "tuple": "cpp",
        "type_traits": "cpp",
        "utility": "cpp",
        "fstream": "cpp",
        "initializer_list": "cpp",
        "iomanip": "cpp",
        "iosfwd": "cpp",
        "istream": "cpp",
        "limits": "cpp",
        "new": "cpp",
        "ostream": "cpp",
        "sstream": "cpp",
        "stdexcept": "cpp",
        "streambuf": "cpp",
        "cinttypes": "cpp",
        "typeinfo": "cpp"
    }
 }
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@ -1,5 +1,217 @@
 # Changelog
 ## [1.4.0] - 2025-03-01
 ### Added
 - add support for Spoolman Octoprint Plugin in README files
 - add OctoPrint integration with configurable fields and update functionality
 - add version comparison function and check for outdated versions before updates
 - remove unused version and protocol fields from JSON output; add error message for insufficient memory
 ### Changed
 - update NFC tag references to include NTAG213 and clarify storage capacity
 - bump version to 1.4.0
 - remove unused version and protocol fields from NFC data packet
 - sort vendors alphabetically in the dropdown list
 - Merge pull request #10 from janecker/nfc-improvements
 - Improves NFC Tag handling
 ## [1.3.99] - 2025-02-28
 ### Changed
 - update platformio.ini for version v1.3.99
 - update workflows to build firmware with LittleFS instead of SPIFFS
 ## [1.3.98] - 2025-02-28
 ### Changed
 - update platformio.ini for version v1.3.98
 - migrate from SPIFFS to LittleFS for file handling
 - remove unused VSCode settings file
 - remove commented-out spoolman and filaman data from api.cpp
 ## [1.3.97] - 2025-02-28
 ### Added
 - füge Bestätigungsmeldung für Spool-Einstellung hinzu
 - verbessere WLAN-Konfiguration und füge mDNS-Unterstützung hinzu
 - aktualisiere OLED-Anzeige mit Versionsnummer und verbessere Textausrichtung
 - füge regelmäßige WLAN-Verbindungsüberprüfung hinzu
 - aktualisiere Schaltplan-Bild
 - zeige Versionsnummer im OLED-Display an
 ### Changed
 - update platformio.ini for version v1.3.97
 - entferne text-shadow von deaktivierten Schaltflächen
 - füge Link zum Wiki für detaillierte Informationen über die Nutzung hinzu
 ### Fixed
 - Speichernutzung optimiert
 - behebe doppelte http.end() Aufrufe in checkSpoolmanExtraFields
 - optimiere Verzögerungen und Stackgrößen in NFC-Task-Funktionen
 - entferne ungenutzte Bibliotheken und Debug-Ausgaben aus main.cpp
 ## [1.3.96] - 2025-02-25
 ### Added
 - füge Unterstützung für Spoolman-Einstellungen hinzu und aktualisiere die Benutzeroberfläche
 - entferne die sendAmsData-Funktion aus der API-Schnittstelle
 - erweitere Bambu-Credentials um AutoSend-Zeit und aktualisiere die Benutzeroberfläche
 - erweitere Bambu-Credentials mit AutoSend-Wartezeit und aktualisiere die Benutzeroberfläche
 - add espRestart function and replace delay with vTaskDelay for OTA update process
 - implement OTA update functionality with backup and restore for configurations
 - add own_filaments.json and integrate custom filament loading in bambu.cpp
 ### Changed
 - update platformio.ini for version v1.3.96
 ### Fixed
 - aktualisiere Bedingungen für die AMS-Datenaktualisierung und entferne unnötige Aufrufe
 - aktualisiere Bedingung für den Fortschritt der OTA-Update-Nachricht
 - update auto set logic to check RFID tag before setting Bambu spool
 ## [1.3.95] - 2025-02-24
 ### Changed
 - update webpages for version v1.3.95
 ### Fixed
 - bind autoSendToBambu variable to checkbox in spoolman.html
 ## [1.3.94] - 2025-02-24
 ### Changed
 - update webpages for version v1.3.94
 ### Fixed
 - correct payload type check in NFC write event handling
 ## [1.3.93] - 2025-02-24
 ### Added
 - implement auto send feature for Bambu spool management and update related configurations
 - add debug mode instructions for Spoolman in README
 - add wiring diagrams to README for PN532 I2C setup
 ### Changed
 - update webpages for version v1.3.93
 - simplify filament names in JSON configuration
 - update findFilamentIdx to return structured result and improve type searching logic
 - update README to reflect PN532 I2C configuration and remove SPI pin details
 ### Fixed
 - remove debug output from splitTextIntoLines and update weight display logic in scanRfidTask
 - enhance weight display logic for negative values
 - remove unnecessary CPU frequency configuration from setup function
 ## [1.3.92] - 2025-02-24
 ### Changed
 - update webpages for version v1.3.92
 - remove commented-out code in setBambuSpool function
 - update installation instructions and formatting in README files
 ### Fixed
 - configure CPU frequency settings in setup function only for testing
 - update comment to clarify NVS reading process
 - adjust weight display logic to handle cases for weight less than 2
 - update weight display logic to handle negative and specific weight cases
 ## [1.3.91] - 2025-02-23
 ### Added
 - update GitHub Actions workflow for FTP firmware upload with improved credential checks
 ### Changed
 - update webpages for version v1.3.91
 ## [1.3.90] - 2025-02-23
 ### Added
 - update index.html for improved content structure and additional links
 - improve UI for Spoolman and Bambu Lab printer credentials, enhancing layout and styling
 - update README files with HSPI default PINs and add ESP32 pin diagram
 - implement scale calibration checks and update start_scale function to return calibration status
 - add FTP upload functionality to GitHub release workflow and update installation instructions in README
 ### Changed
 - update webpages for version v1.3.90
 ### Fixed
 - remove debug secrets check from Gitea release workflow
 ## [1.3.89] - 2025-02-23
 ### Changed
 - update webpages for version v1.3.89
 ### Fixed
 - update Gitea release workflow to use vars for FTP credentials
 ## [1.3.88] - 2025-02-23
 ### Changed
 - update webpages for version v1.3.88
 ### Fixed
 - update Gitea release workflow to use secrets for FTP credentials
 ## [1.3.87] - 2025-02-23
 ### Changed
 - update webpages for version v1.3.87
 ### Fixed
 - enhance FTP upload workflow with credential checks and version output
 ## [1.3.86] - 2025-02-23
 ### Changed
 - update webpages for version v1.3.86
 ### Fixed
 - streamline FTP credentials usage in Gitea release workflow
 ## [1.3.85] - 2025-02-23
 ### Added
 - add FTP_USER variable for Gitea release workflow
 ### Changed
 - update webpages for version v1.3.85
 ## [1.3.84] - 2025-02-23
 ### Added
 - add FTP_HOST variable for firmware upload in Gitea release workflow
 ### Changed
 - update webpages for version v1.3.84
 ## [1.3.83] - 2025-02-23
 ### Changed
 - update webpages for version v1.3.83
 ### Fixed
 - correct variable interpolation for FTP credentials in Gitea release workflow
 ## [1.3.82] - 2025-02-23
 ### Added
 - update Gitea release workflow to use variable interpolation for FTP credentials
 ### Changed
 - update webpages for version v1.3.82
 ## [1.3.81] - 2025-02-23
 ### Added
 - update Gitea release workflow to use environment variables for FTP credentials and version
 ### Changed
 - update webpages for version v1.3.81
 ## [1.3.80] - 2025-02-23
 ### Added
 - add FTP_USER and FTP_PASSWORD secrets for firmware upload in Gitea release workflow
--- a/README.de.md
+++ b/README.de.md
@ -9,6 +9,9 @@ Das System integriert sich nahtlos mit der [Spoolman](https://github.com/Donkie/
 Weitere Bilder finden Sie im [img Ordner](/img/)
 oder auf meiner Website: [FilaMan Website](https://www.filaman.app)  
 Deutsches Erklärvideo: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaOHU)  
 Discord Server: [https://discord.gg/vMAx2gf5](https://discord.gg/vMAx2gf5)
 ### Es gibt jetzt auch ein Wiki, dort sind nochmal alle Funktionen beschrieben: [Wiki](https://github.com/ManuelW77/Filaman/wiki)
 ### ESP32 Hardware-Funktionen
 - **Gewichtsmessung:** Verwendung einer Wägezelle mit HX711-Verstärker für präzise Gewichtsverfolgung.
@ -16,7 +19,7 @@ Deutsches Erklärvideo: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaO
 - **OLED-Display:** Zeigt aktuelles Gewicht, Verbindungsstatus (WiFi, Bambu Lab, Spoolman).
 - **WLAN-Konnektivität:** WiFiManager für einfache Netzwerkkonfiguration.
 - **MQTT-Integration:** Verbindet sich mit Bambu Lab Drucker für AMS-Steuerung.
- **NFC-Tag NTAG215:** Verwendung von NTAG215 wegen ausreichendem Speicherplatz auf dem Tag
+- **NFC-Tag NTAG213 NTAG215:** Verwendung von NTAG213, besser NTAG215 wegen ausreichendem Speicherplatz auf dem Tag
 ### Weboberflächen-Funktionen
 - **Echtzeit-Updates:** WebSocket-Verbindung für Live-Daten-Updates.
@ -33,6 +36,7 @@ Deutsches Erklärvideo: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaO
  - Filtern und Auswählen von Filamenten.
  - Automatische Aktualisierung der Spulengewichte.
  - Verfolgung von NFC-Tag-Zuweisungen.
  - Unterstützt das Spoolman Octoprint Plugin
 ### Wenn Sie meine Arbeit unterstützen möchten, freue ich mich über einen Kaffee
 <a href="https://www.buymeacoffee.com/manuelw" target="_blank"><img src="https://cdn.buymeacoffee.com/buttons/v2/default-yellow.png" alt="Buy Me A Coffee" style="height: 30px !important;width: 108px !important;" ></a>
@ -59,7 +63,7 @@ Deutsches Erklärvideo: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaO
 [Amazon Link](https://amzn.eu/d/0AuBp2c)
 - **PN532 NFC NXP RFID-Modul V3:** Für NFC-Tag-Operationen.
 [Amazon Link](https://amzn.eu/d/jfIuQXb)
- **NFC Tags Ntag215:** RFID Tag
+- **NFC Tags NTAG213 NTA215:** RFID Tag
 [Amazon Link](https://amzn.eu/d/9Z6mXc1)
 ### Pin-Konfiguration
@ -71,10 +75,15 @@ Deutsches Erklärvideo: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaO
 | OLED SCL          | 22        |
 | PN532 IRQ         | 32        |
 | PN532 RESET       | 33        |
-| PN532 SCK         | 14        |
+| PN532 SDA         | 21        |
-| PN532 MOSI        | 13        |
+| PN532 SCL         | 22        |
-| PN532 MISO        | 12        |
+
-| PN532 CS/SS       | 15        |
+**Achte darauf, dass am PN532 die DIP-Schalter auf I2C gestellt sind**
 ![Wiring](./img/Schaltplan.png)
 ![myWiring](./img/IMG_2589.jpeg)
 ![myWiring](./img/IMG_2590.jpeg)
 ## Software-Abhängigkeiten
@ -101,7 +110,31 @@ Deutsches Erklärvideo: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaO
  - PN532 NFC Modul
  - Verbindungskabel
-### Schritt-für-Schritt Installation
+## Wichtiger Hinweis
 Du musst Spoolman auf DEBUG Modus setzten, da man bisher in Spoolman keine CORS Domains setzen kann!
 ```
 # Enable debug mode
 # If enabled, the client will accept requests from any host
 # This can be useful when developing, but is also a security risk
 # Default: FALSE
 #SPOOLMAN_DEBUG_MODE=TRUE
 ```
 ## Schritt-für-Schritt Installation
 ### Einfache Installation
 1. **Gehe auf [FilaMan Installer](https://www.filaman.app/installer.html)**
 2. **Stecke dein ESP an den Rechner und klicke Connect**
 3. **Wähle dein Device Port und klicke Intall**
 4. **Ersteinrichtung:**
    - Mit dem "FilaMan" WLAN-Zugangspunkt verbinden.
    - WLAN-Einstellungen über das Konfigurationsportal vornehmen.
    - Weboberfläche unter `http://filaman.local` oder der IP-Adresse aufrufen.
 ### Compile by yourself
 1. **Repository klonen:**
    ```bash
    git clone https://github.com/ManuelW77/Filaman.git
--- a/README.md
+++ b/README.md
@ -6,12 +6,16 @@ FilaMan is a filament management system for 3D printing. It uses ESP32 hardware
 Users can manage filament spools, monitor the status of the Automatic Material System (AMS) and make settings via a web interface. 
 The system integrates seamlessly with [Bambulab](https://bambulab.com/en-us) 3D printers and [Spoolman](https://github.com/Donkie/Spoolman) filament management as well as the [Openspool](https://github.com/spuder/OpenSpool) NFC-TAG format.
 ![Scale](./img/scale_trans.png)
 More Images can be found in the [img Folder](/img/)  
-or my website:[FilaMan Website](https://www.filaman.app)  
+or my website: [FilaMan Website](https://www.filaman.app)  
 german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62zaOHU)  
 Discord Server: [https://discord.gg/vMAx2gf5](https://discord.gg/vMAx2gf5)
 ### Now more detailed informations about the usage: [Wiki](https://github.com/ManuelW77/Filaman/wiki)
 ### ESP32 Hardware Features
 - **Weight Measurement:** Using a load cell with HX711 amplifier for precise weight tracking.
@ -19,7 +23,7 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
 - **OLED Display:** Shows current weight, connection status (WiFi, Bambu Lab, Spoolman).
 - **WiFi Connectivity:** WiFiManager for easy network configuration.
 - **MQTT Integration:** Connects to Bambu Lab printer for AMS control.
- **NFC-Tag NTAG215:** Use NTAG215 because of enaught space on the Tag
+- **NFC-Tag NTAG213 NTAG215:** Use NTAG213, better NTAG215 because of enaught space on the Tag
 ### Web Interface Features
 - **Real-time Updates:** WebSocket connection for live data updates.
@ -36,6 +40,7 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
  - Filter and select filaments.
  - Update spool weights automatically.
  - Track NFC tag assignments.
  - Supports Spoolman Octoprint Plugin
 ### If you want to support my work, i would be happy to get a coffe
 <a href="https://www.buymeacoffee.com/manuelw" target="_blank"><img src="https://cdn.buymeacoffee.com/buttons/v2/default-yellow.png" alt="Buy Me A Coffee" style="height: 30px !important;width: 108px !important;" ></a>
@ -62,7 +67,7 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
 [Amazon Link](https://amzn.eu/d/0AuBp2c)
 - **PN532 NFC NXP RFID-Modul V3:** For NFC tag operations.
 [Amazon Link](https://amzn.eu/d/jfIuQXb)
- **NFC Tags Ntag215:** RFID Tag
+- **NFC Tags NTAG213 NTAG215:** RFID Tag
 [Amazon Link](https://amzn.eu/d/9Z6mXc1)
@ -75,10 +80,15 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
 | OLED SCL          | 22        |
 | PN532 IRQ         | 32        |
 | PN532 RESET       | 33        |
-| PN532 SCK  	    | 14        |
+| PN532 SDA         | 21        |
-| PN532 MOSI    	| 13        |
+| PN532 SCL         | 22        |
-| PN532 MISO       	| 12        |
+
-| PN532 CS/SS       | 15        |
+**Make sure that the DIP switches on the PN532 are set to I2C**
 ![Wiring](./img/Schaltplan.png)
 ![myWiring](./img/IMG_2589.jpeg)
 ![myWiring](./img/IMG_2590.jpeg)
 ## Software Dependencies
@ -91,9 +101,9 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
 - `Adafruit_SSD1306`: OLED display control
 - `HX711`: Load cell communication
-## Installation
+### Installation
-### Prerequisites
+## Prerequisites
 - **Software:**
  - [PlatformIO](https://platformio.org/) in VS Code
  - [Spoolman](https://github.com/Donkie/Spoolman) instance
@ -105,7 +115,32 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
  - PN532 NFC Module
  - Connecting wires
-### Step-by-Step Installation
+## Important Note
 You have to activate Spoolman in debug mode, because you are not able to set CORS Domains in Spoolman yet.
 ```
 # Enable debug mode
 # If enabled, the client will accept requests from any host
 # This can be useful when developing, but is also a security risk
 # Default: FALSE
 #SPOOLMAN_DEBUG_MODE=TRUE
 ```
 ## Step-by-Step Installation
 ### Easy Installation
 1. **Go to [FilaMan Installer](https://www.filaman.app/installer.html)**
 2. **Plug you device in and push Connect button**
 3. **Select your Device Port and push Intall**
 4. **Initial Setup:**
    - Connect to the "FilaMan" WiFi access point.
    - Configure WiFi settings through the captive portal.
    - Access the web interface at `http://filaman.local` or the IP address.
 ### Compile by yourself
 1. **Clone the Repository:**
    ```bash
    git clone https://github.com/ManuelW77/Filaman.git
@ -124,25 +159,6 @@ german explanatory video: [Youtube](https://youtu.be/uNDe2wh9SS8?si=b-jYx4I1w62z
    - Configure WiFi settings through the captive portal.
    - Access the web interface at `http://filaman.local` or the IP address.
 ## GitHub Actions Configuration
 ### Required Secrets for Gitea Releases
 When using Gitea as your repository host, you need to configure the following secrets in your repository:
 - `GITEA_API_URL`: The base URL of your Gitea instance, including protocol (e.g., `https://git.example.com`)
 - `GITEA_TOKEN`: Your Gitea access token with permissions to create releases
 - `GITEA_REPOSITORY`: The repository name in format `owner/repo` (e.g., `username/filaman`)
 Example values:
 ```
 GITEA_API_URL=https://git.example.com
 GITEA_TOKEN=abcdef1234567890
 GITEA_REPOSITORY=username/filaman
 ```
 Make sure to set these secrets in your repository settings under Settings > Secrets and Variables > Actions.
