KerberosSDR

KerberosSDR is a four-channel coherent Software Defined Radio (SDR) receiver designed for direction finding, beamforming, and advanced RF signal analysis applications. Professional RF engineers, spectrum analysts, and research institutions use this platform to detect, locate, and characterize electromagnetic signals across the VHF, UHF, and L-band frequency ranges. It solves the critical challenge of phase-coherent multi-antenna signal processing by providing synchronized RF front-ends with integrated beamforming capabilities for precision radio direction finding (RDF) and passive radar applications.

Product Overview

KerberosSDR operates as a phase-coherent four-channel receiver system that maintains precise phase alignment across all RF channels, enabling advanced signal processing techniques impossible with single-channel SDRs. The system utilizes a master-slave architecture with a primary RTL-SDR dongle as the master clock reference and three synchronized slave units, all sharing a common 28.8 MHz reference oscillator for phase coherency. This architecture allows simultaneous reception of identical RF signals across four spatially separated antennas, creating a virtual antenna array for beamforming, direction finding, and multi-target tracking applications. The integrated Kerberos software suite provides real-time signal visualization, direction of arrival (DOA) estimation using multiple algorithms including Bartlett, Capon, and MUSIC, and automated threat detection capabilities.

The platform excels in passive RF surveillance, amateur radio direction finding, spectrum monitoring, and academic research environments where traditional commercial RDF systems are prohibitively expensive. Its modular design allows users to implement custom signal processing algorithms in GNU Radio or Python, making it highly adaptable for specialized applications. The four-channel coherent architecture provides superior angular resolution compared to single-channel systems, with typical bearing accuracy of 2-5 degrees depending on antenna array geometry and signal-to-noise ratio. Built-in GPS integration enables geolocation of RF emitters through triangulation from multiple receiving stations.

Key Specifications

Specification	Details
Product Type	Four-Channel Coherent Software Defined Radio Receiver
Brand	Kerberos SDR Project
Origin	Original/Authentic
Warranty	7 days on manufacturing defects
Shipping	1-5 days from Bengaluru
Delivery	7-8 days across India
Support	24/7 via Email and WhatsApp
Frequency Range	24 MHz to 1.8 GHz (RTL2832U tuner dependent)
Channel Configuration	4 synchronized coherent channels
Reference Clock	28.8 MHz master oscillator with phase-locked slave synchronization
Sample Rate	2.4 MSPS (Mega Samples Per Second) per channel
ADC Resolution	8-bit per channel
Phase Coherency	Less than 5 degrees RMS phase error across channels
Beamforming Algorithms	Bartlett, Capon, MUSIC, Root-MUSIC, Esprit
GPS Integration	NMEA protocol support for geolocation and time synchronization
Software Support	GNU Radio, Python, MATLAB compatible
Operating Temperature	0 to 40 degrees Celsius
Power Consumption	Approximately 2.5W per channel
Interface	USB 3.0 for data streaming, USB 2.0 compatible with reduced performance

Key Features

• Four-Channel Phase-Coherent Reception: Maintains sub-5-degree phase alignment across all RF channels enabling precise beamforming and direction finding with superior angular resolution compared to single-channel systems
• Advanced Beamforming Algorithms: Integrated support for Bartlett, Capon, MUSIC, and Root-MUSIC algorithms enabling adaptive array processing and null steering for interference rejection
• Real-Time Direction of Arrival Estimation: Provides instantaneous DOA calculations with 2-5 degree bearing accuracy, ideal for RF emitter localization and threat detection applications
• GPS Integration and Geolocation: Built-in NMEA GPS support enables multi-station triangulation for precise RF source geolocation and synchronized time-stamping across distributed receiver networks
• GNU Radio and Python Compatible: Open-source software architecture allows custom signal processing implementation and integration with existing SDR ecosystems for specialized applications
• Passive Radar Capability: Simultaneous reception of direct and reflected signals enables bistatic radar operation for target detection and tracking without active RF transmission
• Wide Frequency Coverage: 24 MHz to 1.8 GHz tuning range covers VHF, UHF, and L-band with flexible tuner selection for extended frequency support
• Synchronized Multi-Station Networks: Master-slave architecture supports distributed receiver arrays for enhanced direction finding accuracy and extended coverage areas

