Home > Product > Drone jammer module > 100W > 700-1020MHz 100W Lora Drone Jammer Module – Drone Countermeasures Q&A
Overview Our 700-1020MHz 100W GaN drone jammer module is designed for electronic countermeasures against Lora-based communications, drone control links, and other devices operating in this wide frequency range. Built with GaN-on-SiC technology and patented thermal management, it delivers reliable 100W output in a compact, rugged package. Below we answer co……
Our 700-1020MHz 100W GaN drone jammer module is designed for electronic countermeasures against Lora-based communications, drone control links, and other devices operating in this wide frequency range. Built with GaN-on-SiC technology and patented thermal management, it delivers reliable 100W output in a compact, rugged package. Below we answer common questions about its capabilities, customization, and integration.
A: This module is engineered to disrupt or block wireless communications in the 700MHz to 1020MHz spectrum. It is particularly effective against Lora-based IoT devices, certain drone command links, and other unlicensed-band systems. With 100W output power and fast sweeping, it can overwhelm receivers within range.
A: It covers 700MHz to 1020MHz continuously. The amplifier is wideband and maintains full 100W output across the entire band without tuning.
A: The module delivers 50 ±1 dBm (approximately 100 Watts) at the N-type output connector. Power is consistent across the frequency range and over temperature.
A: It requires a 28V DC supply (accepts 28–32V). At full 100W output, current consumption is ≤9.2A. Lower power operation reduces current draw accordingly.
A: The module includes a built-in high-speed noise modulation source optimized for maximum spectral spread. Alternatively, you can inject your own signal (VCO, DDS, or SDR) via the N-type input – the module then amplifies it to 100W.
A: Yes. The standard sweep rate is 270 kHz, but it can be customized between 100 kHz and 500 kHz to match specific threat signals or regulatory requirements.
A: The module measures 150 mm × 80 mm × 22 mm and weighs only 800 grams. Its compact size makes it easy to integrate into drones, ground vehicles, or portable systems.
A: The module uses GaN-on-SiC technology on a copper carrier with patented thermal management. For continuous full-power operation, mounting on a heatsink or using forced air is recommended. The internal protection circuit prevents overheating by shutting down if temperature limits are exceeded.
A: It operates from -20°C to +65°C ambient temperature, suitable for most field deployments. The housing is rugged but not sealed; additional environmental protection may be needed in harsh conditions.
A: Three LED indicators show status: Power On, Overvoltage, and Overtemperature. They help monitor safe operation at a glance.
A: Absolutely. We offer customization of sweep rate, input signal source (VCO, DDS, SDR), and even mechanical adaptations. Contact our engineering team with your requirements.
| Parameter | Detail |
|---|---|
| Frequency Range | 700 – 1020 MHz |
| Output Power | 50 ±1 dBm (100W) |
| Operating Voltage | 28 V (28 – 32 V range) |
| Operating Current | ≤9.2 A @ 100W |
| Sweep Rate | 270 kHz (customizable 100 – 500 kHz) |
| Input Signal Source | Internal high-speed noise modulation; optional VCO, DDS, or SDR |
| Impedance | 50 Ω (input/output) |
| RF Connector | N Female |
| LED Indicators | Power, Overvoltage, Overtemperature |
| Operating Temperature | -20°C to +65°C |
| Dimensions | 150 × 80 × 22 mm |
| Weight | 800 g |
Lora network jamming – Disrupt IoT and sensor networks
Drone countermeasures – Block 700–1020 MHz command links
Electronic warfare training – Simulate hostile jamming
Spectrum testing – Generate high-power interference for receiver testing
For further technical details or to discuss a custom configuration, please contact our sales and engineering team.
86-13920737097
AddBuilding 2, Honggao Industrial Park, Bao’an District, Shenzhen, China.
E-mailjackyjingtj@gmail.com
Copyright @ 2026 BNT Jammer
Copyright @ 2026 BNT Jammer
Copyright @ 2026 BNT Jammer