 ## Documentation
 ### Relevant Links
--- a/Files/FilaMan-Waage.step
+++ b/Files/FilaMan-Waage.step
--- a/Files/Filaman-Waage.f3z
+++ b/Files/Filaman-Waage.f3z
--- a/html/bambu_filaments.json
+++ b/html/bambu_filaments.json
@ -1,7 +1,31 @@
 {
-    "GFU99": "Generic TPU",
+    "GFU99": "TPU",
-    "GFN99": "Generic PA",
+    "GFN99": "PA",
-    "GFN98": "Generic PA-CF",
+    "GFN98": "PA-CF",
    "GFL99": "PLA",
    "GFL96": "PLA Silk",
    "GFL98": "PLA-CF",
    "GFL95": "PLA High Speed",
    "GFG99": "PETG",
    "GFG98": "PETG-CF",
    "GFG97": "PCTG",
    "GFB99": "ABS",
    "GFC99": "PC",
    "GFB98": "ASA",
    "GFS99": "PVA",
    "GFS98": "HIPS",
    "GFT98": "PPS-CF",
    "GFT97": "PPS",
    "GFN97": "PPA-CF",
    "GFN96": "PPA-GF",
    "GFP99": "PE",
    "GFP98": "PE-CF",
    "GFP97": "PP",
    "GFP96": "PP-CF",
    "GFP95": "PP-GF",
    "GFR99": "EVA",
    "GFR98": "PHA",
    "GFS97": "BVOH",
    "GFA01": "Bambu PLA Matte",
    "GFA00": "Bambu PLA Basic",
    "GFA09": "Bambu PLA Tough",
@ -13,15 +37,11 @@
    "GFL03": "eSUN PLA+",
    "GFL01": "PolyTerra PLA",
    "GFL00": "PolyLite PLA",
    "GFL99": "Generic PLA",
    "GFL96": "Generic PLA Silk",
    "GFL98": "Generic PLA-CF",
    "GFA50": "Bambu PLA-CF",
    "GFS02": "Bambu Support For PLA",
    "GFA11": "Bambu PLA Aero",
    "GFL04": "Overture PLA",
    "GFL05": "Overture Matte PLA",
    "GFL95": "Generic PLA High Speed",
    "GFA12": "Bambu PLA Glow",
    "GFA13": "Bambu PLA Dynamic",
    "GFA15": "Bambu PLA Galaxy",
@ -30,41 +50,21 @@
    "GFU00": "Bambu TPU 95A HF",
    "GFG00": "Bambu PETG Basic",
    "GFT01": "Bambu PET-CF",
    "GFG99": "Generic PETG",
    "GFG98": "Generic PETG-CF",
    "GFG50": "Bambu PETG-CF",
    "GFG60": "PolyLite PETG",
    "GFG01": "Bambu PETG Translucent",
    "GFG97": "Generic PCTG",
    "GFB00": "Bambu ABS",
    "GFB99": "Generic ABS",
    "GFB60": "PolyLite ABS",
    "GFB50": "Bambu ABS-GF",
    "GFC00": "Bambu PC",
    "GFC99": "Generic PC",
    "GFB98": "Generic ASA",
    "GFB01": "Bambu ASA",
    "GFB61": "PolyLite ASA",
    "GFB02": "Bambu ASA-Aero",
    "GFS99": "Generic PVA",
    "GFS04": "Bambu PVA",
    "GFS01": "Bambu Support G",
    "GFN03": "Bambu PA-CF",
    "GFN04": "Bambu PAHT-CF",
    "GFS03": "Bambu Support For PA/PET",
    "GFN05": "Bambu PA6-CF",
-    "GFN08": "Bambu PA6-GF",
+    "GFN08": "Bambu PA6-GF"
    "GFS98": "Generic HIPS",
    "GFT98": "Generic PPS-CF",
    "GFT97": "Generic PPS",
    "GFN97": "Generic PPA-CF",
    "GFN96": "Generic PPA-GF",
    "GFP99": "Generic PE",
    "GFP98": "Generic PE-CF",
    "GFP97": "Generic PP",
    "GFP96": "Generic PP-CF",
    "GFP95": "Generic PP-GF",
    "GFR99": "Generic EVA",
    "GFR98": "Generic PHA",
    "GFS97": "Generic BVOH"
 }
--- a/html/index.html
+++ b/html/index.html
@ -47,7 +47,7 @@
 <!-- head -->
-    <div class="container">
+    <div class="content">
        <h1>FilaMan</h1>
        <p>Filament Management Tool</p>
        <p>Your smart solution for <strong>Filament Management</strong> in 3D printing.</p>
@ -55,10 +55,11 @@
        <h2>About FilaMan</h2>
        <p>
            FilaMan is a tool designed to simplify filament spool management. It allows you to identify and weigh filament spools, 
-            automatically sync data with the self-hosted <a href="https://github.com/Donkie/Spoolman" target="_blank">Spoolman</a> platform, 
+            automatically sync data with the self-hosted <a href="https://github.com/Donkie/Spoolman" target="_blank">Spoolman</a> platform.
            and ensure compatibility with <a href="https://github.com/spuder/OpenSpool" target="_blank">OpenSpool</a> for Bambu printers.
        </p>
        <p>Get more information at <a href="https://www.filaman.app" target="_blank">https://www.filaman.app</a> and <a href="https://github.com/ManuelW77/Filaman" target="_blank">https://github.com/ManuelW77/Filaman</a>.</p>
        <div class="features">
            <div class="feature">
                <h3>Spool Identification</h3>
@ -73,12 +74,6 @@
                <p>Works with OpenSpool to recognize and activate spools on Bambu printers.</p>
            </div>
        </div>
        <h2>Future Plans</h2>
        <p>
            We are working on expanding compatibility to support smaller NFC tags like NTag213 
            and developing custom software to enhance the OpenSpool experience.
        </p>
    </div>
 </body>
 </html>
--- a/html/own_filaments.json
+++ b/html/own_filaments.json
@ -0,0 +1,31 @@
 {
    "TPU": "GFU99",
    "PA": "GFN99",
    "PA-CF": "GFN98",
    "PLA": "GFL99",
    "PLA Silk": "GFL96",
    "PLA-CF": "GFL98",
    "PLA High Speed": "GFL95",
    "PETG": "GFG99",
    "PETG-CF": "GFG98",
    "PCTG": "GFG97",
    "ABS": "GFB99",
    "ABS+HS": "GFB99",
    "PC": "GFC99",
    "PC/ABS": "GFC99",
    "ASA": "GFB98",
    "PVA": "GFS99",
    "HIPS": "GFS98",
    "PPS-CF": "GFT98",
    "PPS": "GFT97",
    "PPA-CF": "GFN97",
    "PPA-GF": "GFN96",
    "PE": "GFP99",
    "PE-CF": "GFP98",
    "PP": "GFP97",
    "PP-CF": "GFP96",
    "PP-GF": "GFP95",
    "EVA": "GFR99",
    "PHA": "GFR98",
    "BVOH": "GFS97"
 }
--- a/html/rfid.js
+++ b/html/rfid.js
@ -150,6 +150,13 @@ function initWebSocket() {
                    ramStatus.textContent = `${data.freeHeap}k`;
                }
            }
            else if (data.type === 'setSpoolmanSettings') {
                if (data.payload == 'success') {
                    showNotification(`Spoolman Settings set successfully`, true);
                } else {
                    showNotification(`Error setting Spoolman Settings`, false);
                }
            }
        };
    } catch (error) {
        isConnected = false;
@ -285,6 +292,14 @@ function displayAmsData(amsData) {
                    <img src="spool_in.png" alt="Spool In" style="width: 48px; height: 48px; transform: rotate(180deg) scaleX(-1);">
                </button>`;
            const spoolmanButtonHtml = `
                <button class="spool-button" onclick="handleSpoolmanSettings('${tray.tray_info_idx}', '${tray.setting_id}', '${tray.cali_idx}', '${tray.nozzle_temp_min}', '${tray.nozzle_temp_max}')" 
                        style="position: absolute; bottom: 0px; right: 0px; 
                               background: none; border: none; padding: 0; 
                               cursor: pointer; display: none;">
                    <img src="set_spoolman.png" alt="Spool In" style="width: 38px; height: 38px;">
                </button>`;
            if (!hasAnyContent) {
                return `
                    <div class="tray">
@ -348,6 +363,7 @@ function displayAmsData(amsData) {
                        ${trayDetails}
                        ${tempHTML}
                        ${(ams.ams_id === 255 && tray.tray_type !== '') ? outButtonHtml : ''}
                        ${(tray.setting_id != "" && tray.setting_id != "null") ? spoolmanButtonHtml : ''}
                    </div>
                </div>`;
@ -373,6 +389,36 @@ function updateSpoolButtons(show) {
    });
 }
 function handleSpoolmanSettings(tray_info_idx, setting_id, cali_idx, nozzle_temp_min, nozzle_temp_max) {
    // Hole das ausgewählte Filament
    const selectedText = document.getElementById("selected-filament").textContent;
    // Finde die ausgewählte Spule in den Daten
    const selectedSpool = spoolsData.find(spool => 
        `${spool.id} | ${spool.filament.name} (${spool.filament.material})` === selectedText
    );
    const payload = {
        type: 'setSpoolmanSettings',
        payload: {
            filament_id: selectedSpool.filament.id,
            tray_info_idx: tray_info_idx,
            setting_id: setting_id,
            cali_idx: cali_idx,
            temp_min: nozzle_temp_min,
            temp_max: nozzle_temp_max
        }
    };
    try {
        socket.send(JSON.stringify(payload));
        showNotification(`Setting send to Spoolman`, true);
    } catch (error) {
        console.error("Error while sending settings to Spoolman:", error);
        showNotification("Error while sending!", false);
    }
 }
 function handleSpoolOut() {
    // Erstelle Payload
    const payload = {
@ -594,8 +640,6 @@ function writeNfcTag() {
    // Erstelle das NFC-Datenpaket mit korrekten Datentypen
    const nfcData = {
        version: "2.0",
        protocol: "openspool",
        color_hex: selectedSpool.filament.color_hex || "FFFFFF",
        type: selectedSpool.filament.material,
        min_temp: minTemp,
--- a/html/set_spoolman.png
+++ b/html/set_spoolman.png
--- a/html/spoolman.html
+++ b/html/spoolman.html
@ -52,11 +52,18 @@
            if (spoolmanUrl && spoolmanUrl.trim() !== "") {
                document.getElementById('spoolmanUrl').value = spoolmanUrl;
            }
            // Initialize OctoPrint fields visibility
            toggleOctoFields();
        };
        function checkSpoolmanInstance() {
            const url = document.getElementById('spoolmanUrl').value;
-            fetch(`/api/checkSpoolman?url=${encodeURIComponent(url)}`)
+            const spoolmanOctoEnabled = document.getElementById('spoolmanOctoEnabled').checked;
            const spoolmanOctoUrl = document.getElementById('spoolmanOctoUrl').value;
            const spoolmanOctoToken = document.getElementById('spoolmanOctoToken').value;
            fetch(`/api/checkSpoolman?url=${encodeURIComponent(url)}&octoEnabled=${spoolmanOctoEnabled}&octoUrl=${spoolmanOctoUrl}&octoToken=${spoolmanOctoToken}`)
                .then(response => response.json())
                .then(data => {
                    if (data.healthy) {
@ -74,8 +81,10 @@
            const ip = document.getElementById('bambuIp').value;
            const serial = document.getElementById('bambuSerial').value;
            const code = document.getElementById('bambuCode').value;
            const autoSend = document.getElementById('autoSend').checked;
            const autoSendTime = document.getElementById('autoSendTime').value;
-            fetch(`/api/bambu?bambu_ip=${encodeURIComponent(ip)}&bambu_serialnr=${encodeURIComponent(serial)}&bambu_accesscode=${encodeURIComponent(code)}`)
+            fetch(`/api/bambu?bambu_ip=${encodeURIComponent(ip)}&bambu_serialnr=${encodeURIComponent(serial)}&bambu_accesscode=${encodeURIComponent(code)}&autoSend=${autoSend}&autoSendTime=${autoSendTime}`)
                .then(response => response.json())
                .then(data => {
                    if (data.healthy) {
@ -88,6 +97,15 @@
                    document.getElementById('bambuStatusMessage').innerText = 'Error while saving: ' + error.message;
                });
        }
        /**
         * Controls visibility of OctoPrint configuration fields based on checkbox state
         * Called on page load and when checkbox changes
         */
        function toggleOctoFields() {
            const octoEnabled = document.getElementById('spoolmanOctoEnabled').checked;
            document.getElementById('octoFields').style.display = octoEnabled ? 'block' : 'none';
        }
    </script>
    <script>
        var spoolmanUrl = "{{spoolmanUrl}}";
@ -95,27 +113,58 @@
    <div class="content">
        <h1>Spoolman API URL / Bambu Credentials</h1>
        <label for="spoolmanUrl">Set URL/IP to your Spoolman-Instanz:</label>
        <input type="text" id="spoolmanUrl" placeholder="http://ip-or-url-of-your-spoolman-instanz:port">
        <button onclick="checkSpoolmanInstance()">Save Spoolman URL</button>
        <p id="statusMessage"></p>
-        <h2>Bambu Lab Printer Credentials</h2>
+        <div class="card">
-        <div class="bambu-settings">
+            <div class="card-body">
-            <div class="input-group">
+                <h5 class="card-title">Set URL/IP to your Spoolman-Instanz</h5>
-                <label for="bambuIp">Bambu Drucker IP-Adresse:</label>
+                <input type="text" id="spoolmanUrl" placeholder="http://ip-or-url-of-your-spoolman-instanz:port">
-                <input type="text" id="bambuIp" placeholder="192.168.1.xxx" value="{{bambuIp}}">
+                <h5 class="card-title">If you want to enable sending Spool to Spoolman Octoprint Plugin:</h5>
                <p>
                    <input type="checkbox" id="spoolmanOctoEnabled" {{spoolmanOctoEnabled}} onchange="toggleOctoFields()"> Send to Octo-Plugin
                </p>
                <div id="octoFields" style="display: none;">
                    <p>
                        <input type="text" id="spoolmanOctoUrl" placeholder="http://ip-or-url-of-your-octoprint-instanz:port" value="{{spoolmanOctoUrl}}">
                        <input type="text" id="spoolmanOctoToken" placeholder="Your Octoprint Token" value="{{spoolmanOctoToken}}">
                    </p>
                </div>
                <button onclick="checkSpoolmanInstance()">Save Spoolman URL</button>
                <p id="statusMessage"></p>
            </div>
-            <div class="input-group">
+        </div>
-                <label for="bambuSerial">Drucker Seriennummer:</label>
+
-                <input type="text" id="bambuSerial" placeholder="BBLXXXXXXXX" value="{{bambuSerial}}">
+        <div class="card">
            <div class="card-body">
                <h5 class="card-title">Bambu Lab Printer Credentials</h5>
                <div class="bambu-settings">
                    <div class="input-group">
                        <label for="bambuIp">Bambu Drucker IP-Adresse:</label>
                        <input type="text" id="bambuIp" placeholder="192.168.1.xxx" value="{{bambuIp}}">
                    </div>
                    <div class="input-group">
                        <label for="bambuSerial">Drucker Seriennummer:</label>
                        <input type="text" id="bambuSerial" placeholder="BBLXXXXXXXX" value="{{bambuSerial}}">
                    </div>
                    <div class="input-group">
                        <label for="bambuCode">Access Code:</label>
                        <input type="text" id="bambuCode" placeholder="Access Code vom Drucker" value="{{bambuCode}}">
                    </div>
                    <hr>
                    <p>If activated, FilaMan will automatically update the next filled tray with the last scanned and weighed spool.</p>
                    <div class="input-group" style="display: flex; margin-bottom: 0;">
                        <label for="autoSend" style="width: 250px; margin-right: 5px;">Auto Send to Bambu:</label>
                        <label for="autoSendTime" style="width: 250px; margin-right: 5px;">Wait for Spool in Sec:</label>
                    </div>
                    <div class="input-group" style="display: flex;">
                        <input type="checkbox" id="autoSend" {{autoSendToBambu}} style="width: 190px; margin-right: 10px;">
                        <input type="number" min="60" id="autoSendTime" placeholder="Time to wait" value="{{autoSendTime}}" style="width: 100px;">
                    </div>
                    <button style="margin: 0;" onclick="saveBambuCredentials()">Save Bambu Credentials</button>
                    <p id="bambuStatusMessage"></p>
                </div>
            </div>
            <div class="input-group">
                <label for="bambuCode">Access Code:</label>
                <input type="text" id="bambuCode" placeholder="Access Code vom Drucker" value="{{bambuCode}}">
            </div>
            <button onclick="saveBambuCredentials()">Save Bambu Credentials</button>
            <p id="bambuStatusMessage"></p>
        </div>
    </div>
 </body>
--- a/html/spoolman.js
+++ b/html/spoolman.js
@ -86,7 +86,7 @@ function populateVendorDropdown(data, selectedSmId = null) {
    });
    // Nach der Schleife: Formatierung der Gesamtlänge
-    console.log("Total Lenght: ", totalLength);
+    console.log("Total Length: ", totalLength);
    const formattedLength = totalLength > 1000 
        ? (totalLength / 1000).toFixed(2) + " km" 
        : totalLength.toFixed(2) + " m";
@ -97,13 +97,15 @@ function populateVendorDropdown(data, selectedSmId = null) {
        ? (weightInKg / 1000).toFixed(2) + " t" 
        : weightInKg.toFixed(2) + " kg";
-    // Dropdown mit gefilterten Herstellern befüllen
+    // Dropdown mit gefilterten Herstellern befüllen - alphabetisch sortiert
-    Object.entries(filteredVendors).forEach(([id, name]) => {
+    Object.entries(filteredVendors)
-        const option = document.createElement("option");
+        .sort(([, nameA], [, nameB]) => nameA.localeCompare(nameB)) // Sort vendors alphabetically by name
-        option.value = id;
+        .forEach(([id, name]) => {
-        option.textContent = name;
+            const option = document.createElement("option");
-        vendorSelect.appendChild(option);
+            option.value = id;
-    });
+            option.textContent = name;
            vendorSelect.appendChild(option);
        });
    document.getElementById("totalSpools").textContent = totalSpools;
    document.getElementById("spoolsWithoutTag").textContent = spoolsWithoutTag;
--- a/html/style.css
+++ b/html/style.css
@ -188,14 +188,18 @@ label {
    font-weight: bold; 
 }
-input[type="text"], input[type="submit"] { 
+input[type="text"], input[type="submit"], input[type="number"] { 
    padding: 10px; 
    border: 1px solid #ccc; 
    border-radius: 5px; 
    font-size: 16px; 
 }
-input[type="text"]:focus { 
+input[type="number"] { 
    width: 108px !important; 
 }
 input[type="text"]:focus, input[type="number"]:focus { 
    border-color: #007bff; 
    outline: none; 
 }
@ -279,9 +283,10 @@ a:hover {
 /* Karten-Stil für optische Trennung */
 .card {
-    background: #f9f9f9;
+    background: var(--primary-color);
    width: 500px;
    padding: 15px;
-    margin: 20px 0;
+    margin: 20px auto;
    border-radius: 8px;
    box-shadow: 0 2px 4px rgba(0, 0, 0, 0.1);
 }
@ -760,17 +765,19 @@ a:hover {
    right: 20px;
    padding: 15px 25px;
    border-radius: 4px;
-    color: white;
+    color: black;
    z-index: 1000;
    animation: slideIn 0.3s ease-out;
 }
 .notification.success {
    background-color: #28a745;
    color: black !important;
 }
 .notification.error {
    background-color: #dc3545;
    color: white !important;
 }
 .notification.fade-out {
