Difference between revisions of "NANO Helix RTK"

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=== Overview ===
=== Overview ===
__NOTOC__
__NOTOC__
[[File:NANO-RCV-02-01-main-500x.png|frameless|500px|NANO Helix RTK Receiver]]
[[File:NANO-RCV-02-01-main-500x.png|frameless|400px|NANO Helix RTK Receiver]]


=== Key Features ===
=== Key Features ===
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NANO base and Rover(aircraft) family
NANO base and Rover(aircraft) family


[[File:nano-rtk-uav-total.png|400px|frameless]]
[[File:nano-rtk-uav-total.png|500px|frameless]]
 
(above: for ground base, bottom: rover receiver)


=== Base station setup ===
=== Base station setup ===
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We suggest using the NANO RTK Receiver as the configuration for the base station(ground base station), which is more convenient and user-friendly.
We suggest using the NANO RTK Receiver as the configuration for the base station(ground base station), which is more convenient and user-friendly.


[[File:nano-rtk-rcv-helix.png|400px|frameless]]
[[File:nano-gcs-helix.png|400px|frameless]]
 
[[File:nano-rtk-rcv-patchAnt.png|400px|frameless]]


Connect the NANO RTK Receiver to your Laptop via USB.
Connect the NANO RTK Receiver to your Laptop via USB.

Latest revision as of 16:54, 24 October 2024

Overview

NANO Helix RTK Receiver

Key Features

  • Full constellation, multi-frequency GNSS satellite receiver
  • Support RTK
  • Standard UART serial interface
  • 26g
  • High performance antenna


Specifications

Frequencies

  • GPS/QZSS: L1 C/A, L5C
  • GLONASS: L1OF
  • BEIDOU: B1I, B2a
  • GALILEO: E1, E5a

GNSS

  • Allystar CYNOSURE IV GNSS SOC
  • Dual core
  • 3D accuracy: 1.5m CEP
  • RTK accuracy: 1cm +1PPM(H), 3cm+1PPM(V)

Interface

  • UART, 230400bps default
  • SMA connector for antenna
  • Output rate 5Hz default
  • Main power supply,4.7~5.2V

Protocol

  • NMEA-0183 output
  • RTCMv3 input/output

Environment

  • Operating temp. -20~85℃

Dimession and weight

  • 55*55*12mm
  • 50g (GEM1305) 26g (NANO with Helix)


Pin Map

The board is connected to the autopilot via UART interface.

NANO 6P connector

Please note that the board only includes RTK and doesn't inlcude compass.


ArduPilot Setup

For example,NANO is connected to the autopilot's SERIAL4 port, it should work with :

[SERIAL4_PROTOCOL] = 5


Configuration

RTK technology requires a base and a rover, with the base placed on the ground, which is referred to as the rover on the drone.

The data from the base needs to be transmitted to the drone via telemetry radio and inputted into the RTK receiver on the rover.

Setup-rtk-00.png

NANO base and Rover(aircraft) family

Nano-rtk-uav-total.png

(above: for ground base, bottom: rover receiver)

Base station setup

We suggest using the NANO RTK Receiver as the configuration for the base station(ground base station), which is more convenient and user-friendly.

Nano-gcs-helix.png

Connect the NANO RTK Receiver to your Laptop via USB.

Setup the NANO RTK Receiver as a base station, and it is recommended to use Satrack software.

1. Open Satrack, then choose the com port, baud rate then connect the nano-rtk-rcv.

Satrack-connect-device.png

2. Enable RTCMv3 output

Satrack-rtcm-output.png

3. Disable NMEA data output

Satrack-disable-nmea.png

4. Config output rate to 1Hz

In base station mode, the RTCM data output rate must be set to 1Hz.

Atrack-outputrate-1hz.png

5. Config the base station fixed coordinates

There are two methods to set the coordinates of the base station:

5.1 According to the diagram below, Input the known coordinates.

Press "Get now", and modify the coordinates to the known values, then "send" to apply the fixed coordinates.

Satrack-cfg-fixedecef.png


5.2 According to the CFG-SURVEY method, config miniDuration and AccLimit, then automatically calculate the average before proceeding with the setup.

Satrack-cfg-survey.png

After completing the above operation, you can save the current configuration with CFG-SAVE.

6. After above configuration, open Mission Planner

Mp-connect-base.png

7. Finish other configuration in Mission Planner

Rover station (Aircraft) setup

For drones, NANO RTK Receiver can be chosen as the Rover for RTK.

  • Please note that NANO RTK Receiver supports Ardupilot starting from V3.0.

You need to confirm in the Satrack software that all RTCM data outputs are disabled and all NMEA outputs are enabled.

In Rover mode, the output rate must be set to 5Hz.

Note: NANO RTK Receiver do not support safety switch, so BRD_SAFETY_DEFLT needs to be set to 0 or a separate safety switch should be connected to the flight controller.

After completing the above settings, you can write parameters to the flight controller.

Package List

  • NANO Helix RTK Receiver
  • USB Type C
  • DG-6P-C01,GH-1.25mm-6P cable