Faulty Cat is a low-cost Electromagnetic Fault Injection (EMFI) tool, designed specifically for self-study and hobbiest research.
Also available at distributors:
Faulty Cat is a high-end Electromagnetic Fault Injection (EMFI) tool a remix of the project ChipSHOUTER PicoEMP design optimization focused in rough order on (1) safe operation, (2) high performance, (3) usability, and finally (4) cost. This results in a tool that covers many use-cases, but may be overkill (and expensive) for many.
We have created this project in KiCad and looking for alternatives to some components, we have left aside the Raspberry Pico board to use the RP2040 directly in the design. Tested in our laboratory before going on sale, even so, it is a product that must be handled with care, read the instructions for use.
Please only use Faulty Cat when you have purchased it from us and control it yourself, with full knowledge of the operation and risks. It is not designed for use in professional or educational environments, where tools are expected to meet safety certifications.
IMPORTANT: The plastic shield is critical for safe operation. While the output itself is isolated from the input connections, you will still easily shock yourself on the exposed high-voltage capacitor and circuitry. NEVER operate the device without the shield.
As an open-source project and as a remix of the project ChipSHOUTER PicoEMP, it also collects inputs from various community members, and welcomes your contributions! It also has various remixes of it, including:
Faulty Cat based in PicoEMP is a community-focused project, with major contributions from:
- Colin O'Flynn (original HW design, simple Python demo)
- stacksmashing (C firmware for full PIO feature set)
- Lennert Wouters (C improvements, first real demo)
- @nilswiersma (Triggering/C improvements)
Follow the first steps section of the Faulty Cat wiki in order to program it. You can run other tasks on the microcontroller as well.
If you don't know where to start with Electromagnetic Fault Injection (EMFI), you may find a couple of chapters of the Hardware Hacking Handbook useful.
You can see a demo of PicoEMP being used on a real attack in this TI CC SimpleLink attack demo.
WARNING: The high voltage will be applied across the SMA connector. If an injection tip (coil) is present, it will absorb most of the power. If you leave the SMA connector open, you will present a high voltage pulse across this SMA and could shock yourself. Do NOT touch the output SMA tip as a general "best practice", and treat the output as if it has a high voltage present.
Contributions are welcome!
Please read the document Contribution Manual which will show you how to contribute your changes to the project.
✨ Thanks to all our contributors! ✨
See Electronic Cats CLA for more information.
See the community code of conduct for a vision of the community we want to build and what we expect from it.
This project FaultyCat is adapted from ChipSHOUTER PicoEMP by Colin O'Flynn is licensed under CC BY-SA 3.0, "FaultyCat" contains modifications such as: porting the project to Kicad, modifying BOM and dimensions is licensed under CC BY-SA 3.0 by ElectronicCats.
Electronic Cats invests time and resources in providing this open-source design. Please support Electronic Cats and open-source hardware by purchasing products from Electronic Cats!