GAT562 Mesh Tracker Pro 20dBm Power Compatible Meshtastic or Meshcore

Feature:

Flashing Meshtastic or Meshcore

SX1262 LoRa 433MHz/868MHz/915MHz

nRF52840 MCU Chip Bluetooth 5.0

1.3 inch OLED display

20dBM PA Transmit Power(Max 72KM Range)

Joystick Remote typing

GNSS GPS Location information

Built in 2500mAh polymer battery

Specifications:

Processor: nRF52840 (Bluetooth 5.0)

LoRa Radio: SX1262 (433MHz/868MHz/915MHz)

GNSS Modules:L76K GPS module(

Display: 1.3-inch OLED Display

Range: more then 72km (terrain dependent)

Battery:2500mAh polymer battery

Standby time:3-4 days turn on GPS(10 days if turn off GPS)

Charging:Type C 5V/1A

Type C interface:for Charging/flashing

Flash:Support Meshcore&Meshtastic

Temperature and humidity sensors(default not include,but Optional,contact with seller)

Waterproof:IP65

Size:4.8x2.7x12.3cm

Net Weight:0.085KG

Application:

Outdoor exploration and extreme sports: 

In areas without signal such as hiking, mountaineering, camping, cycling, and off-road, team members can share their location and send messages in real-time. In case of emergency, they can call for help and locate with just one click to ensure safety.

Disaster rescue emergency communication: 

In the event of public network paralysis caused by earthquakes, floods, typhoons, etc., a temporary communication network can be quickly set up to coordinate rescue personnel, locate trapped persons, and send distress messages to affected people, thereby improving rescue efficiency.

Wildlife research and environmental monitoring: 

animal and plant research, geological exploration, meteorological observation, etc. Deploy nodes to collect long-term data on temperature, humidity, light, motion, etc., and share it across observation points;

Large outdoor events and gatherings: 

marathons, cross-country races, music festivals, etc. The organizers deploy nodes along the way to locate participants in real-time, ensuring supplies, medical care, and safety to prevent them from getting lost.

Community and campus emergency communication: 

community safety patrols, fire evacuation, large-scale events, as a supplement to the public network;

Education and Technology Practice: 

Higher education/vocational schools use IoT, wireless communication, and self-organizing network teaching. Students learn LoRa, Mesh, GPS integration, and firmware development through DIY nodes to cultivate practical abilities.