Cicerone board
Move-X Cicerone board is a high-performance, low-power, Arduino MKR compatible DVK board based on Move-X MAMWLE LoRa module and u-blox MAX-M10S GNSS module. This combination allows best-in-class GNSS, long-range wireless connections and high-performance MCU processing in a low-power solution for extreme battery life.
Overview
Cicerone allows to build tracking applications around the world with meter-level accuracy and to communicate long-range, low-power data via LoRaWAN.
The integrated Li-Po charging circuit enables the board to manage battery charging through the USB port.
It is based on u-blox MAXM10S GNSS and Move-X MAMWLE modules. This combination allows for best-in-class synergy between GNSS technology and long-range wireless connectivity for power-constrained applications.
Applications
• Asset tracking
• Supply chain and logistics management
• Smart agriculture
• Smart cities
• Environment monitoring
• Infrastructure monitoring
For makers and engineers
• Quickly build complex IoT solutions in a small form factor thanks to the compatibility with Arduino IDE
• Expand the hardware with MKR shields
Documentation
Get Inspired
Control the speed of a 12 volt computer fan using a PWM duty cycle
The future envisioned in the original Star Trek included, among other things, a shipboard sickbay with electronic monitors strangely reminiscent of the machines that medical personnel use today. To recreate a functional mini-replica of these displays, YouTuber Xtronical turned to a 2.8” TFT screen, a breadboard, and an Arduino Nano—noting that an Uno would also work. The LCD display nails the look of Dr. McCoy's device, and heartbeat sound can be played along with an onscreen flashing “PULSE” circle. A MAX30100 pulse/oximeter sensor and a temperature sensor take body readings, while a second DS18B20 is implemented to read ambient conditions for increased accuracy. It’s a fun Trekkie project, and Xtronical plans to elaborate on how it was made in future videos. A build of a working original Star Trek display with real sampled heart beat sound. Uses various sensors to get the readings from your body (via just your fingers) and displays them in the style of the 60's sick bay screen. This bare "Bones" system could be built into a model unit or even a replica Tricorder.
