J-Link PLUS Compact
Sold outUSB powered JTAG debug probe supporting a large number of CPU cores.
Based on a 32-bit RISC CPU, it can communicate at high speed with the supported target CPUs.
SEGGER J-Link PLUS Compact is used around the world in tens of thousand places for development and production (flash programming) purposes.
Overview
Get the SEGGER J-Link PLUS Compact debug probe: a compact version of the J-Link PLUS. Mounts securely & unobtrusively into development and end user equipment.
Based on 32-bit RISC CPU, it communicates at high speed with supported target CPUs.
Thanks to a small size with two mounting holes, it can be placed into existing equipment housings.
Space can also be reserved for direct-to-PCB mounting.
All major IDEs (Eclipse & GDB-based IDEs) support J-Link debug probes, as does SEGGER Embedded Studio. 500,000 J-Links have been shipped so far, making this probably the most popular debug probe on the market for Arm cores and the de-facto standard.
Further Advantages
The SEGGER J-Link PLUS Compact has a built-in VCOM functionality and integrated licenses for unlimited breakpoints in flash memory, RDI/RDDI and J-Flash. It supports direct download into RAM and flash memory. It has a broad range of supported microcontrollers and CPUs.
Box Contents
- SEGGER J-Link PLUS Compact debug probe
- Micro USB cable
- 1" 20-pin ribbon cable (18 cm)
- Includes free software updates and one year of email support.
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
… storage save us? The smart storage solution Khairul decided to fix the problem by building his very own smart pantry, designed to keep track of ingredients and make sure nothing ever runs out. The project works by monitoring every item in the pantry, and if something is running low, it automatically orders a replacement using Amazon DRS. This project is a great way to remove human error from the process of keeping our cupboards stocked. The best part is it’s easy to do yourself at home with just a few simple components and tools. Check out the full project and instructions here. Smart wardrobe An overflowing wardrobe is a good thing — it allows you to mix up your outfits and dress well whatever the occasion. However, packed wardrobes can also be tricky to manage, and it’s easy to lose track of clothes or end up filling space with items we no longer wear. Arduino user Tan See Youu decided to fix this problem by building his own smart wardrobe. The challenge People today own more clothes than ever before. However, you probably won’t wear all of them. Over time, certain outfits tend to get forgotten and fall back into the murky depths of the wardrobe, never to see the light of day again. In areas with high humidity and warm climates like Singapore, clothes that are left for a long time in the wardrobe can even become moldy. The smart storage solution Tan See Youu’s smart wardrobe helps you manage your clothes and keep track of where everything is, displaying this information on a smart screen. The wardrobe can also push this data into the cloud and share it with your phone via a mobile application. The app can even provide suggestions on what to wear today based on the events in your calendar and the current weather forecast, and it comes with a dashboard showing which clothes you wear most frequently and which outfits you have neglected. If you haven’t worn a certain item in a while, the app can offer suggestions for