@ -959,7 +966,6 @@ input[type="submit"]:disabled,
 /* Bambu Settings Erweiterung */
 .bambu-settings {
    background: white;
    padding: 20px;
    border-radius: 8px;
    box-shadow: 0 2px 4px rgba(0, 0, 0, 0.1);
@ -1013,6 +1019,7 @@ input[type="submit"]:disabled,
    color: #000;
    vertical-align: middle;
    margin-left: 0.5rem;
    text-shadow: none !important;
 }
 .progress-container {
--- a/img/7-enable.png
+++ b/img/7-enable.png
--- a/img/ESP32-SPI-Pins.png
+++ b/img/ESP32-SPI-Pins.png
--- a/img/IMG_2589.jpeg
+++ b/img/IMG_2589.jpeg
--- a/img/IMG_2590.jpeg
+++ b/img/IMG_2590.jpeg
--- a/img/Schaltplan.png
+++ b/img/Schaltplan.png
--- a/platformio.ini
+++ b/platformio.ini
@ -9,7 +9,9 @@
 ; https://docs.platformio.org/page/projectconf.html
 [common]
-version = "1.3.80"
+version = "1.4.0"
 to_old_version = "1.4.0"
 ##
 [env:esp32dev]
 platform = espressif32
@ -33,7 +35,8 @@ lib_deps =
    digitaldragon/SSLClient @ ^1.3.2
 ; Enable SPIFFS upload
-board_build.filesystem = spiffs
+#board_build.filesystem = spiffs
 board_build.filesystem = littlefs
 ; Update partition settings
 board_build.partitions = partitions.csv
 board_upload.flash_size = 4MB
@ -44,13 +47,14 @@ build_flags =
    -Os
    -ffunction-sections
    -fdata-sections
-    -DNDEBUG
+    #-DNDEBUG
    -mtext-section-literals
    -DVERSION=\"${common.version}\"
    -DTOOLDVERSION=\"${common.to_old_version}\"
    -DASYNCWEBSERVER_REGEX
-    -DCORE_DEBUG_LEVEL=3
+    #-DCORE_DEBUG_LEVEL=3
    -DCONFIG_ARDUHAL_LOG_COLORS=1
-    -DOTA_DEBUG=1
+    #-DOTA_DEBUG=1
    -DCONFIG_OPTIMIZATION_LEVEL_DEBUG=1
    -DBOOT_APP_PARTITION_OTA_0=1
    -DCONFIG_LWIP_TCP_MSL=60000
--- a/src/api.cpp
+++ b/src/api.cpp
@ -5,41 +5,20 @@
 bool spoolman_connected = false;
 String spoolmanUrl = "";
 bool octoEnabled = false;
 String octoUrl = "";
 String octoToken = "";
 struct SendToApiParams {
    String httpType;
    String spoolsUrl;
    String updatePayload;
    String octoToken;
 };
-/*
+JsonDocument fetchSingleSpoolInfo(int spoolId) {
    // Spoolman Data
    {
        "version":"1.0",
        "protocol":"openspool",
        "color_hex":"AF7933",
        "type":"ABS",
        "min_temp":175,
        "max_temp":275,
        "brand":"Overture"
    }
    // FilaMan Data
    {
        "version":"1.0",
        "protocol":"openspool",
        "color_hex":"AF7933",
        "type":"ABS",
        "min_temp":175,
        "max_temp":275,
        "brand":"Overture",
        "sm_id": 
    }
 */
 JsonDocument fetchSpoolsForWebsite() {
    HTTPClient http;
-    String spoolsUrl = spoolmanUrl + apiUrl + "/spool";
+    String spoolsUrl = spoolmanUrl + apiUrl + "/spool/" + spoolId;
    Serial.print("Rufe Spool-Daten von: ");
    Serial.println(spoolsUrl);
@ -56,84 +35,45 @@ JsonDocument fetchSpoolsForWebsite() {
            Serial.print("Fehler beim Parsen der JSON-Antwort: ");
            Serial.println(error.c_str());
        } else {
-            JsonArray spools = doc.as<JsonArray>();
+            String filamentType = doc["filament"]["material"].as<String>();
-            JsonArray filteredSpools = filteredDoc.to<JsonArray>();
+            String filamentBrand = doc["filament"]["vendor"]["name"].as<String>();
-            for (JsonObject spool : spools) {
+            int nozzle_temp_min = 0;
-                JsonObject filteredSpool = filteredSpools.add<JsonObject>();
+            int nozzle_temp_max = 0;
-                filteredSpool["extra"]["nfc_id"] = spool["extra"]["nfc_id"];
+            if (doc["filament"]["extra"]["nozzle_temperature"].is<String>()) {
                String tempString = doc["filament"]["extra"]["nozzle_temperature"].as<String>();
                tempString.replace("[", "");
                tempString.replace("]", "");
                int commaIndex = tempString.indexOf(',');
-                JsonObject filament = filteredSpool["filament"].to<JsonObject>();
+                if (commaIndex != -1) {
-                filament["sm_id"] = spool["id"];
+                    nozzle_temp_min = tempString.substring(0, commaIndex).toInt();
-                filament["id"] = spool["filament"]["id"];
+                    nozzle_temp_max = tempString.substring(commaIndex + 1).toInt();
-                filament["name"] = spool["filament"]["name"];
+                }
                filament["material"] = spool["filament"]["material"];
                filament["color_hex"] = spool["filament"]["color_hex"];
                filament["nozzle_temperature"] = spool["filament"]["extra"]["nozzle_temperature"]; // [190,230]
                filament["price_meter"] = spool["filament"]["extra"]["price_meter"];
                filament["price_gramm"] = spool["filament"]["extra"]["price_gramm"];
                JsonObject vendor = filament["vendor"].to<JsonObject>();
                vendor["id"] = spool["filament"]["vendor"]["id"];
                vendor["name"] = spool["filament"]["vendor"]["name"];
            } 
        }
    } else {
        Serial.print("Fehler beim Abrufen der Spool-Daten. HTTP-Code: ");
        Serial.println(httpCode);
    }
-    http.end();
+            String filamentColor = doc["filament"]["color_hex"].as<String>();
-    return filteredDoc;
+            filamentColor.toUpperCase();
 }
-JsonDocument fetchAllSpoolsInfo() {
+            String tray_info_idx = doc["filament"]["extra"]["bambu_idx"].as<String>();
-    HTTPClient http;
+            tray_info_idx.replace("\"", "");
    String spoolsUrl = spoolmanUrl + apiUrl + "/spool";
-    Serial.print("Rufe Spool-Daten von: ");
+            String cali_idx = doc["filament"]["extra"]["bambu_cali_id"].as<String>(); // "\"153\""
-    Serial.println(spoolsUrl);
+            cali_idx.replace("\"", "");
-    http.begin(spoolsUrl);
+            String bambu_setting_id = doc["filament"]["extra"]["bambu_setting_id"].as<String>(); // "\"PFUSf40e9953b40d3d\""
-    int httpCode = http.GET();
+            bambu_setting_id.replace("\"", "");
-    JsonDocument filteredDoc;
+            doc.clear();
    if (httpCode == HTTP_CODE_OK) {
        String payload = http.getString();
        JsonDocument doc;
        DeserializationError error = deserializeJson(doc, payload);
        if (error) {
            Serial.print("Fehler beim Parsen der JSON-Antwort: ");
            Serial.println(error.c_str());
        } else {
            JsonArray spools = doc.as<JsonArray>();
            JsonArray filteredSpools = filteredDoc.to<JsonArray>();
-            for (JsonObject spool : spools) {
+            filteredDoc["color"] = filamentColor;
-                JsonObject filteredSpool = filteredSpools.add<JsonObject>();
+            filteredDoc["type"] = filamentType;
-                filteredSpool["price"] = spool["price"];
+            filteredDoc["nozzle_temp_min"] = nozzle_temp_min;
-                filteredSpool["remaining_weight"] = spool["remaining_weight"];
+            filteredDoc["nozzle_temp_max"] = nozzle_temp_max;
-                filteredSpool["used_weight"] = spool["used_weight"];
+            filteredDoc["brand"] = filamentBrand;
-                filteredSpool["extra"]["nfc_id"] = spool["extra"]["nfc_id"];
+            filteredDoc["tray_info_idx"] = tray_info_idx;
-
+            filteredDoc["cali_idx"] = cali_idx;
-                JsonObject filament = filteredSpool["filament"].to<JsonObject>();
+            filteredDoc["bambu_setting_id"] = bambu_setting_id;
                filament["id"] = spool["filament"]["id"];
                filament["name"] = spool["filament"]["name"];
                filament["material"] = spool["filament"]["material"];
                filament["density"] = spool["filament"]["density"];
                filament["diameter"] = spool["filament"]["diameter"];
                filament["spool_weight"] = spool["filament"]["spool_weight"];
                filament["color_hex"] = spool["filament"]["color_hex"];
                JsonObject vendor = filament["vendor"].to<JsonObject>();
                vendor["id"] = spool["filament"]["vendor"]["id"];
                vendor["name"] = spool["filament"]["vendor"]["name"];
                JsonObject extra = filament["extra"].to<JsonObject>();
                extra["nozzle_temperature"] = spool["filament"]["extra"]["nozzle_temperature"];
                extra["price_gramm"] = spool["filament"]["extra"]["price_gramm"];
                extra["price_meter"] = spool["filament"]["extra"]["price_meter"];
            }
        }
    } else {
        Serial.print("Fehler beim Abrufen der Spool-Daten. HTTP-Code: ");
@ -151,19 +91,21 @@ void sendToApi(void *parameter) {
    String httpType = params->httpType;
    String spoolsUrl = params->spoolsUrl;
    String updatePayload = params->updatePayload;
-    
+    String octoToken = params->octoToken;    
    HTTPClient http;
    http.begin(spoolsUrl);
    http.addHeader("Content-Type", "application/json");
    if (octoEnabled && octoToken != "") http.addHeader("X-Api-Key", octoToken);
    int httpCode = http.PUT(updatePayload);
    if (httpType == "PATCH") httpCode = http.PATCH(updatePayload);
    if (httpType == "POST") httpCode = http.POST(updatePayload);
    if (httpCode == HTTP_CODE_OK) {
-        Serial.println("Gewicht der Spule erfolgreich aktualisiert");
+        Serial.println("Spoolman erfolgreich aktualisiert");
    } else {
-        Serial.println("Fehler beim Aktualisieren des Gewichts der Spule");
+        Serial.println("Fehler beim Senden an Spoolman!");
        oledShowMessage("Spoolman update failed");
        vTaskDelay(2000 / portTICK_PERIOD_MS);
    }
@ -262,6 +204,89 @@ uint8_t updateSpoolWeight(String spoolId, uint16_t weight) {
    return 1;
 }
 bool updateSpoolOcto(int spoolId) {
    String spoolsUrl = octoUrl + "/plugin/Spoolman/selectSpool";
    Serial.print("Update Spule in Octoprint mit URL: ");
    Serial.println(spoolsUrl);
    JsonDocument updateDoc;
    updateDoc["spool_id"] = spoolId;
    updateDoc["tool"] = "tool0";
    String updatePayload;
    serializeJson(updateDoc, updatePayload);
    Serial.print("Update Payload: ");
    Serial.println(updatePayload);
    SendToApiParams* params = new SendToApiParams();
    if (params == nullptr) {
        Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
        return false;
    }
    params->httpType = "POST";
    params->spoolsUrl = spoolsUrl;
    params->updatePayload = updatePayload;
    params->octoToken = octoToken;
    // Erstelle die Task
    BaseType_t result = xTaskCreate(
        sendToApi,                // Task-Funktion
        "SendToApiTask",          // Task-Name
        4096,                     // Stackgröße in Bytes
        (void*)params,            // Parameter
        0,                        // Priorität
        NULL                      // Task-Handle (nicht benötigt)
    );
    return true;
 }
 bool updateSpoolBambuData(String payload) {
    JsonDocument doc;
    DeserializationError error = deserializeJson(doc, payload);
    if (error) {
        Serial.print("Fehler beim JSON-Parsing: ");
        Serial.println(error.c_str());
        return false;
    }
    String spoolsUrl = spoolmanUrl + apiUrl + "/filament/" + doc["filament_id"].as<String>();
    Serial.print("Update Spule mit URL: ");
    Serial.println(spoolsUrl);
    JsonDocument updateDoc;
    updateDoc["extra"]["bambu_setting_id"] = "\"" + doc["setting_id"].as<String>() + "\"";
    updateDoc["extra"]["bambu_cali_id"] = "\"" + doc["cali_idx"].as<String>() + "\"";
    updateDoc["extra"]["bambu_idx"] = "\"" + doc["tray_info_idx"].as<String>() + "\"";
    updateDoc["extra"]["nozzle_temperature"] = "[" + doc["temp_min"].as<String>() + "," + doc["temp_max"].as<String>() + "]";
    String updatePayload;
    serializeJson(updateDoc, updatePayload);
    Serial.print("Update Payload: ");
    Serial.println(updatePayload);
    SendToApiParams* params = new SendToApiParams();
    if (params == nullptr) {
        Serial.println("Fehler: Kann Speicher für Task-Parameter nicht allokieren.");
        return false;
    }
    params->httpType = "PATCH";
    params->spoolsUrl = spoolsUrl;
    params->updatePayload = updatePayload;
    // Erstelle die Task
    BaseType_t result = xTaskCreate(
        sendToApi,                // Task-Funktion
        "SendToApiTask",          // Task-Name
        4096,                     // Stackgröße in Bytes
        (void*)params,            // Parameter
        0,                        // Priorität
        NULL                      // Task-Handle (nicht benötigt)
    );
    return true;
 }
 // #### Spoolman init
 bool checkSpoolmanExtraFields() {
    HTTPClient http;
@ -403,12 +428,13 @@ bool checkSpoolmanExtraFields() {
                }
            }
        }
        http.end();  
    }
    Serial.println("-------- ENDE Prüfe Felder --------");
    Serial.println();
    http.end();
    return true;
 }
@ -452,17 +478,24 @@ bool checkSpoolmanInstance(const String& url) {
    return false;
 }
-bool saveSpoolmanUrl(const String& url) {
+bool saveSpoolmanUrl(const String& url, bool octoOn, const String& octoWh, const String& octoTk) {
    if (!checkSpoolmanInstance(url)) return false;
    JsonDocument doc;
    doc["url"] = url;
-    Serial.print("Speichere URL in Datei: ");
+    doc["octoEnabled"] = octoOn;
-    Serial.println(url);
+    doc["octoUrl"] = octoWh;
    doc["octoToken"] = octoTk;
    Serial.print("Speichere Spoolman Data in Datei: ");
    Serial.println(doc.as<String>());
    if (!saveJsonValue("/spoolman_url.json", doc)) {
        Serial.println("Fehler beim Speichern der Spoolman-URL.");
        return false;
    }
    spoolmanUrl = url;
    octoEnabled = octoOn;
    octoUrl = octoWh;
    octoToken = octoTk;
    return true;
 }
@ -470,6 +503,13 @@ bool saveSpoolmanUrl(const String& url) {
 String loadSpoolmanUrl() {
    JsonDocument doc;
    if (loadJsonValue("/spoolman_url.json", doc) && doc["url"].is<String>()) {
        octoEnabled = (doc["octoEnabled"].is<bool>()) ? doc["octoEnabled"].as<bool>() : false;
        if (octoEnabled && doc["octoToken"].is<String>() && doc["octoUrl"].is<String>())
        {
            octoUrl = doc["octoUrl"].as<String>();
            octoToken = doc["octoToken"].as<String>();
        }
        return doc["url"].as<String>();
    }
    Serial.println("Keine gültige Spoolman-URL gefunden.");
--- a/src/api.h
+++ b/src/api.h
@ -9,16 +9,19 @@
 extern bool spoolman_connected;
 extern String spoolmanUrl;
 extern bool octoEnabled;
 extern String octoUrl;
 extern String octoToken;
 bool checkSpoolmanInstance(const String& url);
-bool saveSpoolmanUrl(const String& url);
+bool saveSpoolmanUrl(const String& url, bool octoOn, const String& octoWh, const String& octoTk);
 String loadSpoolmanUrl(); // Neue Funktion zum Laden der URL
 bool checkSpoolmanExtraFields(); // Neue Funktion zum Überprüfen der Extrafelder
-JsonDocument fetchSpoolsForWebsite(); // API-Funktion für die Webseite
+JsonDocument fetchSingleSpoolInfo(int spoolId); // API-Funktion für die Webseite
 JsonDocument fetchAllSpoolsInfo();
 void sendAmsData(AsyncWebSocketClient *client); // Neue Funktion zum Senden von AMS-Daten
 bool updateSpoolTagId(String uidString, const char* payload); // Neue Funktion zum Aktualisieren eines Spools
 uint8_t updateSpoolWeight(String spoolId, uint16_t weight); // Neue Funktion zum Aktualisieren des Gewichts
 bool initSpoolman(); // Neue Funktion zum Initialisieren von Spoolman
 bool updateSpoolBambuData(String payload); // Neue Funktion zum Aktualisieren der Bambu-Daten
 bool updateSpoolOcto(int spoolId); // Neue Funktion zum Aktualisieren der Octo-Daten
 #endif
--- a/src/bambu.cpp
+++ b/src/bambu.cpp
@ -23,14 +23,21 @@ const char* bambu_username = "bblp";
 const char* bambu_ip = nullptr;
 const char* bambu_accesscode = nullptr;
 const char* bambu_serialnr = nullptr;
 String g_bambu_ip = "";
 String g_bambu_accesscode = "";
 String g_bambu_serialnr = "";
 bool bambu_connected = false;
 bool autoSendToBambu = false;
 int autoSetToBambuSpoolId = 0;
 // Globale Variablen für AMS-Daten
 int ams_count = 0;
 String amsJsonData;  // Speichert das fertige JSON für WebSocket-Clients
-AMSData ams_data[MAX_AMS];  // Definition des Arrays
+AMSData ams_data[MAX_AMS];  // Definition des Arrays;
-bool saveBambuCredentials(const String& ip, const String& serialnr, const String& accesscode) {
+bool saveBambuCredentials(const String& ip, const String& serialnr, const String& accesscode, bool autoSend, const String& autoSendTime) {
    if (BambuMqttTask) {
        vTaskDelete(BambuMqttTask);
    }
@ -39,6 +46,8 @@ bool saveBambuCredentials(const String& ip, const String& serialnr, const String
    doc["bambu_ip"] = ip;
    doc["bambu_accesscode"] = accesscode;
    doc["bambu_serialnr"] = serialnr;
    doc["autoSendToBambu"] = autoSend;
    doc["autoSendTime"] = (autoSendTime != "") ? autoSendTime.toInt() : autoSetBambuAmsCounter;
    if (!saveJsonValue("/bambu_credentials.json", doc)) {
        Serial.println("Fehler beim Speichern der Bambu-Credentials.");
@ -49,6 +58,8 @@ bool saveBambuCredentials(const String& ip, const String& serialnr, const String
    bambu_ip = ip.c_str();
    bambu_accesscode = accesscode.c_str();
    bambu_serialnr = serialnr.c_str();
    autoSendToBambu = autoSend;
    autoSetBambuAmsCounter = autoSendTime.toInt();
    vTaskDelay(100 / portTICK_PERIOD_MS);
    if (!setupMqtt()) return false;
@ -64,14 +75,21 @@ bool loadBambuCredentials() {
        String code = doc["bambu_accesscode"].as<String>();
        String serial = doc["bambu_serialnr"].as<String>();
        g_bambu_ip = ip;
        g_bambu_accesscode = code;
        g_bambu_serialnr = serial;
        if (doc["autoSendToBambu"].is<bool>()) autoSendToBambu = doc["autoSendToBambu"].as<bool>();
        if (doc["autoSendTime"].is<int>()) autoSetBambuAmsCounter = doc["autoSendTime"].as<int>();
        ip.trim();
        code.trim();
        serial.trim();
        // Dynamische Speicherallokation für die globalen Pointer
-        bambu_ip = strdup(ip.c_str());
+        bambu_ip = g_bambu_ip.c_str();
-        bambu_accesscode = strdup(code.c_str());
+        bambu_accesscode = g_bambu_accesscode.c_str();
-        bambu_serialnr = strdup(serial.c_str());
+        bambu_serialnr = g_bambu_serialnr.c_str();
        report_topic = "device/" + String(bambu_serialnr) + "/report";