Applications and Use Cases

• Radio Direction Finding (RDF) and Emitter Localization: Detect and locate unauthorized RF transmitters, radar systems, and communication sources with 2-5 degree bearing accuracy using four-channel coherent beamforming for amateur radio contests, spectrum enforcement, and security applications
• Passive Radar and Target Detection: Implement bistatic radar systems utilizing broadcast television or FM radio signals as illuminators to detect and track aircraft, maritime vessels, and ground vehicles without active RF transmission or radar licensing requirements
• Spectrum Monitoring and Threat Assessment: Perform real-time spectrum surveillance across VHF/UHF bands to identify interference sources, unauthorized transmissions, and spectrum violations with simultaneous multi-channel analysis and automated threat detection
• Academic Research and Signal Processing: Develop and validate advanced signal processing algorithms including adaptive filtering, MIMO techniques, and machine learning-based signal classification in university laboratories and research institutions
• Distributed Sensor Networks: Deploy multiple KerberosSDR units synchronized via GPS for large-area RF coverage, multi-target tracking, and geolocation accuracy improvement through triangulation from geographically separated receiver stations
• Amateur Radio Direction Finding Contests: Enable competitive RDF activities with professional-grade bearing accuracy and real-time visualization for fox hunting and hidden transmitter location events

How to Use

To set up KerberosSDR, first install the Kerberos software suite on a Linux or Windows system with USB 3.0 connectivity. Connect the four RTL-SDR dongles to the synchronization hub, ensuring the master unit is designated as the primary clock reference. Install the 28.8 MHz reference oscillator module and calibrate phase alignment using the built-in calibration utility. Configure your antenna array geometry in the software interface, specifying element spacing and orientation to optimize beamforming performance. For direction finding applications, mount four identical antennas (omnidirectional or Yagi) in a known geometric configuration such as a square or circular array, with typical element spacing of 0.5 to 1 wavelength at your target frequency.

Launch the Kerberos GUI application and select your desired beamforming algorithm (Bartlett for general purpose, Capon for improved resolution, or MUSIC for maximum angular discrimination). Set the center frequency and bandwidth for your target signal, then initiate real-time signal reception and analysis. The software displays bearing estimates, signal strength, and spectral data in real-time. For advanced applications, integrate with GNU Radio using the gr-osmosdr driver to implement custom signal processing chains. Enable GPS synchronization if using distributed receiver stations for multi-station triangulation and geolocation. Monitor phase coherency metrics continuously to ensure optimal system performance, and recalibrate if phase drift exceeds 10 degrees.

Frequently Asked Questions

What is the difference between KerberosSDR and single-channel RTL-SDR receivers?

KerberosSDR provides four phase-coherent channels with synchronized RF front-ends, enabling beamforming and direction finding capabilities impossible with single-channel systems. Single RTL-SDR receivers cannot maintain phase alignment across multiple antennas, limiting them to basic spectrum monitoring. KerberosSDR's master-slave architecture with 28.8 MHz reference oscillator ensures less than 5 degrees RMS phase error, allowing advanced signal processing algorithms like MUSIC and Capon beamforming for precise DOA estimation with 2-5 degree bearing accuracy.

Can KerberosSDR detect signals below the noise floor?

Yes, KerberosSDR's coherent multi-channel architecture provides array gain and improved signal-to-noise ratio through beamforming. By coherently combining signals from four channels, the system achieves approximately 6 dB array gain, effectively improving detection sensitivity. Advanced algorithms like Capon and MUSIC further enhance weak signal detection by exploiting spatial correlation. However, detection threshold depends on signal characteristics, antenna array geometry, and algorithm selection. Typical improvement allows detection of signals 6-12 dB below single-channel noise floor.

What antenna configurations work best with KerberosSDR?

Uniform Linear Arrays (ULA) with 0.5-1 wavelength spacing provide optimal performance for direction finding, while circular arrays offer 360-degree coverage without ambiguity. For VHF/UHF applications, omnidirectional monopoles or dipoles work well, while higher frequencies benefit from Yagi or log-periodic antennas. Array geometry must be precisely known and configured in software for accurate DOA estimation. Four identical antennas with matched gain and phase response are essential. Typical configurations include 4-element squares for portable systems or larger arrays for enhanced angular resolution.

Is KerberosSDR compatible with GNU Radio and MATLAB?

Yes, KerberosSDR integrates seamlessly with GNU Radio through the gr-osmosdr driver, allowing custom signal processing flowgraphs and advanced DSP implementations. MATLAB compatibility is available through third-party interfaces and custom Python scripts. The open-source architecture enables users to develop specialized algorithms for beamforming, signal classification, and geolocation. Python libraries provide direct access to raw IQ data streams for machine learning and advanced analytics applications.

When will I receive my order?

Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.

What is your return and warranty policy?

We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.

Are bulk discounts available?

Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.

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