Finding capable, free SDR software that goes beyond the basics is not easy. Most tools do one thing reasonably well — a waterfall display here, a scanner there. The Khanfar Spectrum Analyzerproject, developed by MKhanfar, takes a different approach. It is a growing collection of Windows-based SDR applications, each targeting a specific signal analysis task, and all built around readily available hardware — primarily the RTL-SDR dongle. This post covers the full suite as it stands in 2025–2026, with enough technical detail to help you decide which tools are worth your time.
What Is the Khanfar Spectrum Analyzer Suite?
The project is hosted at khanfar-spectrum-analyzer.web.app and offers around twenty distinct software tools, each available as a free download via Google Drive. The downloads are ZIP archives, most protected with the password 1234. All applications run on Windows 10 or 11 and require the WinUSB driver installed via the Zadig utility — the same driver setup that most RTL-SDR users will already have in place. A minimum of .NET Framework 4.7.2 is needed for several of the tools.
The hardware requirement is modest: one or more RTL2832U-based USB dongles, though several tools in the suite are specifically designed for multi-SDR setups. A dual-core CPU with 2 GB RAM covers basic operation, though more demanding tools — particularly the direction finders and 3D visualizers — will benefit from a faster machine.
The Flagship: Khanfar Spectrum Analyzer
The core application is the Khanfar Spectrum Analyzer, a real-time FFT and waterfall display tool that supports an unlimited number of RTL-SDR devices connected simultaneously. The software handles automatic device detection and includes smart busy-device skipping — if one dongle is occupied by another process, it moves on to the next without user intervention.
Visualization modes include a conventional 2D spectrum display, a waterfall, and a 3D view, useful for spotting intermittent signals that would be easy to miss in a live FFT plot. Sample rates and gain are configurable, and the interface is straightforward enough that setup time is minimal.A video tutorial is available on the developer’s YouTube channel.
Khanfar RSA: The Multi-SDR Console
The newest and most feature-rich application in the collection is Khanfar RSA, currently at version 1.00. It is a multi-SDR operations console that covers a significantly wider range of functions than the flagship analyzer. Hardware support extends beyond RTL-SDR to include the Airspy HF+, LimeSDR, and SDRPlay devices.
On the demodulation side, RSA implements pure DSP-based AM and SSB decoding, making it suitable for SWL and general HF monitoring. It also handles analog ATV reception and hybrid DATV. For infrastructure monitoring, the tool includes upgraded ADS-B decoding with map display and AIS ship tracking — both features that would ordinarily require separate applications. IQ recording and WAV playback are built in, and the FFT engine uses a “3 Layers Gamma FFT” approach aimed at improving weak-signal visibility across a wide dynamic range.
Wideband Scanning: RTL Sweeper and Spectra-All
For wideband spectrum surveillance, two tools stand out. The Khanfar RTL Sweeper performs fast sweep analysis across a user-defined frequency range, with an adjustable sweep speed and configurable FFT bin size. A sweep line overlays the live spectrum display so you can track exactly where in the band the receiver is currently sampling. It is a clean, single-purpose tool — well suited for quickly checking a wide slice of spectrum before narrowing down to a signal of interest.
Khanfar Spectra-All takes the wideband concept further with unified multi-SDR control designed for ultra-wideband monitoring. Version 1.2 added a LAN Command Controller, enabling remote SDR operation over a local network — useful for setups where the antenna and the computer are in different locations, or where you want to control multiple remote receivers from a single interface.
Direction Finding Tools
The direction finding section of the suite is arguably its most technically ambitious area. The Khanfar Direction Finder uses four RTL-SDR dongles simultaneously, measuring received signal power at 4096 samples per reading across a bandwidth of 1.2 MHz at a 2.4 MS/s sample rate. The results feed a polar plot and compass visualization, with adaptive threshold-based alarms for signal detection. The frequency range covers 24 MHz to 1.766 GHz. The documentation includes guidance on antenna systems — log-periodic dipole arrays, Yagi-Uda antennas, and helical antennas — with setup configurations for each. A video walkthrough of the Direction Finder is available on the developer’s channel.
The Direction Finder QUINTET extends this to five SDR units, adding a central omnidirectional antenna for improved triangulation. Version 2.0.0 introduced an interactive map view with offline tile caching, triangulation mode for estimating source direction, and a dynamic signal distance calculator. For those doing mobile fox-hunting or fixed monitoring, the QUINTET setup is a significant step up over most freely available DF tools.
CFAR Signal Detection
Several tools in the suite implement CFAR (Constant False Alarm Rate) detection — a technique borrowed from radar signal processing that adapts the detection threshold dynamically to the local noise environment. This makes it substantially more reliable than a fixed threshold for spotting weak or intermittent signals in a busy band.
The Khanfar Spot Scanner – CFAR Edition combines automated scanning with CFAR detection and frequency mask triggering. The RTL-SDR CFAR Mask Analyzer adds mask-based analysis tools for RTL-SDR users, and a dedicated Airspy CFAR Mask Analyzer provides the same capability for Airspy hardware. For anyone doing unattended monitoring or logging, these tools offer a meaningful upgrade in detection reliability.
Supporting Tools
Beyond the main applications, the suite includes several utilities that round out day-to-day SDR work. The Khanfar IQ Live-Rec-Playback tool handles IQ recording, visualization, and playback for RTL-SDR. The Khanfar-FM Radio receiver covers both WFM (87.5–108 MHz) and NFM (24 MHz–1.766 GHz) with station scanning, bookmarking, and audio output at 44.1 kHz. The WFM RX (Fosphor) pairs a wide-FM receiver with GPU-accelerated Fosphor spectrum display via GNU Radio. A standalone Phase-Based DF Calculator is also available for designing circular antenna arrays for phase-comparison direction finding.
Hardware: Khanfar Quad RX Board
For those building dedicated multi-SDR systems, MKhanfar has also designed the Khanfar Quad RX v1.0 — a four-channel synchronized RTL-SDR receiver board. This is a PCB-level hardware product aimed at users who need phase-coherent multi-channel reception without assembling four independent dongles on separate USB connections.
Overall Impression
The Khanfar suite sits in an interesting position. It is not polished commercial software, and the documentation is variable across tools. But the technical ambition is genuine — multi-SDR synchronization, CFAR detection, GPU-accelerated display, and phase-based direction finding are not features you typically find in a freely distributed RTL-SDR tool collection. For an experimenter running Windows with one or more RTL-SDR dongles, several of these applications — particularly RSA, the CFAR scanners, and the Direction Finder QUINTET — are worth downloading and evaluating. Start with the flagship analyzer to confirm your driver setup is working, then move into the more specialized tools from there.
The project is actively maintained, with a public update log on the site and a YouTube channel carrying demonstration videos and tutorials. All software is free to download from the project homepage.
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