This mode supports DTR/RTS pins as well, so you can flash devices like ESP8266/ESP32, which require flow control signals in addition to the RX/TX data lines. You won't need a USB-UART adapter anymore if you have a Flipper. Right now we implemented the UART as the most popular protocol, the de-facto standard for debug ports and hardware consoles. Thanks to Flipper's GPIO you can use it as a universal USB bridge for a variety of industrial protocols. We plan to have a couple of demo scripts bundled with the firmware with safe actions such as opening the notepad and the calculator for all operating systems. Right now our BadUSB is still a prototype with no GUI, but it'll be finished soon. Flipper mimics a keyboard and inputs a sequence of symbols The scripting language for BadUSB is compatible with Rubber Ducky Language, so you can reuse the scripts that are already available for USB Rubber Ducky and other such devices. The BadUSB is working! We've spent a lot of effort on the USB HID mode and on switching it back to normal mode afterward. Let's not forget that Flipper's radio is not an SDR, so in order for the "Read RAW" feature to record the signal correctly, you need to know the exact frequency and modulation beforehand. The lock icon shows if the protocol is encrypted or not. You can easily find out the protocol for a particular keyfob and have the decoded signal displayed immediately. And right now the signal interception feature has become really powerful. The main subjective of our Sub-GHz subsystem is to analyze the signals it captured. Most often it's one of the channels from a popular 315/433/868 MHz band. The results displayed may be inaccurate and there is always a certain margin of error, but it will be able to tell you the frequency range you need. Of course, this feature can't replace a full-fledged frequency analyzer.
It scans all available frequencies and displays the one that has the strongest signal nearby. But what if you don't know the frequency that the keyfob is working on? To help you with that, we have the frequency analyzer feature added to Flipper. In order to be able to receive a signal you first need to tune the receiver to the required frequency.
We hope that with the help from the community, we will have the most complete open database of radio protocols from different manufacturers. Our new Sub-GHz app can decrypt signals from more than 50 different keyfob manufacturers, and it's constantly being extended.
Thank you all for the work done in these difficult circumstances. We've got a real dream team that handles all this load. In addition to development we've been dealing with a lot of other tasks: logistics, accounting, certification, financial planning, procurement, organizing production, testing, packaging, customs declarations and permits, searching for alternatives during the component crisis, and negotiating with the suppliers. For 20 hard-to-get electrical components, more than 60 alternatives were selected and tested (THIS WAS A REAL PAIN).Our desktop app qFlipper is available for Windows/macOS/Linux.
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Boxes full of LCD displays for Flipper Zero Here's what we've been doing while we had to wait for the screens and the latest production and delivery plan. We have 60000 screens, enough for all the devices backed on Kickstarter and for some part of the pre-orders made on our website. This means that we now have all the components necessary to start mass-producing Flippers. Good news everyone! The LCD displays have finally arrived.