Telecoms, Datacoms, Wireless, IoT


Connecting IoT devices to Azure using Cody

24 November 2021 Telecoms, Datacoms, Wireless, IoT

The ability to transmit data to the cloud securely is one of the core functions of any Internet of Things (IoT) product. While Tibbo has previously demonstrated how to communicate with Microsoft Azure in its journey of exploration for the WM2000EV, Cody now makes sending telemetry to Azure easier than ever.

Cody is a project setup wizard that generates project code. Configure your hardware and basic application settings and Cody generates code for your project based on best practices for the Tibbo platform. Thanks to built-in support for Azure, configuring a connection in Cody takes almost no time at all. Just enable the Azure service, enter your credential, and Cody generates the code to communicate with Azure's provisioning service. This code allows your device to connect to the cloud securely and saves hours of reading documentation and programming.

Through the use of AppBlocks, integrating Azure into an application is as simple as dropping a few code blocks onto the project canvas and drawing lines to interconnect them. With AppBlocks, you can create entire custom solutions with little to no coding.

To help you get started, Tibbo has created a short tutorial video showing how to connect a sensor to Azure in just minutes.


Credit(s)



Share this article:
Share via emailShare via LinkedInPrint this page

Further reading:

Antennas to meet all connectivity requirements
Electrocomp Telecoms, Datacoms, Wireless, IoT
Kyocera AVX RF antennas meet today’s connectivity demands in the LTE, Wi-Fi, Bluetooth, GNSS, and ISM wireless bands, available in surface mount, patch or external configurations.

Read more...
Introducing SIMCom’s new A7673X series
Otto Wireless Solutions Telecoms, Datacoms, Wireless, IoT
SIMCom recently released the A7673X series, a Cat 1 bis module that supports LTE-FDD, with a maximum downlink rate of 10 Mbps and an uplink rate of 5 Mbps.

Read more...
18 W monolithic microwave amplifier
RFiber Solutions Telecoms, Datacoms, Wireless, IoT
The CHA8612-QDB is a two stage, high-power amplifier operating between 7,9 and 11 GHz. The monolithic microwave amplifier can typically provide 18 W of saturated output power and 40% of power-added efficiency.

Read more...
LoRaWAN-certified sub-GHz module
Altron Arrow Telecoms, Datacoms, Wireless, IoT
The STM32WL5M from ST Microelectronics is the company’s first LoRaWAN-certified module which incorporates two cores, one of them being a wireless stack to optimise the creation of sub-GHz applications.

Read more...
3D depth sensing sensor
Avnet Silica Telecoms, Datacoms, Wireless, IoT
A recent announcement by STMicroelectronics has revealed an all-in-one, direct Time-of-Flight (dToF) 3D LiDAR (Light Detection And Ranging) module with 2,3k resolution.

Read more...
Nordic expands nRF91 series
RF Design DSP, Micros & Memory
Nordic Semiconductor has announced the expansion of its nRF91 series cellular IoT devices with the introduction of the nRF9151 System-in-Package (SiP).

Read more...
Quectel announces module for RedCap comms
Quectel Wireless Solutions Telecoms, Datacoms, Wireless, IoT
The Quectel RG255G offers downlink performance of 220 Mbps, and uplink performance of 121 Mbps on 256QAM or 91 Mbps on 64QAM.

Read more...
Wide-Bandgap Developer Forum
Infineon Technologies Telecoms, Datacoms, Wireless, IoT
This year marks a new chapter for this exclusive event series – all specialist presentations will be broadcasting live from a studio in Munich.

Read more...
Multimode smart LTE module with GNSS
Quectel Wireless Solutions Telecoms, Datacoms, Wireless, IoT
The AW200Z LTE module is equipped with Bluetooth and Wi-Fi functionalities, and is powered by Qualcomm's advanced 64-bit quad-core Cortex-A53 processors, coupled with an integrated Adreno 702 GPU.

Read more...
LEXI-R10 series cellular module
RF Design Telecoms, Datacoms, Wireless, IoT
The LEXI-R10 Series from u-blox are LTE Cat 1 bis modules that support multi-band LTE-FDD, and are designed for size-constrained devices.

Read more...