|Highly sensitive radio transceiver is available in a single multiband device. Both 868 and 902 – 928 MHz supported.
|3 x AA. Batteries not included.
|Supported Battery Types
*Lithium Thionyl Chloride (LTC)
*Lithium or LTC recommended for best performance. Please dispose of Lithium batteries in a safe and responsible manner
|**Battery Life Estimates
|Once Daily location updates – 10+ years
Movement-Based location updates – 5 years
Hourly location updates – 2 years
|Concurrent GPS, GLONASS, Galileo, QZSS
|-147dBm cold start / -161dBm hot start
|~1m 2D RMS, GPS, -130dBm
|Low Noise Amplifier
|GPS signals are filtered and boosted by a SAW filter and low-noise amplifier (LNA) allowing operation where other units fail
|LoRaWAN Gateway Geolocation Fallback
|LoRaWAN gateway geolocation fallback when there is no GNSS (Network Specific)
*Average current in lowest power configuration
|Reverse Polarity Protection
MECHANICS / DESIGN
|108 x 86 x 30 mm (4.25 x 3.39 x 1.18″)
|Non-branded housing for optional white-labeling.
|Ultra-rugged and waterproof IP68 and IK07-rated housing ensures the Oyster3 LoRaWAN can withstand impact, fine dust, and brief submersion
|Compact and concealable. Multiple installation options for covertly and easily securing the device to assets with screws, bolts, cable ties, rivets, and more. Stainless steel screws supplied.
|-30°C to +60°C – for operation in extreme temperatures use LTC batteries
|3-Axis Accelerometer to detect movement
|Diagnostic LED indicates operation status
|On-Board Speed and Heading
|Current speed and heading is reported with each position update
|Battery Life Monitoring
|Periodic battery status uplinks give a breakdown of power use
|The server can use device location to create geofences and alerts if an asset enters or leaves designated locations
|Periodic or Movement-Based
|Configure parameters to send updates based on set time intervals or when movement occurs. Adaptive tracking technology detects when the device is on the move and increases the update rate, providing detail when you need it while conserving battery when stationary.
|Stationary devices enter sleep mode until movement occurs to conserve battery life and optimize data usage
|Reduce or minimize asset loss and theft
|Configure device parameters such as position update rate, movement and accelerometer settings, and more to fit any tracking application.
|Manage device firmware updates and parameters via DM-Link provisioning tool. Some parameters can be changed via downlink.
|Easy integration with comprehensive documentation and a flexible and open payload format
|LoRaWAN® networks use AES-128 Encryption so your data is protected
|Two-year manufacturer’s warranty. Exclusions apply.
|Please see our knowledge base for device certifications
*Positioning accuracy specifications are provided by the GNSS supplier and reflect ideal conditions. Device configuration, installation, environmental conditions, augmentation services, and many other factors may lead to variations in positioning accuracy.
**Battery life estimates are influenced by several factors including temperature, installation and orientation of the device, the frequency of location updates, network coverage, sensor integrations, peripherals, accelerometer settings, and more. Estimated battery life calculators are available at support.digitalmatter.com.
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