        //request_topic = "device/" + String(bambu_serialnr) + "/request";
@ -81,19 +99,49 @@ bool loadBambuCredentials() {
    return false;
 }
-String findFilamentIdx(String brand, String type) {
+struct FilamentResult {
    String key;
    String type;
 };
 FilamentResult findFilamentIdx(String brand, String type) {
    // JSON-Dokument für die Filament-Daten erstellen
    JsonDocument doc;
    // Laden der own_filaments.json
    String ownFilament = "";
    if (!loadJsonValue("/own_filaments.json", doc)) 
    {
        Serial.println("Fehler beim Laden der eigenen Filament-Daten");
    }
    else
    {
        // Durchsuche direkt nach dem Type als Schlüssel
        if (doc[type].is<String>()) {
            ownFilament = doc[type].as<String>();
        }
        doc.clear();
    }
    doc.clear();
    // Laden der bambu_filaments.json
-    if (!loadJsonValue("/bambu_filaments.json", doc)) {
+    if (!loadJsonValue("/bambu_filaments.json", doc)) 
    {
        Serial.println("Fehler beim Laden der Filament-Daten");
-        return "GFL99"; // Fallback auf Generic PLA
+        return {"GFL99", "PLA"}; // Fallback auf Generic PLA
    }
-    String searchKey;
+    // Wenn eigener Typ
    if (ownFilament != "")
    {
        if (doc[ownFilament].is<String>()) 
        {
            return {ownFilament, doc[ownFilament].as<String>()};
        }
    }
-    // 1. Suche nach Brand + Type Kombination
+    // 1. Erst versuchen wir die exakte Brand + Type Kombination zu finden
    String searchKey;
    if (brand == "Bambu" || brand == "Bambulab") {
        searchKey = "Bambu " + type;
    } else if (brand == "PolyLite") {
@ -109,23 +157,46 @@ String findFilamentIdx(String brand, String type) {
    // Durchsuche alle Einträge nach der Brand + Type Kombination
    for (JsonPair kv : doc.as<JsonObject>()) {
        if (kv.value().as<String>() == searchKey) {
-            return kv.key().c_str();
+            return {kv.key().c_str(), kv.value().as<String>()};
        }
    }
-    // 2. Wenn nicht gefunden, suche nach Generic + Type
+    // 2. Wenn nicht gefunden, zerlege den type String in Wörter und suche nach jedem Wort
-    searchKey = "Generic " + type;
+    // Sammle alle vorhandenen Filamenttypen aus der JSON
    std::vector<String> knownTypes;
    for (JsonPair kv : doc.as<JsonObject>()) {
-        if (kv.value().as<String>() == searchKey) {
+        String value = kv.value().as<String>();
-            return kv.key().c_str();
+        // Extrahiere den Typ ohne Markennamen
        if (value.indexOf(" ") != -1) {
            value = value.substring(value.indexOf(" ") + 1);
        }
        if (!value.isEmpty()) {
            knownTypes.push_back(value);
        }
    }
    // Zerlege den Input-Type in Wörter
    String typeStr = type;
    typeStr.trim();
    // Durchsuche für jedes bekannte Filament, ob es im Input vorkommt
    for (const String& knownType : knownTypes) {
        if (typeStr.indexOf(knownType) != -1) {
            // Suche nach diesem Typ in der Original-JSON
            for (JsonPair kv : doc.as<JsonObject>()) {
                String value = kv.value().as<String>();
                if (value.indexOf(knownType) != -1) {
                    return {kv.key().c_str(), knownType};
                }
            }
        }
    }
    // 3. Wenn immer noch nichts gefunden, gebe GFL99 zurück (Generic PLA)
-    return "GFL99";
+    return {"GFL99", "PLA"};
 }
-bool sendMqttMessage(String payload) {
+bool sendMqttMessage(const String& payload) {
    Serial.println("Sending MQTT message");
    Serial.println(payload);
    if (client.publish(report_topic.c_str(), payload.c_str())) 
@ -156,15 +227,22 @@ bool setBambuSpool(String payload) {
    int minTemp = doc["nozzle_temp_min"];
    int maxTemp = doc["nozzle_temp_max"];
    String type = doc["type"].as<String>();
    (type == "PLA+") ? type = "PLA" : type;
    String brand = doc["brand"].as<String>();
    String tray_info_idx = (doc["tray_info_idx"].as<String>() != "-1") ? doc["tray_info_idx"].as<String>() : "";
-    if (tray_info_idx == "") tray_info_idx = (brand != "" && type != "") ? findFilamentIdx(brand, type) : "";
+    if (tray_info_idx == "") {
        if (brand != "" && type != "") {
            FilamentResult result = findFilamentIdx(brand, type);
            tray_info_idx = result.key;
            type = result.type;  // Aktualisiere den type mit dem gefundenen Basistyp
        }
    }
    String setting_id = doc["bambu_setting_id"].as<String>();
    String cali_idx = doc["cali_idx"].as<String>();
    doc.clear();
-    doc["print"]["sequence_id"] = 0;
+    doc["print"]["sequence_id"] = "0";
    doc["print"]["command"] = "ams_filament_setting";
    doc["print"]["ams_id"] = amsId < 200 ? amsId : 255;
    doc["print"]["tray_id"] = trayId < 200 ? trayId : 254;
@ -172,7 +250,7 @@ bool setBambuSpool(String payload) {
    doc["print"]["nozzle_temp_min"] = minTemp;
    doc["print"]["nozzle_temp_max"] = maxTemp;
    doc["print"]["tray_type"] = type;
-    doc["print"]["cali_idx"] = (cali_idx != "") ? cali_idx : "";
+    //doc["print"]["cali_idx"] = (cali_idx != "") ? cali_idx : "";
    doc["print"]["tray_info_idx"] = tray_info_idx;
    doc["print"]["setting_id"] = setting_id;
@ -194,13 +272,13 @@ bool setBambuSpool(String payload) {
    if (cali_idx != "") {
        yield();
-        doc["print"]["sequence_id"] = 0;
+        doc["print"]["sequence_id"] = "0";
        doc["print"]["command"] = "extrusion_cali_sel";
        doc["print"]["filament_id"] = tray_info_idx;
        doc["print"]["nozzle_diameter"] = "0.4";
        doc["print"]["cali_idx"] = cali_idx.toInt();
        doc["print"]["tray_id"] = trayId < 200 ? trayId : 254;
-        doc["print"]["ams_id"] = amsId < 200 ? amsId : 255;
+        //doc["print"]["ams_id"] = amsId < 200 ? amsId : 255;
        // Serialize the JSON
        String output;
@ -218,44 +296,120 @@ bool setBambuSpool(String payload) {
        doc.clear();
        yield();
    }
 /*
    if (setting_id != "") {
        yield();
        doc["print"]["sequence_id"] = 0;
        doc["print"]["command"] = "ams_filament_setting";
        doc["print"]["nozzle_temp_min"] = minTemp;
        doc["print"]["nozzle_temp_max"] = maxTemp;
        doc["print"]["setting_id"] = setting_id;
        doc["print"]["tray_color"] = color.length() == 8 ? color : color+"FF";
        doc["print"]["ams_id"] = amsId < 200 ? amsId : 255;
        doc["print"]["tray_id"] = trayId < 200 ? trayId : 254;
        doc["print"]["tray_info_idx"] = tray_info_idx;
        doc["print"]["tray_type"] = type;
-        // Serialize the JSON
+    return true;
-        String output;
+}
        serializeJson(doc, output);
-        if (sendMqttMessage(output)) {
+void autoSetSpool(int spoolId, uint8_t trayId) {
-            Serial.println("Filament Setting successfully set");
+    // wenn neue spule erkannt und autoSetToBambu > 0
    JsonDocument spoolInfo = fetchSingleSpoolInfo(spoolId);
    if (!spoolInfo.isNull())
    {
        // AMS und TRAY id ergänzen
        spoolInfo["amsId"] = 0;
        spoolInfo["trayId"] = trayId;
        Serial.println("Auto set spool");
        Serial.println(spoolInfo.as<String>());
        setBambuSpool(spoolInfo.as<String>());
        oledShowMessage("Spool set");
    }
    // id wieder zurücksetzen damit abgeschlossen
    autoSetToBambuSpoolId = 0;
 }
 void updateAmsWsData(JsonDocument& doc, JsonArray& amsArray, int& ams_count, JsonObject& vtTray) {
    // Fortfahren mit der bestehenden Verarbeitung, da Änderungen gefunden wurden
    ams_count = amsArray.size();
    for (int i = 0; i < ams_count && i < 16; i++) {
        JsonObject amsObj = amsArray[i];
        JsonArray trayArray = amsObj["tray"].as<JsonArray>();
        ams_data[i].ams_id = i; // Setze die AMS-ID
        for (int j = 0; j < trayArray.size() && j < 4; j++) { // Annahme: Maximal 4 Trays pro AMS
            JsonObject trayObj = trayArray[j];
            ams_data[i].trays[j].id = trayObj["id"].as<uint8_t>();
            ams_data[i].trays[j].tray_info_idx = trayObj["tray_info_idx"].as<String>();
            ams_data[i].trays[j].tray_type = trayObj["tray_type"].as<String>();
            ams_data[i].trays[j].tray_sub_brands = trayObj["tray_sub_brands"].as<String>();
            ams_data[i].trays[j].tray_color = trayObj["tray_color"].as<String>();
            ams_data[i].trays[j].nozzle_temp_min = trayObj["nozzle_temp_min"].as<int>();
            ams_data[i].trays[j].nozzle_temp_max = trayObj["nozzle_temp_max"].as<int>();
            if (trayObj["tray_type"].as<String>() == "") ams_data[i].trays[j].setting_id = "";
            ams_data[i].trays[j].cali_idx = trayObj["cali_idx"].as<String>();
        }
    }
    // Setze ams_count auf die Anzahl der normalen AMS
    ams_count = amsArray.size();
    // Wenn externe Spule vorhanden, füge sie hinzu
    if (doc["print"]["vt_tray"].is<JsonObject>()) {
        //JsonObject vtTray = doc["print"]["vt_tray"];
        int extIdx = ams_count;  // Index für externe Spule
        ams_data[extIdx].ams_id = 255;  // Spezielle ID für externe Spule
        ams_data[extIdx].trays[0].id = 254;  // Spezielle ID für externes Tray
        ams_data[extIdx].trays[0].tray_info_idx = vtTray["tray_info_idx"].as<String>();
        ams_data[extIdx].trays[0].tray_type = vtTray["tray_type"].as<String>();
        ams_data[extIdx].trays[0].tray_sub_brands = vtTray["tray_sub_brands"].as<String>();
        ams_data[extIdx].trays[0].tray_color = vtTray["tray_color"].as<String>();
        ams_data[extIdx].trays[0].nozzle_temp_min = vtTray["nozzle_temp_min"].as<int>();
        ams_data[extIdx].trays[0].nozzle_temp_max = vtTray["nozzle_temp_max"].as<int>();
        if (doc["print"]["vt_tray"]["tray_type"].as<String>() != "")
        {
            //ams_data[extIdx].trays[0].setting_id = vtTray["setting_id"].as<String>();
            ams_data[extIdx].trays[0].cali_idx = vtTray["cali_idx"].as<String>();
        }
        else
        {
-            Serial.println("Failed to set Filament setting");
+            ams_data[extIdx].trays[0].setting_id = "";
-            return false;
+            ams_data[extIdx].trays[0].cali_idx = "";
        }
-
+        ams_count++;  // Erhöhe ams_count für die externe Spule
        doc.clear();
        yield();
    }
 */
-    return true;
+    // Erstelle JSON für WebSocket-Clients
    JsonDocument wsDoc;
    JsonArray wsArray = wsDoc.to<JsonArray>();
    for (int i = 0; i < ams_count; i++) {
        JsonObject amsObj = wsArray.add<JsonObject>();
        amsObj["ams_id"] = ams_data[i].ams_id;
        JsonArray trays = amsObj["tray"].to<JsonArray>();
        int maxTrays = (ams_data[i].ams_id == 255) ? 1 : 4;
        for (int j = 0; j < maxTrays; j++) {
            JsonObject trayObj = trays.add<JsonObject>();
            trayObj["id"] = ams_data[i].trays[j].id;
            trayObj["tray_info_idx"] = ams_data[i].trays[j].tray_info_idx;
            trayObj["tray_type"] = ams_data[i].trays[j].tray_type;
            trayObj["tray_sub_brands"] = ams_data[i].trays[j].tray_sub_brands;
            trayObj["tray_color"] = ams_data[i].trays[j].tray_color;
            trayObj["nozzle_temp_min"] = ams_data[i].trays[j].nozzle_temp_min;
            trayObj["nozzle_temp_max"] = ams_data[i].trays[j].nozzle_temp_max;
            trayObj["setting_id"] = ams_data[i].trays[j].setting_id;
            trayObj["cali_idx"] = ams_data[i].trays[j].cali_idx;
        }
    }
    serializeJson(wsArray, amsJsonData);
    wsDoc.clear();
    Serial.println("AMS data updated");
    sendAmsData(nullptr);
 }
 // init
 void mqtt_callback(char* topic, byte* payload, unsigned int length) {
    String message;
    for (int i = 0; i < length; i++) {
        message += (char)payload[i];
    }
@ -263,16 +417,20 @@ void mqtt_callback(char* topic, byte* payload, unsigned int length) {
    // JSON-Dokument parsen
    JsonDocument doc;
    DeserializationError error = deserializeJson(doc, message);
-    if (error) {
+    message = "";
    if (error) 
    {
        Serial.print("Fehler beim Parsen des JSON: ");
        Serial.println(error.c_str());
        return;
    }
    // Prüfen, ob "print->upgrade_state" und "print.ams.ams" existieren
-    if (doc["print"]["upgrade_state"].is<String>()) {
+    if (doc["print"]["upgrade_state"].is<JsonObject>() || (doc["print"]["command"].is<String>() && doc["print"]["command"] == "push_status")) 
    {
        // Prüfen ob AMS-Daten vorhanden sind
-        if (!doc["print"]["ams"].is<String>() || !doc["print"]["ams"]["ams"].is<String>()) {
+        if (!doc["print"]["ams"].is<JsonObject>() || !doc["print"]["ams"]["ams"].is<JsonArray>()) 
        {
            return;
        }
@ -304,154 +462,81 @@ void mqtt_callback(char* topic, byte* payload, unsigned int length) {
            // Vergleiche die Trays
            for (int j = 0; j < trayArray.size() && j < 4 && !hasChanges; j++) {
                JsonObject trayObj = trayArray[j];
                if (trayObj["tray_type"].as<String>() == "") ams_data[storedIndex].trays[j].setting_id = "";
                if (trayObj["setting_id"].isNull()) trayObj["setting_id"] = "";
                if (trayObj["tray_info_idx"].as<String>() != ams_data[storedIndex].trays[j].tray_info_idx ||
                    trayObj["tray_type"].as<String>() != ams_data[storedIndex].trays[j].tray_type ||
                    trayObj["tray_color"].as<String>() != ams_data[storedIndex].trays[j].tray_color ||
                    (trayObj["setting_id"].as<String>() != "" && trayObj["setting_id"].as<String>() != ams_data[storedIndex].trays[j].setting_id) ||
                    trayObj["cali_idx"].as<String>() != ams_data[storedIndex].trays[j].cali_idx) {
                    hasChanges = true;
                    if (autoSendToBambu && autoSetToBambuSpoolId > 0 && hasChanges)
                    {
                        autoSetSpool(autoSetToBambuSpoolId, ams_data[storedIndex].trays[j].id);
                    }
                    break;
                }
            }
        }
        // Prüfe die externe Spule
-        if (!hasChanges && doc["print"]["vt_tray"].is<String>()) {
+        JsonObject vtTray = doc["print"]["vt_tray"];
-            JsonObject vtTray = doc["print"]["vt_tray"];
+        if (doc["print"]["vt_tray"].is<JsonObject>()) {
            bool foundExternal = false;
            for (int i = 0; i < ams_count; i++) {
                if (ams_data[i].ams_id == 255) {
-                    foundExternal = true;
+                    if (vtTray["tray_type"].as<String>() == "") ams_data[i].trays[0].setting_id = "";
                    if (vtTray["setting_id"].isNull()) vtTray["setting_id"] = "";
                    if (vtTray["tray_info_idx"].as<String>() != ams_data[i].trays[0].tray_info_idx ||
                        vtTray["tray_type"].as<String>() != ams_data[i].trays[0].tray_type ||
                        vtTray["tray_color"].as<String>() != ams_data[i].trays[0].tray_color ||
-                        vtTray["cali_idx"].as<String>() != ams_data[i].trays[0].cali_idx) {
+                        (vtTray["setting_id"].as<String>() != "" && vtTray["setting_id"].as<String>() != ams_data[i].trays[0].setting_id) ||
                        (vtTray["tray_type"].as<String>() != "" && vtTray["cali_idx"].as<String>() != ams_data[i].trays[0].cali_idx)) {
                        hasChanges = true;
                        if (autoSendToBambu && autoSetToBambuSpoolId > 0 && hasChanges)
                        {
                            autoSetSpool(autoSetToBambuSpoolId, 254);
                        }
                    }
                    break;
                }
            }
            if (!foundExternal) hasChanges = true;
        }
        if (!hasChanges) return;
-        // Fortfahren mit der bestehenden Verarbeitung, da Änderungen gefunden wurden
+        updateAmsWsData(doc, amsArray, ams_count, vtTray);
        ams_count = amsArray.size();
        for (int i = 0; i < ams_count && i < 16; i++) {
            JsonObject amsObj = amsArray[i];
            JsonArray trayArray = amsObj["tray"].as<JsonArray>();
            ams_data[i].ams_id = i; // Setze die AMS-ID
            for (int j = 0; j < trayArray.size() && j < 4; j++) { // Annahme: Maximal 4 Trays pro AMS
                JsonObject trayObj = trayArray[j];
                ams_data[i].trays[j].id = trayObj["id"].as<uint8_t>();
                ams_data[i].trays[j].tray_info_idx = trayObj["tray_info_idx"].as<String>();
                ams_data[i].trays[j].tray_type = trayObj["tray_type"].as<String>();
                ams_data[i].trays[j].tray_sub_brands = trayObj["tray_sub_brands"].as<String>();
                ams_data[i].trays[j].tray_color = trayObj["tray_color"].as<String>();
                ams_data[i].trays[j].nozzle_temp_min = trayObj["nozzle_temp_min"].as<int>();
                ams_data[i].trays[j].nozzle_temp_max = trayObj["nozzle_temp_max"].as<int>();
                ams_data[i].trays[j].setting_id = trayObj["setting_id"].as<String>();
                ams_data[i].trays[j].cali_idx = trayObj["cali_idx"].as<String>();
            }
        }
        // Setze ams_count auf die Anzahl der normalen AMS
        ams_count = amsArray.size();
        // Wenn externe Spule vorhanden, füge sie hinzu
        if (doc["print"]["vt_tray"].is<String>()) {
            JsonObject vtTray = doc["print"]["vt_tray"];
            int extIdx = ams_count;  // Index für externe Spule
            ams_data[extIdx].ams_id = 255;  // Spezielle ID für externe Spule
            ams_data[extIdx].trays[0].id = 254;  // Spezielle ID für externes Tray
            ams_data[extIdx].trays[0].tray_info_idx = vtTray["tray_info_idx"].as<String>();
            ams_data[extIdx].trays[0].tray_type = vtTray["tray_type"].as<String>();
            ams_data[extIdx].trays[0].tray_sub_brands = vtTray["tray_sub_brands"].as<String>();
            ams_data[extIdx].trays[0].tray_color = vtTray["tray_color"].as<String>();
            ams_data[extIdx].trays[0].nozzle_temp_min = vtTray["nozzle_temp_min"].as<int>();
            ams_data[extIdx].trays[0].nozzle_temp_max = vtTray["nozzle_temp_max"].as<int>();
            ams_data[extIdx].trays[0].setting_id = vtTray["setting_id"].as<String>();
            ams_data[extIdx].trays[0].cali_idx = vtTray["cali_idx"].as<String>();
