TWO WEEK LEAD TIME ON EX STOCK IOT GATEWAYS - Now Available
Core Design Features
CAN bus to MQTT Gateway
Cloud Monitor + Controls of CAN bus J1939/OBD2 equipment
INTEGRATED CLOUD CONNECTIVITY
Integrated with Azure IOT Hub/Central, AWS IOT Core & Sitewise, Ubidots & MQTT clients for flexible & seamless cloud connectivity.
CAN BUS TO MQTT CONVERTER
AND ROUTER
Custom time-stamped polling, aggregation & sending (JSON) from CAN Bus equipment (J1939 & OBD2 ISO15765-4) to your cloud end point.
Integrated Management Features
> Web configuration management
> Over the air firmware updating
OPTIONALS
4G/LTE CONNECTIVITY
TENSORFLOW ACCELERATOR
WIFI & BLE
HI GAIN ANTENNA
HI POWERED WIFI ADAPTER
MOUNTING OPTIONS
You can use the following settings to get you started.
NAME: newsite
SUBSCRIPTION: Free trial/Pay as you go
RESOURCEGRP: [select the name you created in step 4B from the drop down menu] in our example, the name was 'resourcegrp'
Create the new job.
5B. Create the Job Topology
We will designate the input and output for the job.
Click on the <Go To Resource> button.
Go to -> Inputs->add stream input -> IOT Hub
You can use the following settings
INPUT ALIAS: inputbi
IOT HUB: newsite [from the drop down menu]
SUBSCRIPTION: Pay as you go
Next on the <OUTPUTS> field, select > Add.
Choose PowerBI from the scroll down list & authorize it.
You can use the following settings to start off.
OUTPUT ALIAS: outputbi
DATASET NAME: newdataset
TABLE NAME: newtable
Click on SAVE.
Next select <EDIT QUERY> at the top right of Query field in the Job Topology table.
Replace [Input] and [Output]with the name of the input and the name of the output you created in the past few steps.
Then enter the following into the empty field given:
Under 'SELECT'
deviceId,RecOn as TIMESTAMP,[Key],
CAST (Val AS bigint) as VAL
Under 'INTO'
outputbi #The output alias you have created.
Under 'FROM'
inputbi #The input alias you have created.
Click <SAVE>. This should give you a set up similar to the following:
5C. Test your settings
Let's test is everything is going well so far and that the Stream Analytics has started receiving data for its job.
Go to your Stream Analytics Dashboard and click on the START THE JOB button.
If everything is set up well you should see a RUNNING status notification.
Congratulations! You are a successful device to cloud solution. Next is decide on how to ingest and make economic benefit from all that data.
If however, the above fails please check the following possibilities.
-
Ensure FATBOX G3 is connected to the internet – it’s obvious but you never know.
-
Make sure /user/iotasset.txt is correctly configure and data is being correctly polled from slave devices and sent to /tmp/dataq.txt buffer file
-
Make sure that IoT device connection string is correct in /user/connstr.txt
Please contact Amplified Engineering at support@amplified.com.au for further assistance.
THE FATBOX G3 Series
An industrial Modbus | CAN Bus | RS485 | Ethernet Edge IoT Gateway
MODBUS | CANBUS | DLMS | RS485 | ETHERNET | IO | GPS | WIFI | 4G/LTE | 3G | NBIOT | MQTT | AZURE | AWS | UBIDOTS | EMBEDDED | EDGE
We can help maintain your schedules on track
The FATBOX G3 is a highly custom edge IoT Gateway solution for Modbus & CAN Bus applications. With our ability to help integration & to deliver fast on ex-stock item we could be the solution to help you keep your projects on schedule.
FATBOX G3 Series
FREE SHIPPING
base model price (before qty discounts):
AUD 300 | USD 240
BUY NOW
SPEAK TO US
01
AGGREGATE CAN & OTHER DATA TO SQL
The nodeG5 allows you to set a custom polling cycle or use REST API to pull your CAN bus data. The gateway also enables you to aggregate GPS positioning as well as data from other types of industrial protocols such as Modbus, RS485 & BLE equipment or sensors.