Nano Screw Terminal Adapter
A robust and solderless solution for your next project. Perfect for long standing installations using any Arduino Nano board.
Overview
Build robust projects with secure and long lasting connection without the need of any soldering combining the Nano Screw Terminal Adapter and any of the boards from the Arduino Nano family.
Perfect for your next IoT project
Build Arduino Nano board based projects with secure connections using screw terminals and in case you need to add some extra components, you can use the prototyping area.
Tech specs
| Board |
Nano Screw Terminal Adapter |
| Connectors |
|
| Prototyping Area |
9x8 grid (2.54 mm pitch) |
| Dimensions |
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Conformities
Resources for Safety and Products
Manufacturer Information
The production information includes the address and related details of the product manufacturer.
Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
https://www.arduino.cc/
Responsible Person in the EU
An EU-based economic operator who ensures the product's compliance with the required regulations.
Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
Phone: +39 0113157477
Email: support@arduino.cc
Documentation
Learn more
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With the Earth’s population still on track to increase by another two billion people by the year 2050, finding ways to feed them without causing grave harm to the environment is a top priority. Currently, fish is one of the most widely consumed foods in the world, and a new technology called biofloc helps provide both a food source and environmental stabilizer to fishponds without the need for dangerous chemicals/processes. As part of element14’s Just Encase Design Challenge, Md. Khairul Taifur had the idea to create a device that could sit within a pond and report detailed telemetry for environmental markers, as well as correct minor water quality issues via the use of a heater and water pump. His system is based around a MKR WAN 1300, which is responsible for collecting data from each sensor and then sending it to the cloud with its onboard LoRaWAN module. To make the system independent from an external power source, Taifur included a small 5V solar panel, power management board, and rechargeable battery pack. Once his firmware had been finalized, everything was carefully placed inside of a waterproof electrical box and sealed to only expose the sensors. This biofloc monitoring system has great potential as a proof-of-concept of how future fish farms might operate in a more sustainable manner. You can read more about the project here on element14.