            ams_count++;  // Erhöhe ams_count für die externe Spule
        }
        // Sende die aktualisierten AMS-Daten
        //sendAmsData(nullptr);
        // Erstelle JSON für WebSocket-Clients
        JsonDocument wsDoc;
        JsonArray wsArray = wsDoc.to<JsonArray>();
        for (int i = 0; i < ams_count; i++) {
            JsonObject amsObj = wsArray.add<JsonObject>();
            amsObj["ams_id"] = ams_data[i].ams_id;
            JsonArray trays = amsObj["tray"].to<JsonArray>();
            int maxTrays = (ams_data[i].ams_id == 255) ? 1 : 4;
            for (int j = 0; j < maxTrays; j++) {
                JsonObject trayObj = trays.add<JsonObject>();
                trayObj["id"] = ams_data[i].trays[j].id;
                trayObj["tray_info_idx"] = ams_data[i].trays[j].tray_info_idx;
                trayObj["tray_type"] = ams_data[i].trays[j].tray_type;
                trayObj["tray_sub_brands"] = ams_data[i].trays[j].tray_sub_brands;
                trayObj["tray_color"] = ams_data[i].trays[j].tray_color;
                trayObj["nozzle_temp_min"] = ams_data[i].trays[j].nozzle_temp_min;
                trayObj["nozzle_temp_max"] = ams_data[i].trays[j].nozzle_temp_max;
                trayObj["setting_id"] = ams_data[i].trays[j].setting_id;
                trayObj["cali_idx"] = ams_data[i].trays[j].cali_idx;
            }
        }
        serializeJson(wsArray, amsJsonData);
        sendAmsData(nullptr);
    }
    // Neue Bedingung für ams_filament_setting
-    else if (doc["print"]["command"] == "ams_filament_setting") {
+    if (doc["print"]["command"] == "ams_filament_setting") {
        int amsId = doc["print"]["ams_id"].as<int>();
        int trayId = doc["print"]["tray_id"].as<int>();
-        String settingId = doc["print"]["setting_id"].as<String>();
+        String settingId = (doc["print"]["setting_id"].is<String>()) ? doc["print"]["setting_id"].as<String>() : "";
        // Finde das entsprechende AMS und Tray
        for (int i = 0; i < ams_count; i++) {
            if (ams_data[i].ams_id == amsId) {
-                // Update setting_id im entsprechenden Tray
+                if (trayId == 254)
-                ams_data[i].trays[trayId].setting_id = settingId;
+                {
-                
+                    // Suche AMS mit ID 255 (externe Spule)
-                // Erstelle neues JSON für WebSocket-Clients
+                    for (int j = 0; j < ams_count; j++) {
-                JsonDocument wsDoc;
+                        if (ams_data[j].ams_id == 255) {
-                JsonArray wsArray = wsDoc.to<JsonArray>();
+                            ams_data[j].trays[0].setting_id = settingId;
-
+                            break;
-                for (int j = 0; j < ams_count; j++) {
+                        }
                    JsonObject amsObj = wsArray.add<JsonObject>();
                    amsObj["ams_id"] = ams_data[j].ams_id;
                    JsonArray trays = amsObj["tray"].to<JsonArray>();
                    int maxTrays = (ams_data[j].ams_id == 255) ? 1 : 4;
                    for (int k = 0; k < maxTrays; k++) {
                        JsonObject trayObj = trays.add<JsonObject>();
                        trayObj["id"] = ams_data[j].trays[k].id;
                        trayObj["tray_info_idx"] = ams_data[j].trays[k].tray_info_idx;
                        trayObj["tray_type"] = ams_data[j].trays[k].tray_type;
                        trayObj["tray_sub_brands"] = ams_data[j].trays[k].tray_sub_brands;
                        trayObj["tray_color"] = ams_data[j].trays[k].tray_color;
                        trayObj["nozzle_temp_min"] = ams_data[j].trays[k].nozzle_temp_min;
                        trayObj["nozzle_temp_max"] = ams_data[j].trays[k].nozzle_temp_max;
                        trayObj["setting_id"] = ams_data[j].trays[k].setting_id;
                        trayObj["cali_idx"] = ams_data[j].trays[k].cali_idx;
                    }
                }
-
+                else
-                // Aktualisiere das globale amsJsonData
+                {
-                amsJsonData = "";
+                    ams_data[i].trays[trayId].setting_id = settingId;
-                serializeJson(wsArray, amsJsonData);
+                }
                // Sende an WebSocket Clients
                Serial.println("Filament setting updated");
                sendAmsData(nullptr);
                break;
            }
@ -461,15 +546,16 @@ void mqtt_callback(char* topic, byte* payload, unsigned int length) {
 void reconnect() {
    // Loop until we're reconnected
    uint8_t retries = 0;
    while (!client.connected()) {
-        Serial.print("Attempting MQTT connection...");
+        Serial.println("Attempting MQTT re/connection...");
        bambu_connected = false;
        oledShowTopRow();
        // Attempt to connect
        if (client.connect(bambu_serialnr, bambu_username, bambu_accesscode)) {
-            Serial.println("... re-connected");
+            Serial.println("MQTT re/connected");
-            // ... and resubscribe
+
            client.subscribe(report_topic.c_str());
            bambu_connected = true;
            oledShowTopRow();
@ -479,14 +565,23 @@ void reconnect() {
            Serial.println(" try again in 5 seconds");
            bambu_connected = false;
            oledShowTopRow();
-            // Wait 5 seconds before retrying
+            
            yield();
            vTaskDelay(5000 / portTICK_PERIOD_MS);
            if (retries > 5) {
                Serial.println("Disable Bambu MQTT Task after 5 retries");
                //vTaskSuspend(BambuMqttTask);
                vTaskDelete(BambuMqttTask);
                break;
            }
            retries++;
        }
    }
 }
 void mqtt_loop(void * parameter) {
    Serial.println("Bambu MQTT Task gestartet");
    for(;;) {
        if (pauseBambuMqttTask) {
            vTaskDelay(10000);
@ -500,6 +595,7 @@ void mqtt_loop(void * parameter) {
        }
        client.loop();
        yield();
        esp_task_wdt_reset();
        vTaskDelay(100);
    }
 }
@ -507,7 +603,6 @@ void mqtt_loop(void * parameter) {
 bool setupMqtt() {
    // Wenn Bambu Daten vorhanden
    bool success = loadBambuCredentials();
    vTaskDelay(100 / portTICK_PERIOD_MS);
    if (!success) {
        Serial.println("Failed to load Bambu credentials");
@ -540,7 +635,7 @@ bool setupMqtt() {
            xTaskCreatePinnedToCore(
                mqtt_loop, /* Function to implement the task */
                "BambuMqtt", /* Name of the task */
-                10000,  /* Stack size in words */
+                8192,  /* Stack size in words */
                NULL,  /* Task input parameter */
                mqttTaskPrio,  /* Priority of the task */
                &BambuMqttTask,  /* Task handle. */
@ -571,6 +666,7 @@ bool setupMqtt() {
 void bambu_restart() {
    if (BambuMqttTask) {
        vTaskDelete(BambuMqttTask);
        delay(10);
    }
    setupMqtt();
 }
--- a/src/bambu.h
+++ b/src/bambu.h
@ -28,9 +28,11 @@ extern bool bambu_connected;
 extern int ams_count;
 extern AMSData ams_data[MAX_AMS];
 extern bool autoSendToBambu;
 extern int autoSetToBambuSpoolId;
 bool loadBambuCredentials();
-bool saveBambuCredentials(const String& bambu_ip, const String& bambu_serialnr, const String& bambu_accesscode);
+bool saveBambuCredentials(const String& bambu_ip, const String& bambu_serialnr, const String& bambu_accesscode, const bool autoSend, const String& autoSendTime);
 bool setupMqtt();
 void mqtt_loop(void * parameter);
 bool setBambuSpool(String payload);
--- a/src/commonFS.cpp
+++ b/src/commonFS.cpp
@ -1,8 +1,8 @@
 #include "commonFS.h"
-#include <SPIFFS.h>
+#include <LittleFS.h>
 bool saveJsonValue(const char* filename, const JsonDocument& doc) {
-    File file = SPIFFS.open(filename, "w");
+    File file = LittleFS.open(filename, "w");
    if (!file) {
        Serial.print("Fehler beim Öffnen der Datei zum Schreiben: ");
        Serial.println(filename);
@ -20,7 +20,7 @@ bool saveJsonValue(const char* filename, const JsonDocument& doc) {
 }
 bool loadJsonValue(const char* filename, JsonDocument& doc) {
-    File file = SPIFFS.open(filename, "r");
+    File file = LittleFS.open(filename, "r");
    if (!file) {
        Serial.print("Fehler beim Öffnen der Datei zum Lesen: ");
        Serial.println(filename);
@ -36,12 +36,12 @@ bool loadJsonValue(const char* filename, JsonDocument& doc) {
    return true;
 }
-void initializeSPIFFS() {
+void initializeFileSystem() {
-    if (!SPIFFS.begin(true, "/spiffs", 10, "spiffs")) {
+    if (!LittleFS.begin(true)) {
-        Serial.println("SPIFFS Mount Failed");
+        Serial.println("LittleFS Mount Failed");
        return;
    }
-    Serial.printf("SPIFFS Total: %u bytes\n", SPIFFS.totalBytes());
+    Serial.printf("LittleFS Total: %u bytes\n", LittleFS.totalBytes());
-    Serial.printf("SPIFFS Used: %u bytes\n", SPIFFS.usedBytes());
+    Serial.printf("LittleFS Used: %u bytes\n", LittleFS.usedBytes());
-    Serial.printf("SPIFFS Free: %u bytes\n", SPIFFS.totalBytes() - SPIFFS.usedBytes());
+    Serial.printf("LittleFS Free: %u bytes\n", LittleFS.totalBytes() - LittleFS.usedBytes());
 }
--- a/src/commonFS.h
+++ b/src/commonFS.h
@ -2,11 +2,11 @@
 #define COMMONFS_H
 #include <Arduino.h>
 #include <SPIFFS.h>
 #include <ArduinoJson.h>
 #include <LittleFS.h>
 bool saveJsonValue(const char* filename, const JsonDocument& doc);
 bool loadJsonValue(const char* filename, JsonDocument& doc);
-void initializeSPIFFS();
+void initializeFileSystem();
 #endif
--- a/src/config.cpp
+++ b/src/config.cpp
@ -40,6 +40,10 @@ const uint8_t webserverPort = 80;
 const char* apiUrl = "/api/v1";
 // ***** API
 // ***** Bambu Auto Set Spool
 uint8_t autoSetBambuAmsCounter = 60;
 // ***** Bambu Auto Set Spool
 // ***** Task Prios
 uint8_t rfidTaskCore = 1;
 uint8_t rfidTaskPrio = 1;
--- a/src/config.h
+++ b/src/config.h
@ -23,6 +23,8 @@ extern const uint8_t OLED_DATA_END;
 extern const char* apiUrl;
 extern const uint8_t webserverPort;
 extern uint8_t autoSetBambuAmsCounter;
 extern const unsigned char wifi_on[];
 extern const unsigned char wifi_off[];
 extern const unsigned char cloud_on[];
--- a/src/display.cpp
+++ b/src/display.cpp
@ -20,9 +20,9 @@ void setupDisplay() {
    // the library initializes this with an Adafruit splash screen.
    display.setTextColor(WHITE);
    display.display();
    delay(1000); // Pause for 2 seconds
    oledShowTopRow();
-    delay(2000);
+    oledShowMessage("FilaMan v" + String(VERSION));
    vTaskDelay(2000 / portTICK_PERIOD_MS);
 }
 void oledclearline() {
@ -117,7 +117,6 @@ std::vector<String> splitTextIntoLines(String text, uint8_t textSize) {
        lines.push_back(currentLine);
    }
    Serial.println(lines.size());
    return lines;
 }
@ -140,8 +139,9 @@ void oledShowMultilineMessage(String message, uint8_t size) {
    int totalHeight = lines.size() * lineHeight;
    int startY = OLED_DATA_START + ((OLED_DATA_END - OLED_DATA_START - totalHeight) / 2);
    uint8_t lineDistance = (lines.size() == 2) ? 5 : 0;
    for (size_t i = 0; i < lines.size(); i++) {
-        display.setCursor(oled_center_h(lines[i]), startY + (i * lineHeight));
+        display.setCursor(oled_center_h(lines[i]), startY + (i * lineHeight) + (i == 1 ? lineDistance : 0));
        display.print(lines[i]);
    }
--- a/src/main.cpp
+++ b/src/main.cpp
@ -1,6 +1,4 @@
 #include <Arduino.h>
 #include <DNSServer.h>
 #include <ESPmDNS.h>
 #include <Wire.h>
 #include <WiFi.h>
@ -26,7 +24,7 @@ void setup() {
  Serial.printf("%08X\n", (uint32_t)chipid); //print Low 4bytes.
  // Initialize SPIFFS
-  initializeSPIFFS();
+  initializeFileSystem();
  // Start Display
  setupDisplay();
@ -35,7 +33,6 @@ void setup() {
  initWiFi();
  // Webserver
  Serial.println("Starte Webserver");
  setupWebserver(server);
  // Spoolman API
@ -43,22 +40,27 @@ void setup() {
  initSpoolman();
  // Bambu MQTT
  // bambu.cpp
  setupMqtt();
-  // mDNS
+  // NFC Reader
  Serial.println("Starte MDNS");
  if (!MDNS.begin("filaman")) {   // Set the hostname to "esp32.local"
    Serial.println("Error setting up MDNS responder!");
    while(1) {
      delay(1000);
    }
  }
  Serial.println("mDNS responder started");
  startNfc();
-  start_scale();
+  uint8_t scaleCalibrated = start_scale();
  if (scaleCalibrated == 3) {
    oledShowMessage("Scale not calibrated!");
    for (uint16_t i = 0; i < 50000; i++) {
      yield();
      vTaskDelay(pdMS_TO_TICKS(1));
      esp_task_wdt_reset();
    }
  } else if (scaleCalibrated == 0) {
    oledShowMessage("HX711 not found");
    for (uint16_t i = 0; i < 50000; i++) {
      yield();
      vTaskDelay(pdMS_TO_TICKS(1));
      esp_task_wdt_reset();
    }
  }
  // WDT initialisieren mit 10 Sekunden Timeout
  bool panic = true; // Wenn true, löst ein WDT-Timeout einen System-Panik aus
@ -72,45 +74,85 @@ void setup() {
 }
 /**
 * Safe interval check that handles millis() overflow
 * @param currentTime Current millis() value
 * @param lastTime Last recorded time
 * @param interval Desired interval in milliseconds
 * @return True if interval has elapsed
 */
 bool intervalElapsed(unsigned long currentTime, unsigned long &lastTime, unsigned long interval) {
  if (currentTime - lastTime >= interval || currentTime < lastTime) {
    lastTime = currentTime;
    return true;
  }
  return false;
 }
 unsigned long lastWeightReadTime = 0;
 const unsigned long weightReadInterval = 1000; // 1 second
-unsigned long lastAmsSendTime = 0;
+unsigned long lastAutoSetBambuAmsTime = 0;
-const unsigned long amsSendInterval = 60000; // 1 minute
+const unsigned long autoSetBambuAmsInterval = 1000; // 1 second
 uint8_t autoAmsCounter = 0;
 uint8_t weightSend = 0;
 int16_t lastWeight = 0;
-uint8_t wifiErrorCounter = 0;
+
 unsigned long lastWifiCheckTime = 0;
 const unsigned long wifiCheckInterval = 60000; // Überprüfe alle 60 Sekunden (60000 ms)
 // ##### PROGRAM START #####
 void loop() {
  /*
  // Überprüfe den WLAN-Status
  if (WiFi.status() != WL_CONNECTED) {
    wifiErrorCounter++;
    wifiOn = false;
  } else {
    wifiErrorCounter = 0;
    wifiOn = true;
  }
  if (wifiErrorCounter > 20) ESP.restart();
  */
  unsigned long currentMillis = millis();
-  // Send AMS Data min every Minute
+  // Überprüfe regelmäßig die WLAN-Verbindung
-  if (currentMillis - lastAmsSendTime >= amsSendInterval) {
+  if (intervalElapsed(currentMillis, lastWifiCheckTime, wifiCheckInterval)) {
-    lastAmsSendTime = currentMillis;
+    checkWiFiConnection();
-    sendAmsData(nullptr);
+  }
  // Wenn Bambu auto set Spool aktiv
  if (autoSendToBambu && autoSetToBambuSpoolId > 0) {
    if (intervalElapsed(currentMillis, lastAutoSetBambuAmsTime, autoSetBambuAmsInterval)) 
    {
      if (hasReadRfidTag == 0)
      {
        lastAutoSetBambuAmsTime = currentMillis;
        oledShowMessage("Auto Set         " + String(autoSetBambuAmsCounter - autoAmsCounter) + "s");
        autoAmsCounter++;
        if (autoAmsCounter >= autoSetBambuAmsCounter) 
        {
          autoSetToBambuSpoolId = 0;
          autoAmsCounter = 0;
          oledShowWeight(weight);
        }
      }
      else
      {
        autoAmsCounter = 0;
      }
    }
  }
  // Wenn Waage nicht Kalibriert
  if (scaleCalibrated == 3) 
  {
    oledShowMessage("Scale not calibrated!");
    vTaskDelay(5000 / portTICK_PERIOD_MS);
    yield();
    esp_task_wdt_reset();
    return;
  } 
  // Ausgabe der Waage auf Display
-  if (pauseMainTask == 0 && weight != lastWeight && hasReadRfidTag == 0)
+  if (pauseMainTask == 0 && weight != lastWeight && hasReadRfidTag == 0 && (!autoSendToBambu || autoSetToBambuSpoolId == 0))
  {
-    (weight < 0) ? oledShowMessage("!! -1") : oledShowWeight(weight);
+    (weight < 2) ? ((weight < -2) ? oledShowMessage("!! -0") : oledShowWeight(0)) : oledShowWeight(weight);
  }
  // Wenn Timer abgelaufen und nicht gerade ein RFID-Tag geschrieben wird
  if (currentMillis - lastWeightReadTime >= weightReadInterval && hasReadRfidTag < 3)
  {
@ -154,6 +196,12 @@ void loop() {
      oledShowIcon("success");
      vTaskDelay(2000 / portTICK_PERIOD_MS);
      weightSend = 1;
      autoSetToBambuSpoolId = spoolId.toInt();
      if (octoEnabled) 
      {
        updateSpoolOcto(autoSetToBambuSpoolId);
      }
    }
    else
    {
--- a/src/nfc.cpp
+++ b/src/nfc.cpp
@ -44,8 +44,6 @@ void payloadToJson(uint8_t *data) {
      DeserializationError error = deserializeJson(doc, jsonString);
      if (!error) {
        const char* version = doc["version"];
        const char* protocol = doc["protocol"];
        const char* color_hex = doc["color_hex"];
        const char* type = doc["type"];
        int min_temp = doc["min_temp"];
@ -55,8 +53,6 @@ void payloadToJson(uint8_t *data) {
        Serial.println();
        Serial.println("-----------------");
        Serial.println("JSON-Parsed Data:");
        Serial.println(version);
        Serial.println(protocol);
        Serial.println(color_hex);
        Serial.println(type);
        Serial.println(min_temp);
@ -93,8 +89,16 @@ bool formatNdefTag() {
    return success;
  }
 uint16_t readTagSize()
 {
  uint8_t buffer[4];
  memset(buffer, 0, 4);
  nfc.ntag2xx_ReadPage(3, buffer);
  return buffer[2]*8;
 }
 uint8_t ntag2xx_WriteNDEF(const char *payload) {
-  uint8_t tagSize = 240; // 144 bytes is maximum for NTAG213
+  uint16_t tagSize = readTagSize();
  Serial.print("Tag Size: ");Serial.println(tagSize);
  uint8_t pageBuffer[4] = {0, 0, 0, 0};
@ -136,6 +140,8 @@ uint8_t ntag2xx_WriteNDEF(const char *payload) {
  if (combinedData == NULL) 
  {
    Serial.println("Fehler: Nicht genug Speicher vorhanden.");
    oledShowMessage("Tag too small");
    vTaskDelay(2000 / portTICK_PERIOD_MS);
    return 0;
  }
@ -238,10 +244,12 @@ void writeJsonToTag(void *parameter) {
  hasReadRfidTag = 3;
  vTaskSuspend(RfidReaderTask);
-  vTaskDelay(500 / portTICK_PERIOD_MS);
+  vTaskDelay(50 / portTICK_PERIOD_MS);
  //pauseBambuMqttTask = true;
  // aktualisieren der Website wenn sich der Status ändert
  sendNfcData(nullptr);
  vTaskDelay(100 / portTICK_PERIOD_MS);
  oledShowMessage("Waiting for NFC-Tag");
  // Wait 10sec for tag
@ -331,7 +339,7 @@ void startWriteJsonToTag(const char* payload) {
    xTaskCreate(
        writeJsonToTag,        // Task-Funktion
        "WriteJsonToTagTask",       // Task-Name
