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You’re looking at 50W continuous output at the antenna port, which means you’re not just forking over for a separate driver amp stage before the PA—this module handles the digital signal generation and the final push in one 83×40×17mm aluminum brick. We’ve seen integrators shave about 30% off their BOM just by ditching the intermediate preamp, and the 112g weight means you can mount it directly to a gimbal without worrying about balance. The SMA-Female connector is standard, so you’re not stuck hunting for weird adapters.
Frequency coverage spans 300-1200MHz and then a dedicated 2.4GHz ISM band, but what actually matters is you can order it locked to 433MHz, 868MHz, 915MHz, or 2.4GHz—we set the DDS and filtering at the factory so you don’t waste time tuning a broadband source. Most buyers go with the 915MHz option for North American drone bands, though the 2.4GHz variant handles Wi-Fi jamming cleaner than a generic signal generator would. Running it at 24-28V DC and pulling 2.8A, you’ll need a supply that can deliver about 80W continuous, since effiency is roughly 60-65% at full tilt.
That -40°C to +80°C temperature range isn’t just a spec on paper—we’ve cycled these modules in thermal chambers for 500 hours or so, and the digital stabilization keeps the carrier within ±1ppm across whole range, which is tighter tolerance than most off-the-shelf signal sources. The aluminun housing acts as a decent heat spreader, but you’ll still need active cooling for sustained operation at 50W; we usually recommend a small 12V fan or a heatsink with fins, because the case will hit 60°C+ within a few minutes otherwise.
Lead time is typically 3-4 weeks for custom frequency bands, but we keep stock of the standard 2.4GHz and 915MHz versions—confirm order quantty before assuming availability. MOQ is 10 units for the custom bands, but we’ll flex down to 5 if you’re a returning custmer or have a signed NDA in place. Every module ships with a COA showing output power, frequency accuracy, and harmonic suppression (< -20dBc at 2nd harmonic), so you can skip the extra validation step if your system already accepts standard reports.
It’s not really suited for multi-band simultaneous jamming—this is a single-frequency source, so you’d need multiple modules for a full-spectrum sweep. We’ve had some customers try to run them in parallel with external combiners, but the insertion loss eats into your effective output, so you’re better off with a different architecture if you need 2.4GHz and 868MHz at the same time. Anyway, for a dedicated counter-UAV system where you only need to disrupt one control band at a time, this module pretty much gets out of your way.
MOQ starts at 10 units for standard frequency bands. If you need a custom band like 433MHz or 915MHz, we can accommodate lower quantities but pricing may vary — just reach out to our sales team.
For standard bands (300-1200MHz or 2.4GHz), lead time is about 2-3 weeks. Custom band tuning adds roughly 1-2 weeks, depending on volume. We’ll confirm once we have your specs.
We can supply a basic performance test report for each unit, showing output power, frequency accuracy, and SWR. Full CE or FCC certification depends on your final system integration — we don’t pre-certify the module alone, but we can share data to support your filing.
The 2.4GHz band is fixed at the ISM range (2.4-2.4835GHz) unless you request a custom narrower band. The module’s frequency is set at production, so let us know your exact center frequency and we’ll tune it for you.
Store them in a dry, anti-static environment between -20°C and +60°C. Each module comes individually in an anti-static bag with foam padding inside a cardboard box. Avoid stacking heavy items on top during storage.
