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Brand: | Krakensdr a Phase-Coherent |
Description: | Krakensdr a Phase-Coherent |
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A coherent radio allows for very interesting applications, such as radio direction finding, passive radar, and beamforming. Some use cases include:
Physically locating an unknown transmitter of interest (e.g. illegal or interfering broadcasts, noise transmissions, or just as a curiosity)
HAM radio experiments such as radio fox hunts or monitoring repeater abuse
Tracking assets, wildlife, or domestic animals outside of network coverage through the use of low power beacons
Locating emergency beacons for search-and-rescue teams
Locating lost ships via VHF radio
Passive radar detection of aircraft, boats, and drones
Traffic-density monitoring via passive radar
Beamforming
Interferometry for radio astronomy
The previous version of KrakenSDR was known as KerberosSDR, which we successfully crowdfunded on Indiegogo. All backers of KerberosSDR received their orders and the relevant source code for direction finding and passive radar. KrakenSDR improves upon KerberosSDR in several important respects:
Automatic calibration hardware. It is no longer necessary to manually disconnect antennas during calibration. It all happens automatically when you change frequency. This will allow for KrakenSDR stations to be remotely operated.
Five channels. KrakenSDR has five channels instead of four, which greatly improves-direction finding accuracy.
Low-noise design. KrakenSDR has a cleaner spectrum with much less internal noise than KerberosSDR.
USB Type-C ports and rugged, CNC-milled enclosure. KrakenSDR is built for high reliability in the field.
Interface with external devices. Bias tees on all ports allow for LNAs and other devices to be powered easily.
Improved DAQ, DSP, and GUI software. Built on the foundation of the KerberosSDR software, the KrakenSDR software adds auto-calibration, tracking of intermittent signals, greater stability, arbitrary processing-block sizes, and a new web-based GUI.
Software upgrades. Improvements to existing companion software and plans for new companion software.
Custom Android app Custom Android app that can automatically determine the location of a transmitter and provide automatic turn-by-turn navigation to the transmitter location.
Five-channel, coherent-capable RTL-SDR, all clocked to a single local oscillator
Built-in automatic coherence synchronization hardware
Automatic coherence synchronization and management via provided Linux software
24 MHz to 1766 MHz tuning Range (standard R820T2 RTL-SDR range, and possibly higher with hacked drivers)
4.5 V bias tee on each port
Core DAQ and DSP software is open source and designed to run on a Raspberry Pi 4 (see below)
Direction-finding software for Android (free for non-commercial use)
Custom antenna set available
You will need KrakenSDR, a USB Type-C cable, a 5 V / 2.4 A+ USB Type-C power supply, and antennas-such as our magnetic whip antenna set-that are appropriate for your application.
For computing we recommend a Raspberry Pi 4, for which we will be providing ready-to-use card images. Optionally, for direction finding, you will want an Android phone or tablet with mobile-hotspot capabilities, GPS, and a compass, ideally produced within the last three to four years.
KrakenSDR makes use of five custom RTL-SDR circuits consisting of R820T2 and RTL2832U chips. The RTL-SDR is a well-known, low-cost software-defined radio (SDR), but throw five units together and using them on the same PC will not make them "phase coherent;" each one will receive signals at a slightly different phase offset from the others. This makes it difficult or impossible to achieve a high degree of when measuring relationships between signals that arrive at different antennas.
To achieve phase coherence, KrakenSDR drives all five RTL-SDR radios with a single clock source, and contains internal calibration hardware to allow the phase relationship between channels to be measured precisely and corrected for. Additionally, the overall design of KrakenSDR works to ensure phase stability, with care taken in the areas of heat management, driver configuration, power supply, and external-interference mitigation.
1. SMA Antenna inputs |
5. R820T2 tuner |
9. Individual tuner on/off DIP switched |
2. Bias Tee |
6. RTL2832U ADC |
10. USB Type-C DATA |
3. ESD |
7. Noise source |
11. USB Type-C |
4. Noise calibration switches |
8. USB Hub |
Our coherent SDR software is based on three important factors:
Open source We provide open source code for the Data Acquisition (DAQ) software used to ingest RF data from all five antenna inputs, automatically calibrate and achieve phase coherence via the switches and noise source, and provide coherent samples for the next layer. This DAQ code typically runs on a Pi 4, or similar single board computer (SBC), but could also run on a PC.
DSP code for specific use cases Our open source DSP code supports direction finding and passive radar. That code implements direction-finding algorithms such as MUSIC, which can also run on the same Pi 4 or PC as the DAQ code. We also provide open source DSP code for our passive radar. (As passive radar is more computationally intensive, this particular DSP code may run best on a more powerful machine.)
Application layer We make use of the data coming out of the DSP layer by plotting and logging it. Generally, programs in this layer run on a separate machine. For direction finding, we are providing a free license to an Android app for mapping, logging data, and automatically estimating the transmitter location.
The new KrakenSDR software comes with an easy-to-use web interface for setting up a direction finding system. With this interface it is possible to set the frequency, gains, and other advanced settings related to the DAQ code. You can also monitor the live-spectrum view and graphs of output from the direction-finding algorithm.
In addition to the web interface, we have developed a companion radio-direction finding Android app that can automatically determine the location of a transmitter. Since a typical Android phone has capabilities that include necessary sensors and software like GPS, compass, mobile data, and mapping, we have made use of those features to create an affordable radio direction finding system.
An example scenario might see the antenna array mounted on the roof of a car, with KrakenSDR, a Raspberry Pi 4, and an Android phone inside the vehicle cabin. As the operator drives, the KrakenSDR software will constantly provide bearings relative to the antenna array. The Android app receives these bearings via Wi-Fi and adjusts them for the direction of movement determined via the Android phone's GPS sensor, resulting in an automatic and accurate calculation of the map bearing towards the transmitter for that particular location. The app then logs this data and plots it on a map grid, which is used to automatically determine where the bearings intersect. Generally it will only take a few minutes of driving to accurately locate a transmitter with a strong continuous signal.
The app then goes a step further and provides automatic turn-by-turn navigation that will lead you to the transmitter without needing to take your eyes off the road! These are features that we've only seen before in high end direction finders that most potential users would find prohibitively expensive.
We will be releasing our new app as a paid app on the Google Play store, but all KrakenSDR backers will receive a license for free!