-        4096,                        // Stackgröße in Bytes
+        5115,                        // Stackgröße in Bytes
        (void*)payloadCopy,         // Parameter
        rfidWriteTaskPrio,           // Priorität
        NULL                         // Task-Handle (nicht benötigt)
@ -367,46 +375,51 @@ void scanRfidTask(void * parameter) {
        if (uidLength == 7)
        {
-          uint8_t data[256];
+          uint16_t tagSize = readTagSize();
-
+          if(tagSize > 0)
          // We probably have an NTAG2xx card (though it could be Ultralight as well)
          Serial.println("Seems to be an NTAG2xx tag (7 byte UID)");
          for (uint8_t i = 0; i < 45; i++) {
            /*
            if (i < uidLength) {
              uidString += String(uid[i], HEX);
              if (i < uidLength - 1) {
                  uidString += ":"; // Optional: Trennzeichen hinzufügen
              }
            }
            */
            if (!nfc.mifareclassic_ReadDataBlock(i, data + (i - 4) * 4)) 
            {
              break; // Stop if reading fails
            }
            // Check for NDEF message end
            if (data[(i - 4) * 4] == 0xFE) 
            {
              break; // End of NDEF message
            }
            yield();
            esp_task_wdt_reset();
            vTaskDelay(pdMS_TO_TICKS(1));
          }
          if (!decodeNdefAndReturnJson(data)) 
          {
-            oledShowMessage("NFC-Tag unknown");
+            // Create a buffer depending on the size of the tag
-            vTaskDelay(2000 / portTICK_PERIOD_MS);
+            uint8_t* data = (uint8_t*)malloc(tagSize);
-            hasReadRfidTag = 2;
+            memset(data, 0, tagSize);
            // We probably have an NTAG2xx card (though it could be Ultralight as well)
            Serial.println("Seems to be an NTAG2xx tag (7 byte UID)");
            uint8_t numPages = readTagSize()/4;
            for (uint8_t i = 4; i < 4+numPages; i++) {
              if (!nfc.ntag2xx_ReadPage(i, data+(i-4) * 4))
              {
                break; // Stop if reading fails
              }
              // Check for NDEF message end
              if (data[(i - 4) * 4] == 0xFE) 
              {
                break; // End of NDEF message
              }
              yield();
              esp_task_wdt_reset();
              vTaskDelay(pdMS_TO_TICKS(1));
            }
            if (!decodeNdefAndReturnJson(data)) 
            {
              oledShowMessage("NFC-Tag unknown");
              vTaskDelay(2000 / portTICK_PERIOD_MS);
              hasReadRfidTag = 2;
            }
            else 
            {
              hasReadRfidTag = 1;
            }
            free(data);
          }
          else
          {
-            hasReadRfidTag = 1;
+            oledShowMessage("NFC-Tag read error");
            hasReadRfidTag = 2;
          }
        }
        else
        {
@ -420,7 +433,7 @@ void scanRfidTask(void * parameter) {
        //uidString = "";
        nfcJsonData = "";
        Serial.println("Tag entfernt");
-        oledShowWeight(0);
+        if (!autoSendToBambu) oledShowWeight(weight);
      }
      // aktualisieren der Website wenn sich der Status ändert
@ -456,7 +469,7 @@ void startNfc() {
    BaseType_t result = xTaskCreatePinnedToCore(
      scanRfidTask, /* Function to implement the task */
      "RfidReader", /* Name of the task */
-      10000,  /* Stack size in words */
+      5115,  /* Stack size in words */
      NULL,  /* Task input parameter */
      rfidTaskPrio,  /* Priority of the task */
      &RfidReaderTask,  /* Task handle. */
--- a/src/ota.cpp
+++ b/src/ota.cpp
@ -0,0 +1,243 @@
 #include <Arduino.h>
 #include <website.h>
 #include <commonFS.h>
 // Globale Variablen für Config Backups hinzufügen
 String bambuCredentialsBackup;
 String spoolmanUrlBackup;
 // Globale Variable für den Update-Typ
 static int currentUpdateCommand = 0;
 // Globale Update-Variablen
 static size_t updateTotalSize = 0;
 static size_t updateWritten = 0;
 static bool isSpiffsUpdate = false;
 /**
 * Compares two version strings and determines if version1 is less than version2
 * 
 * @param version1 First version string (format: x.y.z)
 * @param version2 Second version string (format: x.y.z)
 * @return true if version1 is less than version2
 */
 bool isVersionLessThan(const String& version1, const String& version2) {
    int major1 = 0, minor1 = 0, patch1 = 0;
    int major2 = 0, minor2 = 0, patch2 = 0;
    // Parse version1
    sscanf(version1.c_str(), "%d.%d.%d", &major1, &minor1, &patch1);
    // Parse version2
    sscanf(version2.c_str(), "%d.%d.%d", &major2, &minor2, &patch2);
    // Compare major version
    if (major1 < major2) return true;
    if (major1 > major2) return false;
    // Major versions equal, compare minor
    if (minor1 < minor2) return true;
    if (minor1 > minor2) return false;
    // Minor versions equal, compare patch
    return patch1 < patch2;
 }
 void backupJsonConfigs() {
    // Bambu Credentials backup
    if (LittleFS.exists("/bambu_credentials.json")) {
        File file = LittleFS.open("/bambu_credentials.json", "r");
        if (file) {
            bambuCredentialsBackup = file.readString();
            file.close();
            Serial.println("Bambu credentials backed up");
        }
    }
    // Spoolman URL backup
    if (LittleFS.exists("/spoolman_url.json")) {
        File file = LittleFS.open("/spoolman_url.json", "r");
        if (file) {
            spoolmanUrlBackup = file.readString();
            file.close();
            Serial.println("Spoolman URL backed up");
        }
    }
 }
 void restoreJsonConfigs() {
    // Restore Bambu credentials
    if (bambuCredentialsBackup.length() > 0) {
        File file = LittleFS.open("/bambu_credentials.json", "w");
        if (file) {
            file.print(bambuCredentialsBackup);
            file.close();
            Serial.println("Bambu credentials restored");
        }
        bambuCredentialsBackup = ""; // Clear backup
    }
    // Restore Spoolman URL
    if (spoolmanUrlBackup.length() > 0) {
        File file = LittleFS.open("/spoolman_url.json", "w");
        if (file) {
            file.print(spoolmanUrlBackup);
            file.close();
            Serial.println("Spoolman URL restored");
        }
        spoolmanUrlBackup = ""; // Clear backup
    }
 }
 void espRestart() {
    yield();
    vTaskDelay(5000 / portTICK_PERIOD_MS);
    ESP.restart();
 }
 void sendUpdateProgress(int progress, const char* status = nullptr, const char* message = nullptr) {
    static int lastSentProgress = -1;
    // Verhindere zu häufige Updates
    if (progress == lastSentProgress && !status && !message) {
        return;
    }
    String progressMsg = "{\"type\":\"updateProgress\",\"progress\":" + String(progress);
    if (status) {
        progressMsg += ",\"status\":\"" + String(status) + "\"";
    }
    if (message) {
        progressMsg += ",\"message\":\"" + String(message) + "\"";
    }
    progressMsg += "}";
    if (progress >= 100) {
        // Sende die Nachricht nur einmal für den Abschluss
        ws.textAll("{\"type\":\"updateProgress\",\"progress\":100,\"status\":\"success\",\"message\":\"Update successful! Restarting device...\"}");
        delay(50);
    }
    // Sende die Nachricht mehrmals mit Verzögerung für wichtige Updates
    if (status || abs(progress - lastSentProgress) >= 10 || progress == 100) {
        for (int i = 0; i < 2; i++) {
            ws.textAll(progressMsg);
            delay(100);  // Längerer Delay zwischen Nachrichten
        }
    } else {
        ws.textAll(progressMsg);
        delay(50);
    }
    lastSentProgress = progress;
 }
 void handleUpdate(AsyncWebServer &server) {
    AsyncCallbackWebHandler* updateHandler = new AsyncCallbackWebHandler();
    updateHandler->setUri("/update");
    updateHandler->setMethod(HTTP_POST);
    // Check if current version is less than defined TOOLVERSION before proceeding with update
    if (isVersionLessThan(VERSION, TOOLDVERSION)) {
        updateHandler->onRequest([](AsyncWebServerRequest *request) {
            request->send(400, "application/json", 
                "{\"success\":false,\"message\":\"Your current version is too old. Please perform a full upgrade.\"}");
        });
        server.addHandler(updateHandler);
        return;
    }
    updateHandler->onUpload([](AsyncWebServerRequest *request, String filename,
                             size_t index, uint8_t *data, size_t len, bool final) {
        if (!index) {
            updateTotalSize = request->contentLength();
            updateWritten = 0;
            isSpiffsUpdate = (filename.indexOf("website") > -1);
            if (isSpiffsUpdate) {
                // Backup vor dem Update
                sendUpdateProgress(0, "backup", "Backing up configurations...");
                delay(200);
                backupJsonConfigs();
                delay(200);
                const esp_partition_t *partition = esp_partition_find_first(ESP_PARTITION_TYPE_DATA, ESP_PARTITION_SUBTYPE_DATA_SPIFFS, NULL);
                if (!partition || !Update.begin(partition->size, U_SPIFFS)) {
                    request->send(400, "application/json", "{\"success\":false,\"message\":\"Update initialization failed\"}");
                    return;
                }
                sendUpdateProgress(5, "starting", "Starting SPIFFS update...");
                delay(200);
            } else {
                if (!Update.begin(updateTotalSize)) {
                    request->send(400, "application/json", "{\"success\":false,\"message\":\"Update initialization failed\"}");
                    return;
                }
                sendUpdateProgress(0, "starting", "Starting firmware update...");
                delay(200);
            }
        }
        if (len) {
            if (Update.write(data, len) != len) {
                request->send(400, "application/json", "{\"success\":false,\"message\":\"Write failed\"}");
                return;
            }
            updateWritten += len;
            int currentProgress;
            // Berechne den Fortschritt basierend auf dem Update-Typ
            if (isSpiffsUpdate) {
                // SPIFFS: 5-75% für Upload
                currentProgress = 6 + (updateWritten * 100) / updateTotalSize;
            } else {
                // Firmware: 0-100% für Upload
                currentProgress = 1 + (updateWritten * 100) / updateTotalSize;
            }
            static int lastProgress = -1;
            if (currentProgress != lastProgress && (currentProgress % 10 == 0 || final)) {
                sendUpdateProgress(currentProgress, "uploading");
                oledShowMessage("Update: " + String(currentProgress) + "%");
                delay(50);
                lastProgress = currentProgress;
            }
        }
        if (final) {
            if (Update.end(true)) {
                if (isSpiffsUpdate) {
                    restoreJsonConfigs();
                }
            } else {
                request->send(400, "application/json", "{\"success\":false,\"message\":\"Update finalization failed\"}");
            }
        }
    });
    updateHandler->onRequest([](AsyncWebServerRequest *request) {
        if (Update.hasError()) {
            request->send(400, "application/json", "{\"success\":false,\"message\":\"Update failed\"}");
            return;
        }
        // Erste 100% Nachricht
        ws.textAll("{\"type\":\"updateProgress\",\"progress\":100,\"status\":\"success\",\"message\":\"Update successful! Restarting device...\"}");
        vTaskDelay(2000 / portTICK_PERIOD_MS);
        AsyncWebServerResponse *response = request->beginResponse(200, "application/json", 
            "{\"success\":true,\"message\":\"Update successful! Restarting device...\"}");
        response->addHeader("Connection", "close");
        request->send(response);
        // Zweite 100% Nachricht zur Sicherheit
        ws.textAll("{\"type\":\"updateProgress\",\"progress\":100,\"status\":\"success\",\"message\":\"Update successful! Restarting device...\"}");
        espRestart();
    });
    server.addHandler(updateHandler);
 }
--- a/src/ota.h
+++ b/src/ota.h
@ -0,0 +1,9 @@
 #ifndef OTA_H
 #define OTA_H
 #include <ArduinoOTA.h>
 #include <ESPAsyncWebServer.h>
 void handleUpdate(AsyncWebServer &server);
 #endif
--- a/src/scale.cpp
+++ b/src/scale.cpp
@ -16,6 +16,7 @@ int16_t weight = 0;
 uint8_t weigthCouterToApi = 0;
 uint8_t scale_tare_counter = 0;
 uint8_t pauseMainTask = 0;
 uint8_t scaleCalibrated = 1;
 Preferences preferences;
 const char* NVS_NAMESPACE = "scale";
@ -46,15 +47,15 @@ void scale_loop(void * parameter) {
      weight = round(scale.get_units());
    }
-    vTaskDelay(pdMS_TO_TICKS(100)); // Verzögerung, um die CPU nicht zu überlasten
+    vTaskDelay(pdMS_TO_TICKS(100));
  }
 }
-void start_scale() {
+uint8_t start_scale() {
  Serial.println("Prüfe Calibration Value");
  long calibrationValue;
-  // NVS
+  // NVS lesen
  preferences.begin(NVS_NAMESPACE, true); // true = readonly
  calibrationValue = preferences.getLong(NVS_KEY_CALIBRATION, defaultScaleCalibrationValue);
  preferences.end();
@ -64,7 +65,10 @@ void start_scale() {
  scale.begin(LOADCELL_DOUT_PIN, LOADCELL_SCK_PIN);
-  if (isnan(calibrationValue) || calibrationValue < 1) calibrationValue = defaultScaleCalibrationValue;
+  if (isnan(calibrationValue) || calibrationValue < 1) {
    calibrationValue = defaultScaleCalibrationValue;
    scaleCalibrated = 0;
  }
  oledShowMessage("Scale Tare Please remove all");
  for (uint16_t i = 0; i < 2000; i++) {
@ -86,7 +90,7 @@ void start_scale() {
  BaseType_t result = xTaskCreatePinnedToCore(
    scale_loop, /* Function to implement the task */
    "ScaleLoop", /* Name of the task */
-    10000,  /* Stack size in words */
+    2048,  /* Stack size in words */
    NULL,  /* Task input parameter */
    scaleTaskPrio,  /* Priority of the task */
    &ScaleTask,  /* Task handle. */
@ -97,6 +101,8 @@ void start_scale() {
  } else {
      Serial.println("ScaleLoop-Task erfolgreich erstellt");
  }
  return (scaleCalibrated == 1) ? 1 : 3;
 }
 uint8_t calibrate_scale() {
@ -104,6 +110,7 @@ uint8_t calibrate_scale() {
  //vTaskSuspend(RfidReaderTask);
  vTaskDelete(RfidReaderTask);
  vTaskDelete(ScaleTask);
  pauseBambuMqttTask = true;
  pauseMainTask = 1;
@ -171,8 +178,6 @@ uint8_t calibrate_scale() {
        vTaskDelay(pdMS_TO_TICKS(1));
        esp_task_wdt_reset();
      }
      //ESP.restart();
    }
    else
    {
@ -206,8 +211,7 @@ uint8_t calibrate_scale() {
  oledShowMessage("Scale Ready");
-  
+  Serial.println("restart Scale Task");
  Serial.println("starte Scale Task");
  start_scale();
  pauseBambuMqttTask = false;
--- a/src/scale.h
+++ b/src/scale.h
@ -5,7 +5,7 @@
 #include "HX711.h"
-void start_scale();
+uint8_t start_scale();
 uint8_t calibrate_scale();
 uint8_t tareScale();
@ -14,6 +14,7 @@ extern int16_t weight;
 extern uint8_t weigthCouterToApi;
 extern uint8_t scale_tare_counter;
 extern uint8_t pauseMainTask;
 extern uint8_t scaleCalibrated;
 extern TaskHandle_t ScaleTask;
--- a/src/website.cpp
+++ b/src/website.cpp
@ -9,6 +9,7 @@
 #include "esp_task_wdt.h"
 #include <Update.h>
 #include "display.h"
 #include "ota.h"
 #ifndef VERSION
  #define VERSION "1.1.0"
@ -23,48 +24,6 @@ AsyncWebSocket ws("/ws");
 uint8_t lastSuccess = 0;
 uint8_t lastHasReadRfidTag = 0;
 // Globale Variablen für Config Backups hinzufügen
 String bambuCredentialsBackup;
 String spoolmanUrlBackup;
 // Globale Variable für den Update-Typ
 static int currentUpdateCommand = 0;
 // Globale Update-Variablen
 static size_t updateTotalSize = 0;
 static size_t updateWritten = 0;
 static bool isSpiffsUpdate = false;
 void sendUpdateProgress(int progress, const char* status = nullptr, const char* message = nullptr) {
    static int lastSentProgress = -1;
    // Verhindere zu häufige Updates
    if (progress == lastSentProgress && !status && !message) {
        return;
    }
    String progressMsg = "{\"type\":\"updateProgress\",\"progress\":" + String(progress);
    if (status) {
        progressMsg += ",\"status\":\"" + String(status) + "\"";
    }
    if (message) {
        progressMsg += ",\"message\":\"" + String(message) + "\"";
    }
    progressMsg += "}";
    // Sende die Nachricht mehrmals mit Verzögerung für wichtige Updates
    if (status || abs(progress - lastSentProgress) >= 10 || progress == 100) {
        for (int i = 0; i < 2; i++) {
            ws.textAll(progressMsg);
            delay(100);  // Längerer Delay zwischen Nachrichten
        }
    } else {
        ws.textAll(progressMsg);
        delay(50);
    }
    lastSentProgress = progress;
 }
 void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventType type, void *arg, uint8_t *data, size_t len) {
    if (type == WS_EVT_CONNECT) {
@ -96,7 +55,7 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
        }
        else if (doc["type"] == "writeNfcTag") {
-            if (doc["payload"].is<String>()) {
+            if (doc["payload"].is<JsonObject>()) {
                // Versuche NFC-Daten zu schreiben
                String payloadString;
                serializeJson(doc["payload"], payloadString);
@ -136,6 +95,15 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
            setBambuSpool(doc["payload"]);
        }
        else if (doc["type"] == "setSpoolmanSettings") {
            Serial.println(doc["payload"].as<String>());
            if (updateSpoolBambuData(doc["payload"].as<String>())) {
                ws.textAll("{\"type\":\"setSpoolmanSettings\",\"payload\":\"success\"}");
            } else {
                ws.textAll("{\"type\":\"setSpoolmanSettings\",\"payload\":\"error\"}");
            }
        }
        else {
            Serial.println("Unbekannter WebSocket-Typ: " + doc["type"].as<String>());
        }
@ -145,12 +113,12 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
 // Funktion zum Laden und Ersetzen des Headers in einer HTML-Datei
 String loadHtmlWithHeader(const char* filename) {
    Serial.println("Lade HTML-Datei: " + String(filename));
-    if (!SPIFFS.exists(filename)) {
+    if (!LittleFS.exists(filename)) {
        Serial.println("Fehler: Datei nicht gefunden!");
