Fully Arduino-Compatible and designed with the Meshtastic protocol in mind, the Wio Tracker 1110 Dev Kit is a powerful development platform for building low-power LoRa mesh networks in remote or off-grid environments. Whether you're focused on asset tracking, emergency communication, or outdoor adventure tech, this kit enables reliable, peer-to-peer Meshtastic deployments where traditional networks fall short. Seamless integration with the Arduino IDE ensures quick prototyping and customization, making it perfect for engineers, makers, and open-source hardware enthusiasts exploring decentralized communication solutions using the Meshtastic LoRa ecosystem.
Features
🔧 Plug & Play Simplicity
The Wio Tracker 1110 Dev Kit for Meshtastic offers effortless setup: just plug in the two included Grove Modules, flash the Meshtastic firmware, and you're ready to build your own LoRa Mesh Network for off-grid communication. No cell tower? No problem. 🏕️📶
🛰️ Real-Time GPS & Environmental Sensing
With the Grove Air530 GPS module, the kit supports high-precision multi-satellite tracking (GPS, Beidou, Galileo, Glonass, QZSS, SBAS). Plus, built-in temperature and humidity sensors help monitor your surroundings—ideal for remote monitoring applications. 🌦️📍
🖥️ OLED-Based Data Visualization
See your Meshtastic node's status in real time on a vibrant 0.96" OLED (128×64) screen. From battery and GPS position to nearby nodes and signal quality, everything is displayed clearly—perfect for debugging or field use. 🔋📊
🧩 300+ Grove Expansion Options
With 4 unused Grove connectors, the board gives you modular freedom. Add any of 300+ Seeed Grove sensors to tailor your Meshtastic project for unique scenarios—weather sensing, motion detection, asset tracking, and beyond. 🌐🔌
🛠️ Open Source, Arduino Friendly
Designed for builders and makers, this open-source kit supports Arduino programming for full customization. Dive into the Meshtastic community, share your creations, and develop next-gen peer-to-peer mesh networks. 👨💻⚙️
🧳 Enclosure Designs Included
Need housing? We've got you. Download source files for laser-cut acrylic and 3D-printable enclosures—perfect for rugged field deployment or polished desk demos. Feedback is welcome as we prepare to launch the physical cases! 🧵🔒
Specification
| General | ||
| Voltage - supply | 5V (USB 2.0 Type-C) | |
| Battery Connector | 3.7V | |
| Interface | RFIO | GNSS Antenna Connector* 1 LoRa Antenna Connector* 1 |
| USB type-C | * 1 | |
| Grove Interface | ADC* 1I2C* 1UART* 1 Digital*3 | |
| Button | USER | Configurable button |
| RESET | Reset | |
| Exterior FLASH Memory | 4M | |
| LoRa® and Positioning with Semtech LR1110 (This Kit Only Use the LoRa ® RF transceiver ) | ||
| LoRaWAN® Protocol | V1.0.4 | |
| Frequency Plan | 863~928MHz | |
| Sensitivity | -125dBm @125K/SF7 -141dBm @125K/SF12 | |
| Output Power | 20dBm max @LoRa® | |
| Positioning Technology | GNSS(GPS/BeiDou), WiFi Sniffer | |
| Range | 2~10km (Depends on antenna and environment) | |
| Bluetooth (Nordic nRF52840) | ||
| Bluetooth | Bluetooth 5.3 | |
| Flash | 1MB | |
| RAM | 256KB | |
| Protocol | Bluetooth LE, Bluetooth mesh, Thread, Zigbee, 802.15.4, ANT and 2.4 GHz proprietary stacks | |
| Output Power | 6dBm max @Bluetooth | |
| Onboard Sensors - TH Sensor (SHT41) | ||
| Range | Accuracy | |
| Temperature | -40~85°C | ± 0.2°C |
| Humidity | 0~100%RH | ±1.8%RH |
| Onboard Sensors - 3-Axis Accelerometer( Not U sed) | ||
| Range | ±2g, 4g, 8g, 16g | |
| Bandwidth | 0.5Hz ~ 625Hz | |
| Sensitivity (LSB/g) | 1000 (±2g) ~ 83 (±16g) | |
Grove - OLED Display 0.96 inch
| Power Voltage (VCC) | 3.3 / 5 V |
| Driver IC | SSD1308Z |
| Display Color | White |
| Dot Matrix | 128×64 |
| Panel Size | 26.7(W)×19.26(H) mm |
| Active Area | 21.74(W)×11.175 (H) mm |
| Dot Pitch | 0.17(W)×0.175 (H) mm |
| Dot Size | 0.15(W)×0.15 (H) mm |
| Wide range of operating temperature | -20~70 ℃ |
Grove - GPS (Air530)
| P arameters | V alues | |
| Supply voltage | 3.3V/5V | |
| Working current | up to 60mA | |
| Interface | UART | |
| Time of warm start | 4s | |
| Time of cold boot | 30s | |
| Working Temperature | -35C-85°C | |
| Storage Temperature | -55°C-100°C | |
| Humidity | 5%-95% | |
| Time of Positioning | Pure hardware cold start | 27.5s |
| Pure hardware hot start | <1S | |
| Pure hardware recapture | <1S | |
| Software-assisted A-GNSS | <5S | |
| Sensitivity | Cold start | -148dBm |
| Hot Start | -162dBm | |
| Recapture | -164dBm | |
| Track | -166dBm | |
| Accuracy | Horizontal positioning accuracy | 2.5m |
| High positioning accuracy | 3.5m | |
| Speed accuracy | 0.1m/s | |
| Time transfer accuracy | 30ns | |
| Consumption | Capture current value@3.3V | 42.6mA |
| Tracking current value@3.3V | 36.7mA | |
| Low power mode@3.3V | 0.85mA | |
| Ultra-low-power mode@3.3V | 31uA | |
Hardware overview
Application
If you've built Meshtastic devices with GPS, temperature, and humidity sensors, numerous potential applications await. Use the Meshtastic APP to communicate with low-power, long-range LoRa® devices via your phone. Connect with nearby nodes, participate in group chats, and share geographic locations—all in areas without cellular coverage.
Recommended U se C ases:
- Asset Tracking : Track the movement and location of your assets and monitor environmental conditions in real-time where the asset is located for better management.
- Outdoor Adventure : Use the kit to build a Meshtastic device for off-grid communication with your hiking or camping group. The GPS can help track locations, while temperature and humidity sensors can provide real-time environmental data to ensure safety.
- Environmental Monitoring : Collect and transmit environmental data. Deploy the device in remote areas to monitor and log temperature and humidity over time, contributing to local weather data collection. Use the device to track and monitor environmental conditions in wildlife habitats, aiding in research and conservation efforts.
Documents
Part List
| Wio Tracker 1110 Dev Board for Meshtastic | x1(Required) |
| Grove - OLED Display 0.96" | x1 |
| Grove - GPS (Air530) | x1 |