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
This code sets up an Arduino device to connect to WiFi and communicate with the OpenAI API. It uses the Adafruit_SSD1306 library to control a small OLED display, displaying messages and responses from the API. The device sends a prompt to the API asking "What is Arduino?" and waits for a response, which it then displays on the OLED screen. This is done using a secure SSL connection, and the API key is stored as a variable in the code. Overall, this code demonstrates how an Arduino device can be used to interact with web services and display data on a small screen.
While it’s yet to make its premiere, Matt Denton has already built the D-O droid from Star Wars: The Rise of Skywalker using a MKR WiFi 1010 for control, along with a MKR IMU Shield and a MKR Motor Carrier. The droid scoots around on what appears to be one large wheel, which conceals the Arduino boards as well as other electronics, batteries, and mechanical components. Denton’s wheel design is a bit more complicated mechanically than it first appears, as its split into a center section, with thin drive wheels on the side that enable differential steering. On top, a cone-shaped head provides sounds and movement, giving the little RC D-O a ton of personality. The droid isn’t quite finished as of the video below, but given how well it works there, the end product should be amazing!