        return "Fehler: Datei nicht gefunden!";
    }
-    File file = SPIFFS.open(filename, "r");
+    File file = LittleFS.open(filename, "r");
    String html = file.readString();
    file.close();
@ -207,105 +175,6 @@ void sendAmsData(AsyncWebSocketClient *client) {
    }
 }
 void handleUpdate(AsyncWebServer &server) {
    AsyncCallbackWebHandler* updateHandler = new AsyncCallbackWebHandler();
    updateHandler->setUri("/update");
    updateHandler->setMethod(HTTP_POST);
    updateHandler->onUpload([](AsyncWebServerRequest *request, String filename,
                             size_t index, uint8_t *data, size_t len, bool final) {
        if (!index) {
            updateTotalSize = request->contentLength();
            updateWritten = 0;
            isSpiffsUpdate = (filename.indexOf("website") > -1);
            if (isSpiffsUpdate) {
                // Backup vor dem Update
                sendUpdateProgress(0, "backup", "Backing up configurations...");
                delay(200);
                backupJsonConfigs();
                delay(200);
                const esp_partition_t *partition = esp_partition_find_first(ESP_PARTITION_TYPE_DATA, ESP_PARTITION_SUBTYPE_DATA_SPIFFS, NULL);
                if (!partition || !Update.begin(partition->size, U_SPIFFS)) {
                    request->send(400, "application/json", "{\"success\":false,\"message\":\"Update initialization failed\"}");
                    return;
                }
                sendUpdateProgress(5, "starting", "Starting SPIFFS update...");
                delay(200);
            } else {
                if (!Update.begin(updateTotalSize)) {
                    request->send(400, "application/json", "{\"success\":false,\"message\":\"Update initialization failed\"}");
                    return;
                }
                sendUpdateProgress(0, "starting", "Starting firmware update...");
                delay(200);
            }
        }
        if (len) {
            if (Update.write(data, len) != len) {
                request->send(400, "application/json", "{\"success\":false,\"message\":\"Write failed\"}");
                return;
            }
            updateWritten += len;
            int currentProgress;
            // Berechne den Fortschritt basierend auf dem Update-Typ
            if (isSpiffsUpdate) {
                // SPIFFS: 5-75% für Upload
                currentProgress = 5 + (updateWritten * 100) / updateTotalSize;
            } else {
                // Firmware: 0-100% für Upload
                currentProgress = 1 + (updateWritten * 100) / updateTotalSize;
            }
            static int lastProgress = -1;
            if (currentProgress != lastProgress && (currentProgress % 10 == 0 || final)) {
                sendUpdateProgress(currentProgress, "uploading");
                oledShowMessage("Update: " + String(currentProgress) + "%");
                delay(50);
                lastProgress = currentProgress;
            }
        }
        if (final) {
            if (Update.end(true)) {
                if (isSpiffsUpdate) {
                    restoreJsonConfigs();
                }
            } else {
                request->send(400, "application/json", "{\"success\":false,\"message\":\"Update finalization failed\"}");
            }
        }
    });
    updateHandler->onRequest([](AsyncWebServerRequest *request) {
        if (Update.hasError()) {
            request->send(400, "application/json", "{\"success\":false,\"message\":\"Update failed\"}");
            return;
        }
        // Erste 100% Nachricht
        ws.textAll("{\"type\":\"updateProgress\",\"progress\":100,\"status\":\"success\",\"message\":\"Update successful! Restarting device...\"}");
        delay(2000);  // Längerer Delay für die erste Nachricht
        AsyncWebServerResponse *response = request->beginResponse(200, "application/json", 
            "{\"success\":true,\"message\":\"Update successful! Restarting device...\"}");
        response->addHeader("Connection", "close");
        request->send(response);
        // Zweite 100% Nachricht zur Sicherheit
        ws.textAll("{\"type\":\"updateProgress\",\"progress\":100,\"status\":\"success\",\"message\":\"Update successful! Restarting device...\"}");
        delay(3000);  // Noch längerer Delay vor dem Neustart
        ESP.restart();
    });
    server.addHandler(updateHandler);
 }
 void setupWebserver(AsyncWebServer &server) {
    // Deaktiviere alle Debug-Ausgaben
    Serial.setDebugOutput(false);
@ -326,7 +195,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für about
    server.on("/about", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /about erhalten");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/index.html.gz", "text/html");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/index.html.gz", "text/html");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -335,7 +204,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für Waage
    server.on("/waage", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /waage erhalten");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/waage.html.gz", "text/html");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/waage.html.gz", "text/html");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -344,24 +213,13 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für RFID
    server.on("/", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /rfid erhalten");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/rfid.html.gz", "text/html");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/rfid.html.gz", "text/html");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
        Serial.println("RFID-Seite gesendet");
    });
    /*
    // Neue API-Route für das Abrufen der Spool-Daten
    server.on("/api/spools", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("API-Aufruf: /api/spools");
        JsonDocument spoolsData = fetchSpoolsForWebsite();
        String response;
        serializeJson(spoolsData, response);
        request->send(200, "application/json", response);
    });
    */
    server.on("/api/url", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("API-Aufruf: /api/url");
        String jsonResponse = "{\"spoolman_url\": \"" + String(spoolmanUrl) + "\"}";
@ -371,7 +229,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für WiFi
    server.on("/wifi", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /wifi erhalten");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/wifi.html.gz", "text/html");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/wifi.html.gz", "text/html");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -381,13 +239,18 @@ void setupWebserver(AsyncWebServer &server) {
    server.on("/spoolman", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /spoolman erhalten");
        String html = loadHtmlWithHeader("/spoolman.html");
-        html.replace("{{spoolmanUrl}}", spoolmanUrl);
+        html.replace("{{spoolmanUrl}}", (spoolmanUrl != "") ? spoolmanUrl : "");
        html.replace("{{spoolmanOctoEnabled}}", octoEnabled ? "checked" : "");
        html.replace("{{spoolmanOctoUrl}}", (octoUrl != "") ? octoUrl : "");
        html.replace("{{spoolmanOctoToken}}", (octoToken != "") ? octoToken : "");
        JsonDocument doc;
-        if (loadJsonValue("/bambu_credentials.json", doc) && doc["bambu_ip"].is<String>()) {
+        if (loadJsonValue("/bambu_credentials.json", doc) && doc["bambu_ip"].is<String>()) 
        {
            String bambuIp = doc["bambu_ip"].as<String>();
            String bambuSerial = doc["bambu_serialnr"].as<String>();
            String bambuCode = doc["bambu_accesscode"].as<String>();
            autoSendToBambu = doc["autoSendToBambu"].as<bool>();
            bambuIp.trim();
            bambuSerial.trim();
            bambuCode.trim();
@ -395,6 +258,16 @@ void setupWebserver(AsyncWebServer &server) {
            html.replace("{{bambuIp}}", bambuIp ? bambuIp : "");            
            html.replace("{{bambuSerial}}", bambuSerial ? bambuSerial : "");
            html.replace("{{bambuCode}}", bambuCode ? bambuCode : "");
            html.replace("{{autoSendToBambu}}", autoSendToBambu ? "checked" : "");
            html.replace("{{autoSendTime}}", String(autoSetBambuAmsCounter));
        }
        else
        {
            html.replace("{{bambuIp}}", "");
            html.replace("{{bambuSerial}}", "");
            html.replace("{{bambuCode}}", "");
            html.replace("{{autoSendToBambu}}", "");
            html.replace("{{autoSendTime}}", String(autoSetBambuAmsCounter));
        }
        request->send(200, "text/html", html);
@ -407,10 +280,21 @@ void setupWebserver(AsyncWebServer &server) {
            return;
        }
-        String url = request->getParam("url")->value();
+        if (request->getParam("octoEnabled")->value() == "true" && (!request->hasParam("octoUrl") || !request->hasParam("octoToken"))) {
-        url.trim();
+            request->send(400, "application/json", "{\"success\": false, \"error\": \"Missing OctoPrint URL or Token parameter\"}");
            return;
        }
-        bool healthy = saveSpoolmanUrl(url);
+        String url = request->getParam("url")->value();
        bool octoEnabled = (request->getParam("octoEnabled")->value() == "true") ? true : false;
        String octoUrl = request->getParam("octoUrl")->value();
        String octoToken = (request->getParam("octoToken")->value() != "") ? request->getParam("octoToken")->value() : "";
        url.trim();
        octoUrl.trim();
        octoToken.trim();
        bool healthy = saveSpoolmanUrl(url, octoEnabled, octoUrl, octoToken);
        String jsonResponse = "{\"healthy\": " + String(healthy ? "true" : "false") + "}";
        request->send(200, "application/json", jsonResponse);
@ -426,16 +310,20 @@ void setupWebserver(AsyncWebServer &server) {
        String bambu_ip = request->getParam("bambu_ip")->value();
        String bambu_serialnr = request->getParam("bambu_serialnr")->value();
        String bambu_accesscode = request->getParam("bambu_accesscode")->value();
        bool autoSend = (request->getParam("autoSend")->value() == "true") ? true : false;
        String autoSendTime = request->getParam("autoSendTime")->value();
        bambu_ip.trim();
        bambu_serialnr.trim();
        bambu_accesscode.trim();
        autoSendTime.trim();
        if (bambu_ip.length() == 0 || bambu_serialnr.length() == 0 || bambu_accesscode.length() == 0) {
            request->send(400, "application/json", "{\"success\": false, \"error\": \"Empty parameter\"}");
            return;
        }
-        bool success = saveBambuCredentials(bambu_ip, bambu_serialnr, bambu_accesscode);
+        bool success = saveBambuCredentials(bambu_ip, bambu_serialnr, bambu_accesscode, autoSend, autoSendTime);
        request->send(200, "application/json", "{\"healthy\": " + String(success ? "true" : "false") + "}");
    });
@ -448,7 +336,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für das Laden der CSS-Datei
    server.on("/style.css", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Lade style.css");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/style.css.gz", "text/css");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/style.css.gz", "text/css");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -457,7 +345,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für das Logo
    server.on("/logo.png", HTTP_GET, [](AsyncWebServerRequest *request){
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/logo.png.gz", "image/png");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/logo.png.gz", "image/png");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -466,7 +354,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für Favicon
    server.on("/favicon.ico", HTTP_GET, [](AsyncWebServerRequest *request){
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/favicon.ico", "image/x-icon");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/favicon.ico", "image/x-icon");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
        Serial.println("favicon.ico gesendet");
@ -474,17 +362,26 @@ void setupWebserver(AsyncWebServer &server) {
    // Route für spool_in.png
    server.on("/spool_in.png", HTTP_GET, [](AsyncWebServerRequest *request){
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/spool_in.png.gz", "image/png");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/spool_in.png.gz", "image/png");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
        Serial.println("spool_in.png gesendet");
    });
    // Route für set_spoolman.png
    server.on("/set_spoolman.png", HTTP_GET, [](AsyncWebServerRequest *request){
        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/set_spoolman.png.gz", "image/png");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
        Serial.println("set_spoolman.png gesendet");
    });
    // Route für JavaScript Dateien
    server.on("/spoolman.js", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /spoolman.js erhalten");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/spoolman.js.gz", "text/javascript");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/spoolman.js.gz", "text/javascript");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -493,7 +390,7 @@ void setupWebserver(AsyncWebServer &server) {
    server.on("/rfid.js", HTTP_GET, [](AsyncWebServerRequest *request){
        Serial.println("Anfrage für /rfid.js erhalten");
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS,"/rfid.js.gz", "text/javascript");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS,"/rfid.js.gz", "text/javascript");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", CACHE_CONTROL);
        request->send(response);
@ -502,7 +399,7 @@ void setupWebserver(AsyncWebServer &server) {
    // Vereinfachter Update-Handler
    server.on("/upgrade", HTTP_GET, [](AsyncWebServerRequest *request) {
-        AsyncWebServerResponse *response = request->beginResponse(SPIFFS, "/upgrade.html.gz", "text/html");
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/upgrade.html.gz", "text/html");
        response->addHeader("Content-Encoding", "gzip");
        response->addHeader("Cache-Control", "no-store");
        request->send(response);
@ -533,50 +430,3 @@ void setupWebserver(AsyncWebServer &server) {
    server.begin();
    Serial.println("Webserver gestartet");
 }
 void backupJsonConfigs() {
    // Bambu Credentials backup
    if (SPIFFS.exists("/bambu_credentials.json")) {
        File file = SPIFFS.open("/bambu_credentials.json", "r");
        if (file) {
            bambuCredentialsBackup = file.readString();
            file.close();
            Serial.println("Bambu credentials backed up");
        }
    }
    // Spoolman URL backup
    if (SPIFFS.exists("/spoolman_url.json")) {
        File file = SPIFFS.open("/spoolman_url.json", "r");
        if (file) {
            spoolmanUrlBackup = file.readString();
            file.close();
            Serial.println("Spoolman URL backed up");
        }
    }
 }
 void restoreJsonConfigs() {
    // Restore Bambu credentials
    if (bambuCredentialsBackup.length() > 0) {
        File file = SPIFFS.open("/bambu_credentials.json", "w");
        if (file) {
            file.print(bambuCredentialsBackup);
            file.close();
            Serial.println("Bambu credentials restored");
        }
        bambuCredentialsBackup = ""; // Clear backup
    }
    // Restore Spoolman URL
    if (spoolmanUrlBackup.length() > 0) {
        File file = SPIFFS.open("/spoolman_url.json", "w");
        if (file) {
            file.print(spoolmanUrlBackup);
            file.close();
            Serial.println("Spoolman URL restored");
        }
        spoolmanUrlBackup = ""; // Clear backup
    }
 }
--- a/src/website.h
+++ b/src/website.h
@ -19,7 +19,6 @@ extern AsyncWebSocket ws;
 // Server-Initialisierung und Handler
 void initWebServer();
 void handleUpload(AsyncWebServerRequest *request, String filename, size_t index, uint8_t *data, size_t len, bool final);
 void handleBody(AsyncWebServerRequest *request, uint8_t *data, size_t len, size_t index, size_t total);
 void setupWebserver(AsyncWebServer &server);
@ -29,8 +28,4 @@ void sendNfcData(AsyncWebSocketClient *client);
 void foundNfcTag(AsyncWebSocketClient *client, uint8_t success);
 void sendWriteResult(AsyncWebSocketClient *client, uint8_t success);
 // Upgrade-Funktionen
 void backupJsonConfigs();
 void restoreJsonConfigs();
 #endif
--- a/src/wlan.cpp
+++ b/src/wlan.cpp
@ -3,16 +3,20 @@
 #include <WiFi.h>
 #include <esp_wifi.h>
 #include <WiFiManager.h>
 #include <DNSServer.h>
 #include <ESPmDNS.h>
 #include "display.h"
 #include "config.h"
 WiFiManager wm;
 bool wm_nonblocking = false;
 uint8_t wifiErrorCounter = 0;
-void initWiFi() {
+void wifiSettings() {
    // Optimierte WiFi-Einstellungen
    WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP
    WiFi.setSleep(false); // disable sleep mode
    WiFi.setHostname("FilaMan");
    esp_wifi_set_ps(WIFI_PS_NONE);
    // Maximale Sendeleistung
@ -23,33 +27,103 @@ void initWiFi() {
    // Aktiviere WiFi-Roaming für bessere Stabilität
    esp_wifi_set_rssi_threshold(-80);
 }
-    if(wm_nonblocking) wm.setConfigPortalBlocking(false);
+void startMDNS() {
-    wm.setConfigPortalTimeout(320); // Portal nach 5min schließen
+  if (!MDNS.begin("filaman")) {
-  
+    Serial.println("Error setting up MDNS responder!");
-    oledShowTopRow();
+    while(1) {
-    oledShowMessage("WiFi Setup");
+      vTaskDelay(1000 / portTICK_PERIOD_MS);
    bool res;
    // res = wm.autoConnect(); // auto generated AP name from chipid
    res = wm.autoConnect("FilaMan"); // anonymous ap
    // res = wm.autoConnect("spoolman","password"); // password protected ap
    if(!res) {
      Serial.println("Failed to connect or hit timeout");
      // ESP.restart();
      oledShowTopRow();
      oledShowMessage("WiFi not connected Check Portal");
    } 
    else {
      wifiOn = true;
      //if you get here you have connected to the WiFi    
      Serial.println("connected...yeey :)");
      Serial.print("IP address: ");
      Serial.println(WiFi.localIP());
      oledShowTopRow();
      display.display();
    }
  }
