LoRaWAN Settings

Keys & Identities

• Scan the QR code to quickly register your device on most LoRaWAN Network Servers (LNS) that support QR-based onboarding.
• If you need to view the device credentials manually, tap the “Keys” button below the QR code to display information such as DevEUI, AppEUI, & AppKey.

Keys Regeneration

Advanced Options – Key Regeneration
Inside the Advanced section of the Keys & Identity tab, users can regenerate the LoRaWAN keys (such as AppKey, NwkKey, etc.) to enhance device security.
This is recommended when transferring device ownership or securing deployments in sensitive environments.

LoRaWAN Class

LoRaWAN Class
Select the appropriate LoRaWAN Class based on your device’s power source and application needs:

• Class A
  Recommended for battery-powered devices. It offers the lowest power consumption and is suitable for sensors that transmit data occasionally.

• Class C
  Designed for mains-powered devices. It keeps the receiver always on, allowing near-instant downlink communication from the server.

Choosing the correct class helps optimize battery life and network responsiveness based on your deployment.

note

Controller are available in the Class C mode only

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LoRaWAN Frequency

Select the appropriate LoRaWAN frequency band based on your deployment region and local regulatory standards.

• Example
  IN865(India) , IN868(Europe) ,US915(North America)

Adaptive Data Rate

• Adaptive Data Rate (ADR)

  Toggle ON to enable ADR, allowing the device to automatically adjust transmission settings for optimal power efficiency and network performance.s

• Custom Spreading Factor (SF)

  • Toggle OFF to manually configure the Spreading Factor.
  • Use the “+” & “–” buttons to adjust the SF based on your desired range vs. data rate trade-off.

note

Lower SF = faster data, shorter range & Higher SF = slower data, longer range

Confirmed Messages

• Confirmed Messages
  Toggle ON to enable Confirmed Messages, where each uplink requires an acknowledgment from the server.

• Airtime Impact
  While this improves delivery reliability, it may lead to higher power consumption and longer airtime, especially in high-frequency transmissions.

Use only for critical data that must be confirmed by the network.