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Current Product Don't Have Test Firmware

Note: pls, use PC chrome/edge browser, if can't connect, refresh the webpage.

1. Click connect button

2. After connected successfully, pick a firmware

3. Click the burn button

4. After burning successfully, Unplug the device and restart.

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ATOM DTU LoRaWAN868

SKU:K063

This tutorial will show you how to create applications and node devices in TTN and implement data sending and receiving from the device to the cloud

Description

ATOM DTU LoRaWAN868 is a LoRaWAN Programmable Data Transmission Unit (DTU) suitable for 868MHz frequency. The module adopts the ASR6501 scheme, which supports long-distance communication and has both ultra-low power consumption and high sensitivity. The module integrates the LoRaWAN protocol stack and adopts a serial communication interface (using AT command set for control). When used, it can be used as a collection node to access a large number of gateways for data collection and management. Integrate SMA external antenna interface to improve the communication quality and signal stability of the device. Unlike the DTU which generally only has the function of data transparent transmission, the ATOM DTU series adopts a more open architecture design. The controller ATOM LITE can modify the program at will according to the actual business. The whole machine reserves a variety of interfaces (RS485, I2C, custom interface) for user expansion, which is convenient for the rapid access of sensors and actuators. With its own guide rail clamping structure, it is perfectly embedded in various industrial control sites. A cost-effective solution for small data collection nodes.

Product Features

  • ASR6501
  • Operating frequency: 868MHz
  • Serial communication: UART 115200bps (AT command)
  • With super anti-interference ability, able to work normally in complex interference environment
  • RS485 communication interface (with 12V input interface, internal integrated DCDC step-down 5V)
  • Modbus Master/slave
  • Strong signal access capability
  • External antenna: SMA antenna interface
  • Grove expansion interface: -I2C x1 -Custom x1
  • Self-contained rail clamping

Includes

  • 1x ATOM LITE
  • 1x ATOM DTU LoRaWAN868
  • 1x SMA antenna
  • 1x SMA red cap
  • 1x M2 hexagon wrench
  • 1x M2x16 screw
  • 1x 3.96-4P terminal

Application

  • Automatic remote meter reading
  • Intelligent traffic intelligent parking lot
  • Remote irrigation and environmental monitoring

Specifications

Resources Parameter
Communication chip ASR6501
Operating frequency 868MHz
LoRaWAN Version v1.0.1
Minimum receiving sensitivity -137dBm (SF=12/BW=125KHz)
Maximum transmit power +21dBm
communication UART 115200bps
Net weight 32g
Gross weight 40g
Product Size 64 * 24 * 29mm
Package Size 91 * 42 * 24.5mm

868MHz supported countries

Albania/Andorra/Armenia/Austria/Bahrain/Bangladesh/Belarus/Belgium/Myanmar/Bosnia and Herzegovina/Brunei Darussalam/Bulgaria/Cambodia/Cambodia/Croatia/Cyprus/Denmark/Egypt/Estonia/ Finland/France/Germany/Germany Guatemala/Hungary/Iceland/Iran/Ireland/Italy/Laos/Latvia/Lebanon/Liechtenstein/Lithuania/Luxembourg/Macedonia, the former Federal Republic of Yugoslavia/Malta/Moldova/Montenegro/Morocco/Netherlands/Netherlands/New Zealand/Nigeria/Norway/Oman/Pakistan/Poland/Portugal/Qatar/Romania/Saudi Arabia/Serbia/Singapore/Slovenia/South Africa/Spain/Sweden/Switzerland/Tunisia/Turkey/Ukraine/UAE/UK/Vietnam

Pin mapping

  • LoRaWAN868
ATOM G22(TX) G19(RX) 5V GND
LoRaWAN868 RX TX VIN GND
  • RS485
ATOM G23 G33 5V GND
RS485 TX RX VIN GND
  • I2C
ATOM G25 G21 5V GND
I2C SDA SCL VIN GND

Schematic

Example

Arduino

UIFlow

Before using UIFlow programming, you need to burn the UIFlow firmware for the ATOM master, click here to view the quick start tutorial .

Feature Introduction

Init LoRaWAN 868 DTU Initialize the module

Config ABP mode device address app session key network session ket Configure ABP mode to access the network

Get ABP config Get network access information in ABP mode

Config OTAA mode device eui app eui app key Configure OTAA mode to access the network

Get OTAA config Get network access information in OTAA mode

Set frequency band mask channels Set the frequency band mask channel

Config RX window param RX1 offset RX2 datarate BW125 RX2 freq(Hz) Set the RX window parameters

Set class mode Set the class mode

Set uplink downlink mode Set up and down link mode

Check join status Check the status of joining the network

Set join mode Set the mode of access to the network

Join LoRaWAN network join auto join period (seconds) maximum number of attempts Set the information of device access to the network

Set uplink app port (1 ~ 233) Set the uplink application port (1 ~ 233)

