The LIBRARY basement part 12

From your linked STM article:

The integrated radio based on Semtech SX126x IP is engineered with dual high-power and low-power transmitter modes that cover the entire global sub-1GHz unlicensed frequency range from 150MHz to 960MHz, ensuring compatibility with LoRa networks in all territories

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:+1: good spot…

https://lacuna.space/world-premier-first-plant-powered-iot-sensor-sends-signal-to-space/

Look for the demo at upcoming Things Conference, Amsterdam :wink:

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Good visualisation of a decade of growth for the top tech co’s.

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Source: https://www.electronicsweekly.com/blogs/mannerisms/markets/how-gafam-grew-2020-01/

Seeeduino XIAO, a cute looking tiny SAMD21 development board.

Key Features

  • Powerful CPU: ARM® Cortex®-M0+ 32bit 48MHz microcontroller(SAMD21G18) with 256KB Flash, 32KB SRAM
  • Flexible compatibility: Compatible with Arduino IDE
  • Easy project operation: Breadboard-friendly
  • Small size: As small as a thumb(20x17.5mm) for wearable devices and small projects.
  • Multiple development interfaces: 11 digital/analog pins, 10 PWM Pins, 1 DAC output, 1 SWD Bonding pad interface, 1 I2C interface, 1 UART interface, 1 SPI interface.

Euridis Association (Euridis), an international nonprofit industry association promoting the development of standard protocols, such as device language message specification (DLMS) over low power wide area networks (LPWAN) for the utility industry

Seeeduino XIAO - Arduino Microcontroller - SAMD21 Cortex M0+

It is interested but unfortunately the choice of pads they chose to expose prevents access to half of the SERCOM ports. The SERCOM remapping capability of the SAMD21 is one of its most powerful features of this processor but of little value with this module.

If you know a budding next gen techie or potential engineer… :wink: Or even if you fancy treating yourself! :slight_smile:

Latest Semtech LoRa product release. - LLCC68

Looking at target markets (in home/local neighbourhood) and reduced sensitivity c/w prior products suggests it may not support the higher SF’s (and may hence be smaller & cheaper due to reduced codec/memory demands?)…need to go check the datasheets! :wink:

Updated: As expected and as called out here [https://www.semtech.com/products/wireless-rf/lora-transceivers/llcc68] - reduced LoRaWAN SF support

  • Data rates for LoRaWAN include SF7 to SF9 at 125kHz, SF7 to SF10 at 250kHz, and SF7 to SF11 at 500kHz."

Updated to add link to Datasheet:
https://semtech.my.salesforce.com/sfc/p/#E0000000JelG/a/2R000000HTJR/Tem0gUxGfOZ2Qn3bUzmV2zKNQRYJ3bpobPfOQ7B.erE

Amazon Sidewalk (& LoRa if not LoRaWAN!) pieces falling into place?

Smart Grid/Substation monitoring:

HackSpace Mag #27 covering LoRa implementation with PiSupply Gateway Hat & microbit:LoRa extender pages 92-95

Dont forget to subscribe & support! :wink:

Simple tool foor creating and managing settings files:
http://www.software-algorithms.com/ConfigEditor/help/ConfigEditor.html

afbeelding

With thanks to my students for pointing me at it. :man_student:

Interesting to see where the Cloud computing money goes…AWS = next 3 rivals. 2019 market 2x 2017 value… >$100Bn for 2020?
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TTN runs on AWS…

Latest L-A Regional Parameters - cleared just before TTC2020 Amsterdam and triggered several supplier discussions wrt some of the new countries covered by e.g. amended AS923 sub plans

Overview:

RP2-1.0.1 LoRaWAN® Regional Parameters

File description(s)

RP002-1.0.1 has been released and includes two significant changes. First, the channel plan for AS923 has been augmented to support a large number of additional countries which support the characteristics of the band albeit in slightly different frequency ranges. The base plan remains unchanged, but we have added the ability to define a frequency offset which shifts the entire plan in frequency to accommodate these new regions. AS923-1 represents the original AS923 plan; AS923-2 shifts the plan down 1.8MHz to support Indonesia and Viet Nam ; AS923-3 shifts the plan down 6.6MHz to support Philippines , Cuba as well as many European and EU-style regulatory domain countries. Secondly, CN470-510 was updated in light of coming regulation changes impacting this band. Specifically a dwell time limit was introduced and channel bandwidth restrictions were relaxed.

Download: https://lora-alliance.org/sites/default/files/2020-02/rp_2-1.0.1.pdf

https://lora-alliance.org/resource-hub/rp2-101-lorawanr-regional-parameters

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1st device in the new Semtech LoRa Edge Family announced - the LR1110 - combining LoRa TXR, WiFi sniffing and GloNaSS capability for GPS location + Crypto Engine. Targets Asset Management Apps.

Key Product Features:

Multi-Purpose Radio Front-End

150 - 2700 MHz continuous frequency synthesizer range
GPS/BeiDou scanning
Wi-Fi passive scanning

Low-Power LoRa/(G)FSK RF Transceiver

Worldwide frequency bands support in the range 150 – 960 MHz
High power PA path +22 dBm
High efficiency PA path +15 dBm
Fully compatible with the LoRaWAN® standard

Cryptographic Engine

Hardware support for AES-128 encryption/decryption based algorithms
Handling device parameters such as DevEUI and JoinEUI
Protects confidential information such as encryption keys
Stores NwkKey, AppKey, as defined in the LoRaWAN standard

Target Applications include:

Asset location
Asset recovery
Asset traceability
Inventory management
Asset loss and theft prevention

Housed in a 5mmx5mm package

Details here: https://www.semtech.com/products/wireless-rf/lora-transceivers/LR1110

In 2020 Espressif will launch 4 new chips

Espressif, the company known for ESP32 and ESP8266, announced that it will launch 4 new chips this year.

From Espressif CEO Letter 2020:

In 2020, we will be launching 4 new chips, covering different segments of the market, price points and performance. Our latest chips feature our new radio architecture that has lower power consumption while maintaining the same -40°C~125°C performance. The peripherals have been upgraded with highly sensitive capacitive touch IO’s. Capacitive touch controls are now a staple of user interfaces because they are cost efficient; certain functions such as slider controls are better supported with capacitive touch than with analog implementations.

~1 Million miles? Now how resilient is your node/GW software update/remote maintenance regime again?
:rofl: