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100W GaN Anti-Drone Jamming Module 840-1000MHz

Technology: GaN
Frequency Range: 900MHz
Connector Type: N Female
Output Power: 100W

100W anti-drone jamming module, 100W (50dBm) output, 840-1000MHz, GaN-on-SiC, built-in noise modulation, N female, 28-32V DC, 150x80x22mm, 800g.

Technical Specifications

ParameterSpecificationNotes
Frequency range840–1000 MHzCovers long-range drone telemetry and control sub-bands
Output power100 W (50 dBm) typicalMeasured at 50 Ω, full band
Supply voltage28–32 V DC28 V nominal; regulated supply recommended
Current draw≤9.2 AAt 28 V, 100 W output
Modulation sourceBuilt-in high-speed noise modulation sourceCustomizable to VCO, DDS, or SDR
Analog scan speed270 kHz typicalCustomizable from 100 kHz to 500 kHz
Input / output impedance50 ΩN-type female connector
Protection LEDsPower, Over-voltage, Over-temperatureVisual status indication
Operating temperature-20 °C to +65 °CAmbient and baseplate range
Dimensions (L×W×H)150 × 80 × 22 mmCompact high-power module
Weight800 gCopper base carrier
Base materialGaN-on-SiC on copper carrierPatented thermal management

Product Details

100W GaN Anti-Drone Jamming Module 840-1000MHz

Power That Drone Links Can’t Ignore

Many long-range drones operate control and telemetry links between 840 and 1000 MHz, often using robust spread-spectrum waveforms. Low-power jammers simply fail against such signals. The 100W Anti-Drone Jamming Module delivers a full 100 watts of RF output, creating a denial zone no battery-powered receiver can punch through. When paired with a directional antenna, effective standoff range multiplies dramatically.

One Board Replaces an Amplifier Rack

There is no need to stack multiple LDMOS pallets or manage combiner losses. This 100W Anti-Drone Jamming Module consolidates high-power jamming onto a single compact board. It runs from a standard 28 V DC rail and draws under 9.2 A at full output, simplifying power supply design for portable, vehicle-mounted, or fixed-site deployments.

GaN-on-SiC: Instantaneous Wideband

The core is a Class AB gallium nitride on silicon carbide transistor mounted on a copper carrier. Unlike narrowband designs, it provides instantaneous response across the entire 840–1000 MHz range without retuning. GaN-on-SiC handles high power density in a small footprint, while the copper base pulls heat away quickly — a patented thermal approach that keeps the module stable during continuous swept jamming.

50-Ohm Matched with N-Type Ruggedness

Input and output are matched to 50 ohms, so the 100W Anti-Drone Jamming Module drops into existing RF chains with minimal tuning. The N-type female output connector handles 100-watt power levels securely, resists vibration and moisture, and offers far greater mechanical reliability than SMA connectors in outdoor installations.

Built-in Modulation, Ready Out of the Box

There is no need for an external signal generator. A high-speed noise modulation source is integrated directly into the 100W Anti-Drone Jamming Module. It sweeps a broad interference carpet across 840–1000 MHz at a default analog scan speed of 270 kHz, disrupting both slow and fast frequency-hopping protocols the moment DC power is applied.

Mission-Specific Customization

The scan speed can be factory-customized from 100 kHz to 500 kHz. For unique threat profiles, the internal modulation engine can be swapped for a VCO, DDS, or SDR-based source. This flexibility allows you to tailor the jamming waveform precisely without redesigning the RF deck, and every module ships calibrated and tested under continuous key-down conditions.

Copper Carrier Keeps It Cool

The copper base carrier serves as both structural mount and thermal spreader. Bolt it to a finned heatsink or a liquid-cooled cold plate, and junction temperatures remain safe even at +65°C ambient. Weighing only 800 grams and measuring 150 × 80 × 22 mm, the 100W Anti-Drone Jamming Module fits into telescopic mast payloads and sealed outdoor cabinets with ease.

Surviving Hour-Long Sweep Missions

Full-power burn-in across the rated temperature range ensures the module does not drift or degrade during extended operations. The aluminum chassis and copper core resist corrosion, and the GaN transistor runs comfortably within safe limits under continuous sweep conditions. When missions stretch for hours, the 100W Anti-Drone Jamming Module keeps transmitting without thermal throttling.

Instant Status Through Onboard LEDs

Three LEDs give immediate diagnostics: green for DC power, one amber/red for over-voltage, and another for over-temperature protection. If an antenna fault occurs, onboard circuits automatically roll back output power to prevent damage. Field checks become quick and simple, reducing downtime in remote counter-UAS deployments.

Frequently Asked Questions

Q: What modulation does the 100W Anti-Drone Jamming Module use out of the box?
A: It uses an integrated high-speed noise modulation source sweeping at 270 kHz across 840–1000 MHz. This creates a wide noise carpet that denies frequency-hopping drone links without requiring an external signal generator.
Q: Can the sweep speed and modulation type be changed?
A: Yes. Scan speed is customizable between 100 kHz and 500 kHz. The internal source can also be replaced with a VCO, DDS, or SDR to generate specific waveforms for different threat environments.
Q: How is the module protected from overheating or antenna faults?
A: Onboard circuits monitor voltage and temperature, automatically reducing output if limits are exceeded. LEDs indicate over-voltage and over-temperature. High-VSWR protection guards against antenna mismatch and open load conditions.
Q: Why does this module use a copper carrier and N-type connector?
A: The copper carrier rapidly dissipates heat from the GaN transistor, enabling sustained 100-watt sweeps. The N-type female connector handles high power securely, withstands vibration and moisture, and is far more robust than SMA for field use.

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