Send data payload Send data payload to the server

Check uplink data status Check the status of uplink data

Check and receive downlink data Check and receive downlink data

RS485 write a line Write a line of data

RS485 write Data input

RS485 write raw data create list with Write raw data in list form

RS485 read all Read all data of RS485

RS485 read characters Read the number of characters of RS485

RS485 read line Read the data of a line of RS485

Remain cache Remian cache of RS485

Read coils slave address starting address coil qty Read the data of the coils

Read discrete inputs slave address starting address input qty Read the data of the discrete inputs

Read holding registers slave address starting address register qty signed Read the data of the holding registers

Read input registers slave address starting address register qty signed Read the data of the input registers

Write single coil slave address output address output value Write data to a single coil

Write single register slave address register address register value signed Write data to a single register

Write multiple coils slave address starting address output value Write data to multiple coils

Write multiple register slave address starting address register value signed Write datat to multiple register

Usage

Use OTAA to access the network and send messages continuously. Click here to download the case program M5F file

FAQ

Q1: How do I remove the speaker floor noise when the M5Core is on or running?

Execute the following statement in Setup() of the Arduino program

Q2: How does M5Core2 stack modules?

When M5Core2 is stacked with other M5 modules, you need to remove the battery base of Core2, which does not support module stacking.

Q3: A timeout error is displayed when uploading the program to the device

Reason and solution: The power supply current of the port is insufficient, which can cause the device to not enter the download mode normally. You can try to connect a capacitor (>0.1uF) between the RST pin and the GND pin, or when uploading the program, set the G0 Short-circuit to GND, so that G0 can be set to a low level state normally

Q4: How to solve the phenomenon of automatic signal triggering of M5Core button A

Add the header file #include <driver/adc.h> and the function adc_power_acquire(); in the Arduino program

Q5: M5 device battery life

The battery life of the controller is affected by various factors such as battery capacity, operating status, and load, so there is no fixed value. Reducing the load and adopting a sleep strategy can effectively increase the battery life.

Q6: Can multiple modules with batteries be stacked at the same time?

Support multiple stacks, the total capacity of the batteries in parallel increases, and the voltage remains unchanged. However, since the discharge of each battery is not balanced during use, there is a voltage difference between the batteries, which may cause the battery to charge backwards. .(will lose part of the battery capacity)

Q7: M5 master supports WiFi connection to 5G frequency band

ESP32 module currently does not support WiFi in 5G band, only 2.4G.

Q8: The RS485 device cannot communicate normally/data is garbled. Packet loss, etc.

Confirm whether the TX/RX pin on the TTL side of the pin is correct, try to add two 120Ω terminal resistors at the beginning and end of the device line to reduce signal reflection interference

Q9: The difference between different masters and camera products

Click the link below to view the product comparison table

Q10: M5 camera image blur, how to adjust the focal length

Rotate the lens to adjust the focal length within a certain range

Q1: How to read the programmed firmware?

Use esptool to read the flash content of esp32 and export the bin file. Refer to the detailed operation

Q2: Several solutions for esp32 board download failure in Arduino IDE board management

Restart the Arduino IDE, the computer uses the mobile AP mobile network to download.

Method 3: Download the resource package provided by M5Stack for direct installation, and extract the contents to the board management path of Arduino, such as (C:\Users\Sean\AppData\Local\Arduino15\packages), https://m5stack.oss-cn-shenzhen.aliyuncs.com/resource/arduino/packages/m5stack_v2.0.0.zip
Q3: Arduino SPIFFS file upload operation

Refer to the Github link below, use arduino-esp32fs-plugin for file upload

Q4: When M5Burner burns firmware, an error pop-up window or exception occurs

Check if the COM of the corresponding device is selected and if the M5Burner is the latest version

Q5: Does the M5 master device support multi-language display (Chinese, English, Japanese, Russian, etc.)?

UIFlow users can switch the Label font to Unicode, Arduino users can use the Chinese font library provided in the M5GFX driver library

Q6: The program cannot load the SD card normally

Confirm whether the SD card format is FAT32, and no partitions exist.

Q7: How to use Bluetooth, HTTP, SD, WebServer, FreeRTOS and other features in Arduino IDE

You can refer to the following link for other ESP32 users to share the case program

Q8: How to download programs for STAMP C3U

STAMP C3U enters program download mode operation: 1. Long press the center button (G9) of STAMP C3U when the power is off. 2. Connect to the computer, after the port is successfully identified, program burning.

Q9: How STAMP C3U defines UART0 output mode

By default, USB CDC is not enabled, the serial port output started by C3U will be output through the default pins (G20, G21) of UART0. If you want to output through USB, please use the IDE to output Its USB CDC option is enabled. (Arduino users can enable it through Tools->USB CDC on Boot-Enabled. For IDF users, please refer to the ESP IDF official documentation.)

Q10: Unable to connect to UIFlow Desktop IDE

Refer to the UIFlow documentation of the corresponding device to check whether the device has entered the USB programming mode.

COMMON

Q1: Consultation for after-sales problems of products

Describe the problems encountered in detail. Screenshots of the programs involved or files can be added as attachments and sent to M5Stack's official after-sales email

Q2: Code Resources, Cases, User Communication