Please browse our extensive set of documents to help with integrating the Doodle Labs products. 

Datasheets – Detailed Datasheets for all Doodle Labs products

Application Notes  – A Collection of Application Notes to Extend the Smart Radio Platform

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Frequency RangeDescriptionView Details
902-928 MHz
License Free Band – USA, Canada, Mexico, Central, South and Latin Americas, Australia, New Zealand, and China

The 900 MHz band is license-free for use in many countries around the world. At lower frequencies, the radio signals can travel farther and penetrate through the walls and vegetation, providing better NrLOS operation. The 900 MHz band provides an excellent alternative to the crowded 2.4 GHz Wi-Fi band for long-range links.

RM-915

Wearable/OEM – Datasheet

Embedded/External – Datasheet

2400-2482 MHz

WiFi band (Worldwide)

Smart Radio employs special Mesh Rider features for interference mitigation in the crowded WiFi band. Thanks for 30 dBm Tx power, these Smart Radios are used for long-range and deployments in the harsh environments.

RM-2450

Wearable/OEM – Datasheet

OEM-mini – Datasheet

Embedded/External – Datasheet

3550-3700 MHz

New Interference Free CBRS innovation Band (Citizens Broadband Radio Service) in the USA

A large swath (150 MHz) of a new spectrum has been released by FCC to enable innovations in wireless applications. Check out our Mesh Rider solution for the newly released CBRS band.

RM-3625

Embedded/External – Datasheet

5150-5875 MHz

License Free band – (Worldwide)

 With 30 dBm Tx power, these Smart Radios are used for long-range and deployments in the harsh environments.

RM-5500

Wearable/OEM – Datasheet

5725-5875 MHz

License Free band – USA, Canada, Mexico, Central, South and Latin Americas, India, Australia, and New Zealand

 With 30 dBm Tx power, these Smart Radios are used for long-range and deployments in the harsh environments.

RM-5800

Embedded/External – Datasheet

Frequency Range
Description View Details
1350-1390 MHz

Federal L-Band

L-Band Smart Radios are designed for use by Government organizations. The longer wavelength of the L-Band allows to reach further distances and especially well suited for ground robotic applications.

RM-1370

Embedded/External – Datasheet

 1625-2510 MHz

Federal M1-M6 Bands
Helix operates on six bands (M1-M6) within 1625-2510 MHz, which provides global coverage so systems can be deployed without requiring multiple SKUs. This frequency range removes a large operational complexity for government customers who have deployments around the world. Moreover, license free 2.4 GHz band is also covered to further increase the global coverage.

M1 Band = 1625~1725 MHz

M2 Band = 17800~1850 MHz

M5 Band = 2025~2110 MHz

M3 Band = 2200~2290 MHz

M4 Band = 2310~2390 MHz

M6 Band = 2400~2500 MHz

RM-2025

Wearable – Datasheet

OEM-mini – Datasheet 

 4400-5000 MHz C-Band, NATO Band

 RM-4700

Wearable/OEM- Datasheet

 4940-4990 MHz

Federal Band

Suitable for ground robotic applications

RM-4965

Wearable/OEM – Datasheet 

 5100-5900 MHz  Federal Band

 RM-5500

Wearable/OEM – Datasheet

 5650-5755 MHz  Japan Robotics Band

 RM-5700

Wearable/OEM – Datasheet

WiFi Standard
DescriptionView Specs
IEEE 802.11ac
3×3 MIMO streams, Dual Band, software select-able 2.400~2.482 GHz and 5.15~5.85 GHz ISM Frequency Bands

29 dBm Tx power, -100 dBm Rx sensitivity, Integrated LNA, high interference resistance, -40 to +85°C operating temp, Antenna port protection, MMCX/U.FL connectors, Hardware RF Kill for aviation, open source ath10k driver, long life cycle, global certifications

ACM-DB-3 – View Datasheet
IEEE 802.11ac
2×2 MIMO streams, Dual Band, software select-able 2.400~2.482 GHz and 5.15~5.85 GHz ISM Frequency Bands

27 dBm Tx power, -97 dBm Rx sensitivity, Integrated LNA, high interference resistance, -40 to +85°C operating temp, Antenna port protection, MMCX/U.FL connectors, Hardware RF Kill for aviation, open source ath10k driver, long life cycle, global certifications

ACM-DB-2 – View Datasheet
IEEE 802.11n
3×3 MIMO streams, Dual Band, software select-able 2.400~2.482 GHz and 5.15~5.85 GHz ISM Frequency Bands

29 dBm Tx power, -100 dBm Rx sensitivity, Integrated LNA, high interference resistance, -40 to +85°C operating temp, Antenna port protection, MMCX/U.FL connectors, Hardware RF Kill for aviation, open source ath9k driver, long life cycle, global certifications

NM-DB-3 – View Datasheet
IEEE 802.11n
2×2 MIMO streams, Dual Band, software select-able 2.400~2.482 GHz and 5.15~5.85 GHz ISM Frequency Bands

27 dBm Tx power, -97 dBm Rx sensitivity, Integrated LNA, high interference resistance, -40 to +85°C operating temp, Antenna port protection, MMCX/U.FL connectors, Hardware RF Kill for aviation, open source ath9k driver, long life cycle, global certifications

NM-DB-2 – View Datasheet
IEEE 802.11n
2×2 MIMO streams with power booster, 5.15~5.85 GHz ISM Frequency Band

32 dBm Tx power, -97 dBm Rx sensitivity, Integrated LNA, high interference resistance, -40 to +85°C operating temp, Antenna port protection, MMCX connectors, Hardware RF Kill for aviation, open source ath9k driver, long life cycle

NM-5500-2J – View Datasheet

Application Notes

Optimizing the RF Link


Some useful tips and discussion on optimizing the RF links with the Smart Radio.

Concurrent HD Video Streaming and Low Latency C&C Tutorial

This application note is a tutorial on how to stream concurrent HD video and low latency C&C. The average latency is about 10ms.

URLLC (Ultra Reliable Low Latency + Video)

Play Video

Watch the demonstration of the concurrent transmission of the C&C Data and HD Video

Smart Radio Bench Testing

Play Video

This is a tutorial on how to get started with the bench testing of the Doodle Labs Smart Radio.

Smart Radio with LTE Failover

Smart Radio with LTE Failover is an optional add-on license to the Mesh Rider OS to create highly resilient private wireless networks. Under some circumstances it maybe useful to have an LTE link as a backup.

It is shown that the failover and recovery times between Mesh Rider network and LTE network can be as short as 1 seconds.

Mesh Rider Technology – Overview

Mesh Rider is a state-of-the-art broadband technology by Doodle Labs for Industrial-grade private wireless networks. It features COFDM/MIMO, high-throughput, long-range, mesh and frequency flexibility to operate in many industry specific bands.

Datasheets

Integration with the Nvidia Jetson Nano

This is a tutorial on how to get started with the Doodle Labs Smart Radio and the Nvidia Jetson Nano in a video streaming application.

Integration with Pixhawk and QGC

This application note provides easy steps to integrate the popular Pixhawk flight controller and the QGC ground controller.

Serial Interface Guide

 

This guide explains configuration of the Smart Radio Serial interface.

Remote Management Guide for Smart Radio

This guide shows multiple ways to remotely manage the Smart Radio.