J-Link EDU Mini classroom package
Sold outSEGGER J-Link EDU Mini is a version of the SEGGER J-Link EDU debugger in a reduced form factor with identical functionality.
It has been designed to allow students and educational facilities as well as hobbyists access to top of the line debug probe technology.
Overview
Get the J-Link EDU Mini, offering the same functionality as the J-Link EDU but in a reduced form factor.
The J-Link EDU Mini Classroom Edition includes twelve J-Link EDU Mini units on special offer. Designed for education purposes and hobbyists, it provides access to top-of-the-line debug probe functionality. With a tiny form factor (18mm by 50mm, similar to a USB stick), users can enjoy full functionality.
It is JTAG and SWD supported and can only be used for non-commercial education purposes.
Other Details:
Various cores are supported by the J-Link EDU Mini. Find a complete list of supported cores here. J-Link also allows applications to access a CPU simultaneously, such as being used in parallel as a debugger. Like all SEGGER products, it is cross platform working on Windows, Linux and macOS.
Box Contents:
- 12 units of J-Link EDU mini
- 12 .05" 19-pin target cable
- 12 .05" 9-pin target cable
- 12 Micro USB cable
SEGGER J-Link debuggers are the most popular choice for optimizing the debugging and flash programming experience.
Documentation
Debugging with the Arduino IDE 2.0
Learn how to set up a Zero board, J-Link and Atmel-ICE debuggers with the Arduino IDE 2.0, and how to debug a program.
Using the Segger J-Link debugger with the MKR boards
Learn how to set up a MKR board with the Segger J-link debugger.
Get Inspired
An IoT Moisture sensor that sends moisture data from an Arduino Nano 33 IoT to the Arduino IoT Cloud
As climate change continues to worsen, events such as heavy rains, hurricanes, and atmospheric rivers have only intensified, and with them, large amounts of flooding that pose serious risks to life and property. Jude Pullen and Pete Milne, therefore, have responded by creating a "physical app" that can show the potential for flood dangers in real-time with sound, lights, and an ePaper display. The Arduino Nano 33 IoT powering the Flood Alert device sources its data from the UK Environmental Agency’s API to get statistics on an area’s latest risk level along with an extended description of what to expect. Initially, the electronics were mounted to a breadboard and housed within a cardboard enclosure, but a later revision moved everything to soldered protoboard, a 3D-printed case, and even added a piezoelectric buzzer to generate audible alerts. For now, the Flood Alert’s sole source of data is the aforementioned API, but Pullen hopes to expand his potential data sources to include “hyper-local” sensors that can all be aggregated and analyzed to give a much more precise view of flooding in a smaller area. To learn more about Flood Alert and its myriad applications to local communities and beyond, check out the original long read article’ is available at DesignSpark.