  Serial.println("mDNS responder started");
 }
 void configModeCallback (WiFiManager *myWiFiManager) {
  Serial.println("Entered config mode");
  oledShowTopRow();
  oledShowMessage("WiFi Config Mode");
 }
 void initWiFi() {
  // load Wifi settings
  wifiSettings();
  wm.setAPCallback(configModeCallback);
  wm.setSaveConfigCallback([]() {
    Serial.println("Configurations updated");
    ESP.restart();
  });
  if(wm_nonblocking) wm.setConfigPortalBlocking(false);
  //wm.setConfigPortalTimeout(320); // Portal nach 5min schließen
  wm.setWiFiAutoReconnect(true);
  wm.setConnectTimeout(5);
  oledShowTopRow();
  oledShowMessage("WiFi Setup");
  //bool res = wm.autoConnect("FilaMan"); // anonymous ap
  if(!wm.autoConnect("FilaMan")) {
    Serial.println("Failed to connect or hit timeout");
    // ESP.restart();
    oledShowTopRow();
    oledShowMessage("WiFi not connected Check Portal");
  } 
  else {
    wifiOn = true;
    //if you get here you have connected to the WiFi    
    Serial.println("connected...yeey :)");
    Serial.print("IP address: ");
    Serial.println(WiFi.localIP());
    oledShowTopRow();
    display.display();
    vTaskDelay(500 / portTICK_PERIOD_MS);
    // mDNS
    startMDNS();
  }
 }
 void checkWiFiConnection() {
  if (WiFi.status() != WL_CONNECTED) 
  {
    Serial.println("WiFi connection lost. Reconnecting...");
    wifiOn = false;
    oledShowTopRow();
    oledShowMessage("WiFi reconnecting");
    WiFi.reconnect(); // Versuche, die Verbindung wiederherzustellen
    vTaskDelay(5000 / portTICK_PERIOD_MS); // Warte 5 Sekunden, bevor erneut geprüft wird
    if (WiFi.status() != WL_CONNECTED) 
    {
      Serial.println("Failed to reconnect. Restarting WiFi...");
      WiFi.disconnect();
      Serial.println("WiFi disconnected.");
      vTaskDelay(1000 / portTICK_PERIOD_MS);
      wifiErrorCounter++;
      //wifiSettings();
      WiFi.reconnect();
      Serial.println("WiFi reconnecting...");
      WiFi.waitForConnectResult();
    } 
    else 
    {
      Serial.println("WiFi reconnected.");
      wifiErrorCounter = 0;
      wifiOn = true;
      oledShowTopRow();
      startMDNS();
    }
  }
  if (wifiErrorCounter >= 5) 
  {
    Serial.println("Too many WiFi errors. Restarting...");
    ESP.restart();
  }
 }
--- a/src/wlan.h
+++ b/src/wlan.h
@ -4,5 +4,6 @@
 #include <Arduino.h>
 void initWiFi();
 void checkWiFiConnection();
 #endif
Author	SHA1	Message	Date
Manuel Weiser	8a558c3121	refactor: remove unnecessary delay in MQTT setup and add delay before restart	2025-03-03 16:58:24 +01:00
Manuel Weiser	5afb60df32	fix: correct typo in console log for total length	2025-03-02 20:21:27 +01:00
Manuel Weiser	3394e6eb01	feat: add new 3D print file for Filaman scale	2025-03-02 08:06:59 +01:00
Manuel Weiser	3818c2c059	refactor: remove redundant scale calibration checks and enhance task management	2025-03-01 18:50:20 +01:00
Manuel Weiser	0afc543b5f	refactor: enhance AMS data handling and streamline spool auto-setting logic	2025-03-01 18:44:35 +01:00
Manuel Weiser	adee46e3fc	refactor: adjust stack size and improve scale calibration logic	2025-03-01 18:44:29 +01:00
Manuel Weiser	1db74867e6	refactor: update labels and input types for better clarity and functionality	2025-03-01 18:44:17 +01:00
Manuel Weiser	0f24a63d32	added Discord Server	2025-03-01 15:33:39 +01:00
Manuel Weiser	3640809502	update documentation for clarity and accuracy	2025-03-01 13:04:28 +01:00
Manuel Weiser	289d5357be	docs: update changelog and header for version v1.4.0 All checks were successful Release Workflow / detect-provider (push) Successful in 5s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m45s Details	2025-03-01 12:46:18 +01:00
Manuel Weiser	315530d1ea	update NFC tag references to include NTAG213 and clarify storage capacity	2025-03-01 12:45:55 +01:00
Manuel Weiser	f36773a4c4	bump version to 1.4.0	2025-03-01 12:37:50 +01:00
Manuel Weiser	b35163936f	add support for Spoolman Octoprint Plugin in README files	2025-03-01 12:33:26 +01:00
Manuel Weiser	7a2c9d6d17	add OctoPrint integration with configurable fields and update functionality	2025-03-01 12:18:33 +01:00
Manuel Weiser	eb2a8dc128	add version comparison function and check for outdated versions before updates	2025-03-01 12:18:21 +01:00
Manuel Weiser	bec2c91331	remove unused version and protocol fields from JSON output; add error message for insufficient memory	2025-03-01 10:42:06 +01:00
Manuel Weiser	c6e727de06	remove unused version and protocol fields from NFC data packet	2025-03-01 10:41:51 +01:00
Manuel Weiser	3253e7d407	sort vendors alphabetically in the dropdown list	2025-03-01 10:41:44 +01:00
ManuelW	bce2ad2ed8	Merge pull request #10 from janecker/nfc-improvements Improves NFC Tag handling	2025-03-01 10:03:46 +01:00
Jan Philipp Ecker	0eff29ef4a	Improves NFC Tag handling Fixes memory underflow when reading tags. Reads tags with their actual data size and uses actual size instead of constnat value for tag size when writing a tag.	2025-02-28 22:35:34 +01:00
Manuel Weiser	492bf6cdb8	docs: update changelog and header for version v1.3.99 All checks were successful Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m39s Details	2025-02-28 18:35:16 +01:00
Manuel Weiser	b0317f4001	docs: update platformio.ini for version v1.3.99	2025-02-28 18:35:16 +01:00
Manuel Weiser	58ff6458b0	refactor: update workflows to build firmware with LittleFS instead of SPIFFS	2025-02-28 18:35:05 +01:00
Manuel Weiser	d9c40f5124	docs: update changelog and header for version v1.3.98 Some checks failed Release Workflow / detect-provider (push) Successful in 4s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m51s Details	2025-02-28 18:12:56 +01:00
Manuel Weiser	68bc31e29a	docs: update platformio.ini for version v1.3.98	2025-02-28 18:12:56 +01:00
Manuel Weiser	9b23ac5fd2	refactor: migrate from SPIFFS to LittleFS for file handling	2025-02-28 18:12:42 +01:00
Manuel Weiser	d31bff14c3	chore: remove unused VSCode settings file	2025-02-28 09:29:34 +01:00
Manuel Weiser	150f92484a	refactor: remove commented-out spoolman and filaman data from api.cpp	2025-02-28 09:26:09 +01:00
Manuel Weiser	fa74832fb9	docs: update changelog and header for version v1.3.97 All checks were successful Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m47s Details	2025-02-28 08:53:08 +01:00
Manuel Weiser	2eab3db77d	docs: update platformio.ini for version v1.3.97	2025-02-28 08:53:07 +01:00
Manuel Weiser	0a1bf22f7e	feat: füge Bestätigungsmeldung für Spool-Einstellung hinzu	2025-02-27 22:07:47 +01:00
Manuel Weiser	d58244c1f8	fix: Speichernutzung optimiert	2025-02-27 21:56:31 +01:00
Manuel Weiser	db626ea516	fix: behebe doppelte http.end() Aufrufe in checkSpoolmanExtraFields	2025-02-27 21:54:47 +01:00
Manuel Weiser	fd8f7685a1	fix: optimiere Verzögerungen und Stackgrößen in NFC-Task-Funktionen	2025-02-27 21:54:32 +01:00
Manuel Weiser	944b156528	feat: verbessere WLAN-Konfiguration und füge mDNS-Unterstützung hinzu	2025-02-27 21:53:48 +01:00
Manuel Weiser	76100593cc	refactor: entferne ungenutzte Bibliotheken und Debug-Ausgaben aus main.cpp	2025-02-27 15:50:04 +01:00
Manuel Weiser	732d590344	feat: aktualisiere OLED-Anzeige mit Versionsnummer und verbessere Textausrichtung	2025-02-27 14:35:53 +01:00
Manuel Weiser	46cd953b80	feat: füge regelmäßige WLAN-Verbindungsüberprüfung hinzu	2025-02-27 09:38:54 +01:00
Manuel Weiser	c645035bbe	feat: aktualisiere Schaltplan-Bild	2025-02-26 18:29:37 +01:00
Manuel Weiser	9e76620cd3	style: entferne text-shadow von deaktivierten Schaltflächen	2025-02-26 18:07:22 +01:00
Manuel Weiser	faddda6201	feat: zeige Versionsnummer im OLED-Display an	2025-02-26 18:01:35 +01:00
Manuel Weiser	de9c1706c0	docs: füge Link zum Wiki für detaillierte Informationen über die Nutzung hinzu	2025-02-25 20:19:04 +01:00
Manuel Weiser	9f7ee13e78	docs: update changelog and header for version v1.3.96 All checks were successful Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 3m1s Details	2025-02-25 16:29:37 +01:00
Manuel Weiser	cf3f6f6741	docs: update platformio.ini for version v1.3.96	2025-02-25 16:29:37 +01:00
Manuel Weiser	b87d43c64e	feat: füge Unterstützung für Spoolman-Einstellungen hinzu und aktualisiere die Benutzeroberfläche	2025-02-25 16:24:22 +01:00
Manuel Weiser	3d0411e3c1	feat: entferne die sendAmsData-Funktion aus der API-Schnittstelle	2025-02-25 14:52:47 +01:00
Manuel Weiser	9c61b708aa	fix: aktualisiere Bedingungen für die AMS-Datenaktualisierung und entferne unnötige Aufrufe	2025-02-25 14:52:27 +01:00
Manuel Weiser	90f800d042	fix: aktualisiere Bedingung für den Fortschritt der OTA-Update-Nachricht	2025-02-25 12:19:24 +01:00
Manuel Weiser	a7b1721e1d	feat: erweitere Bambu-Credentials um AutoSend-Zeit und aktualisiere die Benutzeroberfläche	2025-02-25 12:17:20 +01:00
Manuel Weiser	e4825d2905	feat: erweitere Bambu-Credentials mit AutoSend-Wartezeit und aktualisiere die Benutzeroberfläche	2025-02-25 11:32:57 +01:00
Manuel Weiser	c1733848d3	feat: add espRestart function and replace delay with vTaskDelay for OTA update process	2025-02-25 11:02:54 +01:00
Manuel Weiser	484c95523d	feat: implement OTA update functionality with backup and restore for configurations	2025-02-25 10:57:49 +01:00
Manuel Weiser	8499613215	fix: update auto set logic to check RFID tag before setting Bambu spool	2025-02-25 10:57:36 +01:00
Manuel Weiser	08f37186b4	feat: add own_filaments.json and integrate custom filament loading in bambu.cpp	2025-02-25 09:02:11 +01:00
Manuel Weiser	2948a35fa8	docs: update changelog and header for version v1.3.95 All checks were successful Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m45s Details	2025-02-24 19:56:19 +01:00
Manuel Weiser	730724fe58	docs: update webpages for version v1.3.95	2025-02-24 19:56:18 +01:00
Manuel Weiser	714b7065e7	fix: bind autoSendToBambu variable to checkbox in spoolman.html	2025-02-24 19:56:01 +01:00
Manuel Weiser	2d8aec515d	docs: update changelog and header for version v1.3.94 All checks were successful Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m41s Details	2025-02-24 19:47:24 +01:00
Manuel Weiser	b245a206ce	docs: update webpages for version v1.3.94	2025-02-24 19:47:24 +01:00
Manuel Weiser	f1489e75cc	fix: correct payload type check in NFC write event handling	2025-02-24 19:46:58 +01:00
Manuel Weiser	d9ae829503	docs: update changelog and header for version v1.3.93 All checks were successful Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 3m1s Details	2025-02-24 19:15:03 +01:00
Manuel Weiser	2247b8ed6c	docs: update webpages for version v1.3.93	2025-02-24 19:15:03 +01:00
Manuel Weiser	d70b187bf9	feat: implement auto send feature for Bambu spool management and update related configurations	2025-02-24 19:14:51 +01:00
Manuel Weiser	1ade007473	fix: remove debug output from splitTextIntoLines and update weight display logic in scanRfidTask	2025-02-24 19:14:45 +01:00
Manuel Weiser	0af14e2f7d	docs: add debug mode instructions for Spoolman in README	2025-02-24 19:14:28 +01:00
Manuel Weiser	de67cdbff3	fix: enhance weight display logic for negative values	2025-02-24 12:28:18 +01:00
Manuel Weiser	98fce15ccc	refactor: simplify filament names in JSON configuration	2025-02-24 12:21:27 +01:00
Manuel Weiser	ab417ba64b	refactor: update findFilamentIdx to return structured result and improve type searching logic	2025-02-24 12:11:27 +01:00
Manuel Weiser	320057bc49	docs: add wiring diagrams to README for PN532 I2C setup	2025-02-24 10:10:15 +01:00
Manuel Weiser	9007a65fc2	docs: update README to reflect PN532 I2C configuration and remove SPI pin details	2025-02-24 09:36:28 +01:00
Manuel Weiser	2214f5f5de	fix: remove unnecessary CPU frequency configuration from setup function	2025-02-24 09:20:44 +01:00
Manuel Weiser	5c5846c52c	docs: update changelog and header for version v1.3.92 All checks were successful Release Workflow / detect-provider (push) Successful in 4s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m49s Details	2025-02-24 07:47:58 +01:00
Manuel Weiser	517fa37a3d	docs: update webpages for version v1.3.92	2025-02-24 07:47:58 +01:00
Manuel Weiser	aaa7a6ee9c	fix: configure CPU frequency settings in setup function only for testing	2025-02-24 07:47:50 +01:00
Manuel Weiser	a0b8639488	fix: update comment to clarify NVS reading process	2025-02-23 21:29:38 +01:00
Manuel Weiser	a16c05287e	fix: adjust weight display logic to handle cases for weight less than 2	2025-02-23 21:23:46 +01:00
Manuel Weiser	ecb35a97bd	fix: update weight display logic to handle negative and specific weight cases	2025-02-23 21:22:50 +01:00
Manuel Weiser	ba968611ec	refactor: remove commented-out code in setBambuSpool function	2025-02-23 21:17:55 +01:00
Manuel Weiser	6bd11ddce3	docs: update installation instructions and formatting in README files	2025-02-23 20:35:46 +01:00
Manuel Weiser	3eb313e61a	docs: update changelog and header for version v1.3.91 All checks were successful Release Workflow / detect-provider (push) Successful in 5s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m51s Details	2025-02-23 20:29:45 +01:00
Manuel Weiser	aad35dc296	docs: update webpages for version v1.3.91	2025-02-23 20:29:45 +01:00
Manuel Weiser	85ac636b1e	feat: update GitHub Actions workflow for FTP firmware upload with improved credential checks	2025-02-23 20:29:40 +01:00
Manuel Weiser	6f1804c3fe	docs: update changelog and header for version v1.3.90 All checks were successful Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m52s Details	2025-02-23 20:28:25 +01:00
Manuel Weiser	89716920dc	docs: update webpages for version v1.3.90	2025-02-23 20:28:25 +01:00
Manuel Weiser	78b5078651	feat: update index.html for improved content structure and additional links	2025-02-23 20:27:38 +01:00
Manuel Weiser	6098c3b052	feat: improve UI for Spoolman and Bambu Lab printer credentials, enhancing layout and styling	2025-02-23 20:23:09 +01:00
Manuel Weiser	e7537f94d4	docs: update README files with HSPI default PINs and add ESP32 pin diagram	2025-02-23 20:12:35 +01:00
Manuel Weiser	37717392d0	feat: implement scale calibration checks and update start_scale function to return calibration status	2025-02-23 16:44:43 +01:00
Manuel Weiser	c6da28ad6f	feat: add FTP upload functionality to GitHub release workflow and update installation instructions in README	2025-02-23 16:13:42 +01:00
Manuel Weiser	d6e38a4e73	fix: remove debug secrets check from Gitea release workflow	2025-02-23 16:01:42 +01:00
Manuel Weiser	4e0d9353c8	docs: update changelog and header for version v1.3.89 All checks were successful Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Successful in 2m59s Details	2025-02-23 15:57:14 +01:00
Manuel Weiser	7059826659	docs: update webpages for version v1.3.89	2025-02-23 15:57:13 +01:00
Manuel Weiser	41faa8bb1c	fix: update Gitea release workflow to use vars for FTP credentials	2025-02-23 15:57:09 +01:00
Manuel Weiser	b38e3fa5ef	docs: update changelog and header for version v1.3.88 Some checks failed Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m48s Details	2025-02-23 15:49:37 +01:00
Manuel Weiser	5280d7e341	docs: update webpages for version v1.3.88	2025-02-23 15:49:37 +01:00
Manuel Weiser	2f95c66d39	fix: update Gitea release workflow to use secrets for FTP credentials	2025-02-23 15:49:33 +01:00
Manuel Weiser	df1b87465c	docs: update changelog and header for version v1.3.87 Some checks failed Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m43s Details	2025-02-23 15:39:09 +01:00
Manuel Weiser	84f1420999	docs: update webpages for version v1.3.87	2025-02-23 15:39:09 +01:00
Manuel Weiser	b14dd5475d	fix: enhance FTP upload workflow with credential checks and version output	2025-02-23 15:38:59 +01:00
Manuel Weiser	975845421b	docs: update changelog and header for version v1.3.86 Some checks failed Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m55s Details	2025-02-23 15:29:14 +01:00
Manuel Weiser	044ddbe0eb	docs: update webpages for version v1.3.86	2025-02-23 15:29:14 +01:00
Manuel Weiser	c385544d67	fix: streamline FTP credentials usage in Gitea release workflow	2025-02-23 15:29:10 +01:00
Manuel Weiser	c6cfd85687	docs: update changelog and header for version v1.3.85 Some checks failed Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m41s Details	2025-02-23 15:20:13 +01:00
Manuel Weiser	84632322e2	docs: update webpages for version v1.3.85	2025-02-23 15:20:13 +01:00
Manuel Weiser	86e55a8696	fix: add FTP_USER variable for Gitea release workflow	2025-02-23 15:20:09 +01:00
Manuel Weiser	d2b40daaca	docs: update changelog and header for version v1.3.84 Some checks failed Release Workflow / detect-provider (push) Successful in 5s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m47s Details	2025-02-23 15:13:49 +01:00
Manuel Weiser	9d58cbc31c	docs: update webpages for version v1.3.84	2025-02-23 15:13:48 +01:00
Manuel Weiser	d09aeaf47c	fix: add FTP_HOST variable for firmware upload in Gitea release workflow	2025-02-23 15:13:45 +01:00
Manuel Weiser	9fb82fe51e	docs: update changelog and header for version v1.3.83 Some checks failed Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m57s Details	2025-02-23 15:07:40 +01:00
Manuel Weiser	5e0e2c5f6b	docs: update webpages for version v1.3.83	2025-02-23 15:07:40 +01:00
Manuel Weiser	a8460503ff	fix: correct variable interpolation for FTP credentials in Gitea release workflow	2025-02-23 15:07:35 +01:00
Manuel Weiser	6700a1761f	docs: update changelog and header for version v1.3.82 Some checks failed Release Workflow / detect-provider (push) Successful in 3s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m51s Details	2025-02-23 14:59:03 +01:00
Manuel Weiser	7207f36e06	docs: update webpages for version v1.3.82	2025-02-23 14:59:03 +01:00
Manuel Weiser	e79bee3381	feat: update Gitea release workflow to use variable interpolation for FTP credentials	2025-02-23 14:58:57 +01:00
Manuel Weiser	c3918f075b	docs: update changelog and header for version v1.3.81 Some checks failed Release Workflow / detect-provider (push) Successful in 2s Details Release Workflow / github-release (push) Has been skipped Details Release Workflow / gitea-release (push) Failing after 2m41s Details	2025-02-23 14:53:03 +01:00
Manuel Weiser	0c384219c5	docs: update webpages for version v1.3.81	2025-02-23 14:53:03 +01:00
Manuel Weiser	42b9daf4be	feat: update Gitea release workflow to use environment variables for FTP credentials and version	2025-02-23 14:53:00 +01:00